Three-dimensional(3D)cell cultures have contributed to a variety of biological research fields by filling the gap between monolayers and animal models.The modern optical sectioning microscopic methods make it possible...Three-dimensional(3D)cell cultures have contributed to a variety of biological research fields by filling the gap between monolayers and animal models.The modern optical sectioning microscopic methods make it possible to probe the complexity of 3D cell cultures but are limited by the inherent opaqueness.While tissue optical clearing methods have emerged as powerful tools for investigating whole-mount tissues in 3D,they often have limitations,such as being too harsh for fragile 3D cell cultures,requiring complex handling protocols,or inducing tissue deformation with shrinkage or expansion.To address this issue,we proposed a modified optical clearing method for 3D cell cultures,called MACS-W,which is simple,highly efficient,and morphology-preserving.In our evaluation of MACS-W,we found that it exhibits excellent clearing capability in just 10 min,with minimal deformation,and helps drug evaluation on tumor spheroids.In summary,MACS-W is a fast,minimally-deformative and fluorescence compatible clearing method that has the potential to be widely used in the studies of 3D cell cultures.展开更多
In view of the problems of the traditional cell incubator,such as the small range of cell culture types,the inability to adjust the internal space of the incubator according to needs,and the inconvenient sampling,this...In view of the problems of the traditional cell incubator,such as the small range of cell culture types,the inability to adjust the internal space of the incubator according to needs,and the inconvenient sampling,this study innovatively designed a cell incubator structure.It proposed a new design concept that can solve the above-mentioned shortcomings.The cell incubator after the new structural modification can adjust the internal space structure of cell culture by setting the bolt-fixed connection between the fixed plate and the vessel divider.It realizes the cultivation of various cells through refrigeration modules and heating modules.Through setting a sampling hole in the glass inner door,it is favorable for operators to take samples,making cell culture more convenient and efficient.展开更多
In vitro tissue culture of hard woody, endangered, medicinal plant Coscinium fenestratum is most challenging to plant tissue culturists. In the present study, petiole and leaf explants of Coscinium fenestratum were in...In vitro tissue culture of hard woody, endangered, medicinal plant Coscinium fenestratum is most challenging to plant tissue culturists. In the present study, petiole and leaf explants of Coscinium fenestratum were induced to form callus when cultured on vermicompost extract media along with coelomic fluid. Suspension medium was developed using vermicompost extract and coelomic fluid in 3:1 ratio. Phytochemical analysis of the alkaloid berberine was confirmed from callus, suspension cell culture and suspension medium by Thin Layer Chromatography and High Performance Liquid Chromatography. Vermicompost and its extracts with coelomic fluid have shown maximum (100 per cent) response of callus induction. Callus mass enlarged with increasing concentration of coelomic fluid and callus growth was assessed from the biomass. Incubation of culture tubes in dark supported callus development significantly. The Rf value of 0.36 confirmed the presence of berberine by Thin Layer Chromatography. Qualitative analysis confirmed the presence of alkaloid berberine with the retention time of 2.8 minutes similar to that of standard reference sample from Sigma chemicals, USA. The suspension medium turned deep yellow because of the release of the alkaloid. Vermicompost and its extracts along with coelomic fluid have shown the economical approach for micropropagation of economically and medicinally important plants.展开更多
Plant cell culture technology is a technology that applies the research results of cell engineering to produce plant biological products at the cellular level.In recent years,the secondary metabolites of plants have a...Plant cell culture technology is a technology that applies the research results of cell engineering to produce plant biological products at the cellular level.In recent years,the secondary metabolites of plants have attracted more and more attention.The use of plant cell culture technology is a fast and efficient method of producing secondary metabolites.展开更多
There is no clear consensus regarding how cells respond to hydrostatic pressure. This is largely attributable to the high heterogeneity among cell types and the diverse custom-made devices used in previous studies. Th...There is no clear consensus regarding how cells respond to hydrostatic pressure. This is largely attributable to the high heterogeneity among cell types and the diverse custom-made devices used in previous studies. The aim of this work was to develop a facile device that could mimic various pressure environments and then delineate the cellular response to pressure stimulus. The device described here achieved both stable and periodic pressurization without oxygen deprivation. The biological utility of the device was assessed using human umbilical vein endothelial cells. We found more stereoscopic nuclear morphology and re-distribution of lamin A/C under high hydrostatic pressure compared to control cells. Mass spectrometry-based proteomics analysis showed significant changes in mitochondria-related pathways. Western blot analysis confirmed that high hydrostatic pressure induced a tendency toward mitochondrial fusion. Increased mitochondrial activity was observed as well. In conclusion, this device can be readily applied in biological research and extend our understanding of cellular mechano-sensation and the associated changes in mitochondrial behaviors.展开更多
Surface topographies of cell culture substrates can be used to generate in vitro cell culture environments similar to the in vivo cell niches. In vivo, the physical properties of the extracellular matrix (ECM), such a...Surface topographies of cell culture substrates can be used to generate in vitro cell culture environments similar to the in vivo cell niches. In vivo, the physical properties of the extracellular matrix (ECM), such as its topography, provide physical cues that play an important role in modulating cell function. Mimicking these properties remains a challenge to provide in vitro realistic environments for cells. Artificially generated substrates’ topographies were used extensively to explore this important surface cue. More recently, the replication of natural surface topographies has been enabling to exploration of characteristics such as hierarchy and size scales relevant for cells as advanced biomimetic substrates. These substrates offer more realistic and mimetic environments regarding the topographies found in vivo. This review will highlight the use of natural surface topographies as a template to generate substrates for in-vitro cell culture. This review starts with an analysis of the main cell functions that can be regulated by the substrate’s surface topography through cell-substrate interactions. Then, we will discuss research works wherein substrates for cell biology decorated with natural surface topographies were used and investigated regarding their influence on cellular performance. At the end of this review, we will highlight the advantages and challenges of the use of natural surface topographies as a template for the generation of advanced substrates for cell culture.展开更多
BACKGROUND Efficient extraction of nucleic acids and proteins(ENAP)from cells is a prerequisite for precise annotation of gene function,and has become laboratory routine for revealing the mysteries of life.However,cel...BACKGROUND Efficient extraction of nucleic acids and proteins(ENAP)from cells is a prerequisite for precise annotation of gene function,and has become laboratory routine for revealing the mysteries of life.However,cell samples are often from different culture dishes,resulting in inevitable experimental errors and sometimes poor repeatability.AIM To explore a method to improve the efficiency of ENAP,minimizing errors in ENAP processes,enhancing the reliability and repeatability of subsequent experimental results.METHODS A protocol for the sequential isolation of RNA,DNA,and proteins from the same cultured HepG2 cells using RNAzol reagent is presented here.The first step involves culturing HepG2 cells to the exponential phase,followed by the sequential isolation of RNA,DNA,and proteins from the same cultured cells in the second step.The yield of nucleic acids and proteins is detected in the third step,and their purity and integrity are verified in the last step.RESULTS The procedure takes as few as 3-4 d from the start to quality verification and is highly efficient.In contrast to the existing kits and reagents,which are primarily based on independent isolation,this RNAzol reagent-based method is characterized by the sequential isolation of RNA,DNA,and proteins from the same cells,and therefore saves time,and has low cost and high efficiency.CONCLUSION The RNA,DNA,and proteins isolated using this method can be used for reverse transcription-polymerase chain reaction,polymerase chain reaction,and western blotting,respectively.展开更多
Two isolation methods for sorting of endothelial progenitor cells(EPCs):from peripheral blood mononuclear cells(PBMCs)and CD133+ enriched cells were compared,by defining the cell morphology,phenotype,reproductive acti...Two isolation methods for sorting of endothelial progenitor cells(EPCs):from peripheral blood mononuclear cells(PBMCs)and CD133+ enriched cells were compared,by defining the cell morphology,phenotype,reproductive activities and function in vitro,to provide a reference for clinical application of EPCs.PBMCs from healthy subjects were used either directly for cell culture or for CD133+ sorting.The two groups of cells were cultured in complete medium 199(M199)for 7 to 14 days and the phenotypes of EPCs were analyzed by FACS.The proliferation of differentiated EPCs was studied by MTT assay,and the VEGF concentration was measured using an ELISA kit.ECM gel experiment and migration assay were performed in vivo.The results showed that PBMCs produced more colony-forming units(CFU)than CD133+ enriched cells from the same volume of blood(P<0.01).From day 7 to 14,the two groups showed decreased expression of hematopoietic stem cell markers and increased level of endothelial markers,but CD144+ cells in CD133+ group were less than in PBMCs group(P<0.01).PBMCs group secreted more VEGF than CD133+ group on the day 7(P<0.01).As compared with CD133+ group,PBMCs group had more potent potential of proliferation and vascularization in vitro.It was concluded that CD133+ sorted cells showed a lower capacity of differentiation,secretion,proliferation and vascularization in vitro,suggesting that CD133-negative cells may be a preferential way to get EPCs for clinical therapy.展开更多
The response of extracellular matrix(ECM) to dynamic cell signals is of great significance for the regulation of cell behavior. In the present study, we prepared a type of matrix metalloproteinase(MMP)-sensitive degra...The response of extracellular matrix(ECM) to dynamic cell signals is of great significance for the regulation of cell behavior. In the present study, we prepared a type of matrix metalloproteinase(MMP)-sensitive degradable hydrogels(MSDHs) via the catalyst-free o-phthalaldehyde(OPA)/amine cross-linking reaction between o-phthalaldehyde-grafted four-arm poly(ethylene glycol)(4aPEG-OPA) and an MMP-sensitive degradable peptide. The gelation rates and storage moduli of MSDHs and the MMP-insensitive hydrogels(MIHs) based on an MMP-insensitive scramble peptide were comparable and dependent on the concentrations of precursor polymers. MSDHs were degradable while MIHs were stable in the presence of proteinase in vitro.The degradation of MSDHs was obviously faster than that of MIHs after subcutaneous injection into rats. In addition, both types of poly(ethylene glycol)/peptide hydrogels displayed excellent cytocompatibility in vitro, and showed good histocompatibility in vivo in the subcutaneous layer of rats. Furthermore, the proliferation of several MMP-expressing cell lines including MDA-MB-231 cells within MSDHs was obviously faster than that in MIHs, indicating the influence of metabolism-mediated scaffold degradation on the cell proliferation. This study provides a new biocompatible and biodegradable 3 D cell culture interactive platform for regulation of cell behavior.展开更多
Synthetic biology has been developing rapidly in the last decade and is attracting increasing attention from many plant biologists.The production of high-value plant-specific secondary metabolites is,however,limited m...Synthetic biology has been developing rapidly in the last decade and is attracting increasing attention from many plant biologists.The production of high-value plant-specific secondary metabolites is,however,limited mostly to microbes.This is potentially problematic because of incorrect post-translational modification of proteins and differences in protein micro-compartmentalization,substrate availability,chaperone availability,product toxicity,and cytochrome p450 reductase enzymes.Unlike other heterologous systems,plant cells may be a promising alternative for the production of high-value metabolites.Several commercial plant suspension cell cultures from different plant species have been used successfully to produce valuable metabolites in a safe,low cost,and environmentally friendly manner.However,few metabolites are currently being biosynthesized using plant platforms,with the exception of the natural pigment anthocyanin.Both Arabidopsis thaliana and Nicotiana tabacum cell cultures can be developed by multiple gene transformations and CRISPR-Cas9 genome editing.Given that the introduction of heterologous biosynthetic pathways into Arabidopsis and N.tabacum is not widely used,the biosynthesis of foreign metabolites is currently limited;however,therein lies great potential.Here,we discuss the exemplary use of plant cell cultures and prospects for using A.thaliana and N.tabacum cell cultures to produce valuable plant-specific metabolites.展开更多
Objective To compare the characteristics or endogenous ouabaln(EO) secretion with the other adrenocortical hormones and determine the effects of angiotensin I (Ang I ), and ad reno corticotrophin (ACTH ) on the secret...Objective To compare the characteristics or endogenous ouabaln(EO) secretion with the other adrenocortical hormones and determine the effects of angiotensin I (Ang I ), and ad reno corticotrophin (ACTH ) on the secretion or EO. Methods EO was measured by radioimmunoassay from primary cultured bovine adrenocotical cells (BAC). Results oouabain was determined in the media or cultured BAC. Both EO and aldosterone secretion were decreased from the 6uter to inner layer or the cultured adrenal cortex, and the responses to Ang I and ACTH were hlgher than that in the mld layer (P <o. o5) and inner layer (P <o. o1 ). Cortisol secretion was activated by Ang I or ACTH was slgnificantly higher in the mid layer and in the inner layer than that in the outer layer. The tlme-course experlment showed that the gradually rising amounts or aldosterone and cortisol could be determined during the continuous incubation to 48h wlth or without Ang I or ACTH. However, EO did not increase continuously arter 24h or incubation in the basal secreting sltuation and arter 12h of lncubatiou in the stimulating situation by Ang,or ACTH. There were obvlous drops in aldosterone and cortisol secretlou from 3rd day during a 21 day-perlod cell culture, but the peak secretion of ouabain was in 7th day. Conclusion it suggests that the secretory mechanism might be different between EO and aldosterone or cortisol. Also, Ang I and ACTR might be involved in the regulation of Eo secretion.展开更多
The human lens epithelial cells (HLE) cultured in vitro was established in normal and cataractous lenses. The biological feature, histological characteristics and the ultrastructure of the cultured HLE cells were inve...The human lens epithelial cells (HLE) cultured in vitro was established in normal and cataractous lenses. The biological feature, histological characteristics and the ultrastructure of the cultured HLE cells were investigated. The results reveal that the proliferative capacity of the culutured HLE cells is reversely proportional to the donour age; the cultured HLE cells has the limited proliferative capacity in vitro. The relieve of the contact inhibition is the effective trigger of the HLE cell prolife...展开更多
AIM:To evaluate the differences between human lacrimal gland adenoid cystic carcinoma with high-grade transformation(LACC-HGT)primar y cells cultured by high-grade transformation tissue and non-high-grade transformati...AIM:To evaluate the differences between human lacrimal gland adenoid cystic carcinoma with high-grade transformation(LACC-HGT)primar y cells cultured by high-grade transformation tissue and non-high-grade transformation(non-HGT)primary cells cultured by non-highgrade transformation tissue in proliferation,metastasis,drug susceptibility,and genes.METHODS:LACC-HGT primary cells were established by tissue block culture,and the 4^(th)to 10^(th)generation primary cells were selected as research objects.The cells were preliminarily identified by immunofluorescent staining.The differences between non-HGT and LACC-HGT primary cells in terms of proliferation,metastasis,and drug susceptibility were compared by cell counting kit-8(CCK-8)assay,wound healing,and drug sensitivity experiments.Differentially expressed genes were screened using mRNA array.Gene expression was analyzed using real-time quantitative polymerase chain reaction(RT-qPCR).RESULTS:LACC-HGT primary cells were successfully cultured by tissue block culture.Immunofluorescence staining results showed that cytokeratin(CK)and CK7 expression levels were positive in LACC-HGT primary cells.CCK-8 results showed that the proliferation ability of LACCHGT cells was significantly higher than that of non-HGT cells.Wound healing experiment showed that the migration ability of LACC-HGT cells was significantly higher than that of non-HGT cells.LACC-HGT cells were also less sensitive to cisplatin and paclitaxel than non-HGT cells.Compared with non-HGT cells,9566 differentially expressed genes were found in LACC-HGT primary cells,of which 5162 were upregulated and 4404 were down-regulated.The expression of N-acetylneuraminate pyruvate lyase(NPL),MARVEL domain containing 3(MARVELD3),syntabulin(SYBU),and allograft inflammatory factor 1(AIF1)was higher in LACCHGT cells than in non-HGT cells,whereas that of periostin(POSTN)was lower.CONCLUSION:LACC-HGT primary cells have faster proliferation,stronger migration ability,and poorer sensitivity to chemotherapy drugs than non-HGT primary cells.The expression of mRNAs in non-HGT and LACC-HGT primary cells are significantly different.These features are speculated to be the reasons why high-grade transformation tissues exhibit higher malignant degree and poorer prognosis than their counterparts.展开更多
With the advantages of better mimicking the specificity of natural tissues,three-dimensional(3D)cell culture plays a major role in drug development,toxicity testing,and tissue engineering.However,existing scaffolds or...With the advantages of better mimicking the specificity of natural tissues,three-dimensional(3D)cell culture plays a major role in drug development,toxicity testing,and tissue engineering.However,existing scaffolds or microcarriers for 3D cell culture are often limited in size and show suboptimal performance in simulating the vascular complexes of living organisms.Therefore,we present a novel hierarchically inverse opal porous scaffold made via a simple microfluidic approach for promoting 3D cell co-culture techniques.The designed scaffold is constructed using a combined concept involving an emulsion droplet template and inert polymer polymerization.This work demonstrates that the resultant scaffolds ensure a sufficient supply of nutrients during cell culture,so as to achieve large-volume cell culture.In addition,by serially planting different cells in the scaffold,a 3D co-culture system of endothelial-cellencapsulated hepatocytes can be developed for constructing certain functional tissues.It is also demonstrated that the use of the proposed scaffold for a co-culture system helps hepatocytes to maintain specific in vivo functions.These hierarchically inverse opal scaffolds lay the foundation for 3D cell culture and even the construction of biomimetic tissues.展开更多
Many cell-matrix interaction studies have proved that dynamic changes in the extracellular matrix(ECM)are crucial to maintain cellular properties and behaviors.Thus,developing materials that can recapitulate the dynam...Many cell-matrix interaction studies have proved that dynamic changes in the extracellular matrix(ECM)are crucial to maintain cellular properties and behaviors.Thus,developing materials that can recapitulate the dynamic attributes of the ECM is highly desired for threedimensional(3 D)cell culture platforms.To this end,we sought to develop a hydrogel system that would enable dynamic and reversible turning of its mechanical and biochemical properties,thus facilitating the control of cell culture to imitate the natural ECM.Herein,a hydrogel with dynamic mechanics and a biochemistry based on an addition-fragmentation chain transfer(AFCT)reaction was constructed.Thiol-modified hyaluronic acid(HA)and allyl sulfide-modifiedε-poly-L-lysine(EPL)were synthesized to form hydrogels,which were non-swellable and biocompatible.The reversible modulus of the hydrogel was first achieved through the AFCT reaction;the modulus can also be regulated stepwise by changing the dose of UVA irradiation.Dynamic patterning of fluorescent markers in the hydrogel was also realized.Therefore,this dynamically controllable hydrogel has great potential as a 3 D cell culture platform for tissue engineering applications.展开更多
Hepatic sinusoidal endothelial cells are a kind of highly differentiated cells in hepatic sinusoids, which play an important role in the occurrence and development of liver fibrosis. Hepatic sinusoidal endothelial cel...Hepatic sinusoidal endothelial cells are a kind of highly differentiated cells in hepatic sinusoids, which play an important role in the occurrence and development of liver fibrosis. Hepatic sinusoidal endothelial cells are often used in the study of liver fibrosis. In the process of culturing liver sinusoidal endothelial cells, the treatment of serum for culture and cryopreservation of cells are relatively complicated and error-prone. If the technical details of serum treatment and cell cryopreservation are not handled properly, it will have a more obvious effect on the effect of hepatic sinusoidal endothelial cell culture. We have gained experience in the theoretical study of liver fibrosis and the operation of cell culture experiments, and this paper summarized the details of liver sinusoidal endothelial cell culture such as the problems of serum preservation, thawing, precipitates and heat inactivation, as well as methods and precautions for cell cryopreservation.展开更多
In vitro 3D cancer spheroids (tumoroids) exhibit a drug resistance profile similar to that found in solid tumors. 3D spheroid culture methods recreate more physiologically relevant microenvironments for cells. Therefo...In vitro 3D cancer spheroids (tumoroids) exhibit a drug resistance profile similar to that found in solid tumors. 3D spheroid culture methods recreate more physiologically relevant microenvironments for cells. Therefore, these models are more appropriate for cancer drug screening. We have recently developed a protocol for MCF-7 cell spheroid culture, and used this method to test the effects of different types of drugs on this estrogen-dependent breast cancer cell spheroid. Our results demonstrated that MCF-7 cells can grow spheroid in medium using a low attachment plate. We managed to grow one spheroid in each well, and the spheroid can grow over a month, the size of the spheroid can grow over a hundred times in volume. Our targeted drug experimental results suggest that estrogen sulfotransferase, steroid sulfatase, and G protein-coupled estrogen receptor may play critical roles in MCF-7 cell spheroid growth, while estrogen receptors α and β may not play an essential role in MCF-7 spheroid growth. Organoids are the miniatures of in vivo tissues and reiterate the in vivo microenvironment of a specific organ, best fit for the in vitro studies of diseases and drug development. Tumoroid, developed from cancer cell lines or patients’ tumor tissue, is the best in vitro model of in vivo tumors. 3D spheroid technology will be the best future method for drug development of cancers and other diseases. Our reported method can be developed clinically to develop personalized drugs when the patient’s tumor tissues are used to develop a spheroid culture for drug screening.展开更多
Crab cell line,especially continuous crab cell line,can provide us a useful tool for studies on the virology,immunology,and molecular biology of crabs.However,no continuous crab cell line has been available due to the...Crab cell line,especially continuous crab cell line,can provide us a useful tool for studies on the virology,immunology,and molecular biology of crabs.However,no continuous crab cell line has been available due to the lacking of suitable medium and the occurrence of mitosis-arrest.In this study,long-term in vitro culture conditions for both two-(2D)and three-dimensions(3D)were successfully developed for the circulating hemocytes of swimming crab Portunus trituberculatus,designated as PTH cells.In 2D culture,a novel crab basic medium in osmolarity of 990–1100 mOsm/kg was optimized for the first time,which is different from Leibovitz's L-15 medium in mainly the components of amino acids,containing double strengths of the contents of free amino acid mixture in the crab serum.Then an optimal crab growth medium was developed by supplementing 5%fetal bovine serum,50-g/L yeast extract powder,20-μg/L basic fibroblast growth factor and epidermal growth factor into the optimal crab basic medium,and found that it could support a long-term survival of PTH cells in a healthy monolayer up to 347 days and partially break through the mitosis-arrest of crab cells evidenced by the obvious increase of proliferating potential detected in the 10-d primarily cultured PTH cells.These 2D cultured PTH cells could be successfully sub-cultured for 11 times by physical flushing method and well cryopreserved in liquid nitrogen.In 3D culture,using the same crab growth medium,the PTH cell aggregates could be easily formed and healthily maintained on the surface of solidified Matrigel or in the ultra-low-attachment plate with a survival rate of 50%–60%on Day 103.This work largely improved the primary culture and subculture of crab cells and will facilitate the establishment of continuous crab cell line.展开更多
All life on Earth has evolved under the influence of continuous gravity,and methods have been developed to balance this influence with the biological evolution of organisms at the cellular and system levels.However,wh...All life on Earth has evolved under the influence of continuous gravity,and methods have been developed to balance this influence with the biological evolution of organisms at the cellular and system levels.However,when exposed to zero gravity in space,the balance between cell structure and external forces is destroyed,resulting in changes at the cellular level(e.g.,cell morphology,adhesion,viability,apoptosis,etc.),and understanding the molecular mechanism of cell response to zero gravity will help to cope with diseases that rely on mechanical response.Therefore,biological research in space and zero gravity is a unique step in developing the best anti-cancer treatments,which is a great challenge to humanity.In this study,multicellular glioma cancer cells from a brain tumor in a 72-year-old Iraqi patient were subjected to simulated zero gravity for 24 h,and the results showed that most of the cells lost their adhesion,which is considered to be the first step toward cell apoptosis.In addition to the formation of multicellular spheroids,the results also showed that the inhibition rate for cell death was 32%in comparison to the control cells.Moreover,the cells showed a clear change in their cellular morphology and growth behavior.These results give new hope for fighting cancer distinctively,and such a treatment method has no side effects in comparison to traditional chemical and radiological ones.展开更多
Objective:To study the effects of Lycium barbarum polysaccharide(LBP)on the proliferation,apoptosis,and autophagy of retinal pigment epithelial(RPE)cells cultured under high-glucose conditions.Methods:The ARPE-19 cell...Objective:To study the effects of Lycium barbarum polysaccharide(LBP)on the proliferation,apoptosis,and autophagy of retinal pigment epithelial(RPE)cells cultured under high-glucose conditions.Methods:The ARPE-19 cell line was randomly divided into a control group(normally cultured in Dulbecco's Modified Eagle Medium/Nutrient Mixture F-12[DMEM/F-12]medium),a high-glucose group(HG;50 mmol/L glucose added to DMEM/F-12 medium),and a HG+LBP group(incubated in DMEM/F-12 medium containing 1 mg/mL LBP for 24 h,and then treated with 50 mmol/L glucose for 24 h).Following Ad-mCherry-GFP-LC3B infection,cell proliferation,apoptosis,mammalian target of rapamy-cin(mTOR)expression,and autophagic flux were determined by Cell Counting Kit-8(CCK-8),AnnexinV-APC/7-AAD Apoptosis Detection Kit,Western blot,and laser confocal microscopy,respectively.Results:The proliferation rate of ARPE-19 cells in the HG group was significantly lower than that in the control group(P<0.05),while the proliferation rate of ARPE-19 cells in the HG+LBP group was significantly higher than that in the HG group(P<0.05).The apoptosis rate of ARPE-19 cells in the HG group was significantly higher than that in the control group(P<0.05),while the apoptosis rate of ARPE-19 cells in the HG+LBP group was significantly lower than that in the HG group(P<0.05).The relative expression of phosphorylated mTOR(p-mTOR)of ARPE-19 cells in the HG group was significantly lower than that in the control group(P<0.05),with enhanced autophagic flux;when compared with the HG group,the HG+LBP group had significantly higher expression of p-mTOR(P<0.05),with diminished autophagic flux.Conclusion:LBP has a protective effect on RPE cells with high glucose-induced injury,and its mechanism may be related to LBP inhibition of high glucose-induced abnormal autophagy.展开更多
基金support from the National Key Research and Development Program of China(Grant No.2017YFA0700501),and the Innovation Fund of WNLO.
文摘Three-dimensional(3D)cell cultures have contributed to a variety of biological research fields by filling the gap between monolayers and animal models.The modern optical sectioning microscopic methods make it possible to probe the complexity of 3D cell cultures but are limited by the inherent opaqueness.While tissue optical clearing methods have emerged as powerful tools for investigating whole-mount tissues in 3D,they often have limitations,such as being too harsh for fragile 3D cell cultures,requiring complex handling protocols,or inducing tissue deformation with shrinkage or expansion.To address this issue,we proposed a modified optical clearing method for 3D cell cultures,called MACS-W,which is simple,highly efficient,and morphology-preserving.In our evaluation of MACS-W,we found that it exhibits excellent clearing capability in just 10 min,with minimal deformation,and helps drug evaluation on tumor spheroids.In summary,MACS-W is a fast,minimally-deformative and fluorescence compatible clearing method that has the potential to be widely used in the studies of 3D cell cultures.
基金Supported by Young and Middle-aged Teacher Education Research Project of Fujian Province(Science and Technology Category:JAT210477)College Student Innovation and Entrepreneurship Training Program of Xiamen Medical College(X202112631068)。
文摘In view of the problems of the traditional cell incubator,such as the small range of cell culture types,the inability to adjust the internal space of the incubator according to needs,and the inconvenient sampling,this study innovatively designed a cell incubator structure.It proposed a new design concept that can solve the above-mentioned shortcomings.The cell incubator after the new structural modification can adjust the internal space structure of cell culture by setting the bolt-fixed connection between the fixed plate and the vessel divider.It realizes the cultivation of various cells through refrigeration modules and heating modules.Through setting a sampling hole in the glass inner door,it is favorable for operators to take samples,making cell culture more convenient and efficient.
文摘In vitro tissue culture of hard woody, endangered, medicinal plant Coscinium fenestratum is most challenging to plant tissue culturists. In the present study, petiole and leaf explants of Coscinium fenestratum were induced to form callus when cultured on vermicompost extract media along with coelomic fluid. Suspension medium was developed using vermicompost extract and coelomic fluid in 3:1 ratio. Phytochemical analysis of the alkaloid berberine was confirmed from callus, suspension cell culture and suspension medium by Thin Layer Chromatography and High Performance Liquid Chromatography. Vermicompost and its extracts with coelomic fluid have shown maximum (100 per cent) response of callus induction. Callus mass enlarged with increasing concentration of coelomic fluid and callus growth was assessed from the biomass. Incubation of culture tubes in dark supported callus development significantly. The Rf value of 0.36 confirmed the presence of berberine by Thin Layer Chromatography. Qualitative analysis confirmed the presence of alkaloid berberine with the retention time of 2.8 minutes similar to that of standard reference sample from Sigma chemicals, USA. The suspension medium turned deep yellow because of the release of the alkaloid. Vermicompost and its extracts along with coelomic fluid have shown the economical approach for micropropagation of economically and medicinally important plants.
文摘Plant cell culture technology is a technology that applies the research results of cell engineering to produce plant biological products at the cellular level.In recent years,the secondary metabolites of plants have attracted more and more attention.The use of plant cell culture technology is a fast and efficient method of producing secondary metabolites.
基金supported by grants from the National Key R&D Program of China(No.2018YFC1005002)the National Natural Science Foundation of China(Nos.82070482,81772007,21734003 and 51927805)+1 种基金the Shanghai Municipal Science and Technology Major Project(No.2017SHZDZX01)the Shanghai Municipal Education Commission(Innovation Program No.2017-01-07-00-07E00027)。
文摘There is no clear consensus regarding how cells respond to hydrostatic pressure. This is largely attributable to the high heterogeneity among cell types and the diverse custom-made devices used in previous studies. The aim of this work was to develop a facile device that could mimic various pressure environments and then delineate the cellular response to pressure stimulus. The device described here achieved both stable and periodic pressurization without oxygen deprivation. The biological utility of the device was assessed using human umbilical vein endothelial cells. We found more stereoscopic nuclear morphology and re-distribution of lamin A/C under high hydrostatic pressure compared to control cells. Mass spectrometry-based proteomics analysis showed significant changes in mitochondria-related pathways. Western blot analysis confirmed that high hydrostatic pressure induced a tendency toward mitochondrial fusion. Increased mitochondrial activity was observed as well. In conclusion, this device can be readily applied in biological research and extend our understanding of cellular mechano-sensation and the associated changes in mitochondrial behaviors.
基金This work is a result of the project FROnTHERA(NORTE-01-0145-FEDER-000023)supported by Norte Portugal Regional Operational Programme(NORTE 2020)+3 种基金under the PORTUGAL 2020 Partnership Agreement,through the European Regional Development Fund(ERDF)Portuguese Foundation for Science and Technology under the doctoral programme in Tissue Engineering,Regenerative Medicine and Stem Cells(PD/59/2013)(PD/BD/128087/2016)by the project Cells4_IDs(PTDC/BTM-SAL/28882/2017).
文摘Surface topographies of cell culture substrates can be used to generate in vitro cell culture environments similar to the in vivo cell niches. In vivo, the physical properties of the extracellular matrix (ECM), such as its topography, provide physical cues that play an important role in modulating cell function. Mimicking these properties remains a challenge to provide in vitro realistic environments for cells. Artificially generated substrates’ topographies were used extensively to explore this important surface cue. More recently, the replication of natural surface topographies has been enabling to exploration of characteristics such as hierarchy and size scales relevant for cells as advanced biomimetic substrates. These substrates offer more realistic and mimetic environments regarding the topographies found in vivo. This review will highlight the use of natural surface topographies as a template to generate substrates for in-vitro cell culture. This review starts with an analysis of the main cell functions that can be regulated by the substrate’s surface topography through cell-substrate interactions. Then, we will discuss research works wherein substrates for cell biology decorated with natural surface topographies were used and investigated regarding their influence on cellular performance. At the end of this review, we will highlight the advantages and challenges of the use of natural surface topographies as a template for the generation of advanced substrates for cell culture.
基金Supported by the Postdoctoral Science Foundation of China,No.2005038300and the National Natural Science Foundation of China,No.30671028.
文摘BACKGROUND Efficient extraction of nucleic acids and proteins(ENAP)from cells is a prerequisite for precise annotation of gene function,and has become laboratory routine for revealing the mysteries of life.However,cell samples are often from different culture dishes,resulting in inevitable experimental errors and sometimes poor repeatability.AIM To explore a method to improve the efficiency of ENAP,minimizing errors in ENAP processes,enhancing the reliability and repeatability of subsequent experimental results.METHODS A protocol for the sequential isolation of RNA,DNA,and proteins from the same cultured HepG2 cells using RNAzol reagent is presented here.The first step involves culturing HepG2 cells to the exponential phase,followed by the sequential isolation of RNA,DNA,and proteins from the same cultured cells in the second step.The yield of nucleic acids and proteins is detected in the third step,and their purity and integrity are verified in the last step.RESULTS The procedure takes as few as 3-4 d from the start to quality verification and is highly efficient.In contrast to the existing kits and reagents,which are primarily based on independent isolation,this RNAzol reagent-based method is characterized by the sequential isolation of RNA,DNA,and proteins from the same cells,and therefore saves time,and has low cost and high efficiency.CONCLUSION The RNA,DNA,and proteins isolated using this method can be used for reverse transcription-polymerase chain reaction,polymerase chain reaction,and western blotting,respectively.
文摘Two isolation methods for sorting of endothelial progenitor cells(EPCs):from peripheral blood mononuclear cells(PBMCs)and CD133+ enriched cells were compared,by defining the cell morphology,phenotype,reproductive activities and function in vitro,to provide a reference for clinical application of EPCs.PBMCs from healthy subjects were used either directly for cell culture or for CD133+ sorting.The two groups of cells were cultured in complete medium 199(M199)for 7 to 14 days and the phenotypes of EPCs were analyzed by FACS.The proliferation of differentiated EPCs was studied by MTT assay,and the VEGF concentration was measured using an ELISA kit.ECM gel experiment and migration assay were performed in vivo.The results showed that PBMCs produced more colony-forming units(CFU)than CD133+ enriched cells from the same volume of blood(P<0.01).From day 7 to 14,the two groups showed decreased expression of hematopoietic stem cell markers and increased level of endothelial markers,but CD144+ cells in CD133+ group were less than in PBMCs group(P<0.01).PBMCs group secreted more VEGF than CD133+ group on the day 7(P<0.01).As compared with CD133+ group,PBMCs group had more potent potential of proliferation and vascularization in vitro.It was concluded that CD133+ sorted cells showed a lower capacity of differentiation,secretion,proliferation and vascularization in vitro,suggesting that CD133-negative cells may be a preferential way to get EPCs for clinical therapy.
基金the National Natural Science Foundation of China(Grant Nos.51973218,51622307,21574127,51520105004)the Youth Innovation Promotion Association CAS。
文摘The response of extracellular matrix(ECM) to dynamic cell signals is of great significance for the regulation of cell behavior. In the present study, we prepared a type of matrix metalloproteinase(MMP)-sensitive degradable hydrogels(MSDHs) via the catalyst-free o-phthalaldehyde(OPA)/amine cross-linking reaction between o-phthalaldehyde-grafted four-arm poly(ethylene glycol)(4aPEG-OPA) and an MMP-sensitive degradable peptide. The gelation rates and storage moduli of MSDHs and the MMP-insensitive hydrogels(MIHs) based on an MMP-insensitive scramble peptide were comparable and dependent on the concentrations of precursor polymers. MSDHs were degradable while MIHs were stable in the presence of proteinase in vitro.The degradation of MSDHs was obviously faster than that of MIHs after subcutaneous injection into rats. In addition, both types of poly(ethylene glycol)/peptide hydrogels displayed excellent cytocompatibility in vitro, and showed good histocompatibility in vivo in the subcutaneous layer of rats. Furthermore, the proliferation of several MMP-expressing cell lines including MDA-MB-231 cells within MSDHs was obviously faster than that in MIHs, indicating the influence of metabolism-mediated scaffold degradation on the cell proliferation. This study provides a new biocompatible and biodegradable 3 D cell culture interactive platform for regulation of cell behavior.
基金supported by funding from the Max Planck Society(Y.Z.,T.W.,and A.R.F.)the European Union’s Horizon 2020 research and innovation program,project Planta-SYST(SGA-CSA no.664621 and no.739582 under FPA no.664620)+1 种基金the China Scholarship Council(CSC)scholarship for supporting his studythe Leibniz Institute füur Gemüuse-und Zierpflanzenbau(IGZ)as part of the Leibniz Association.
文摘Synthetic biology has been developing rapidly in the last decade and is attracting increasing attention from many plant biologists.The production of high-value plant-specific secondary metabolites is,however,limited mostly to microbes.This is potentially problematic because of incorrect post-translational modification of proteins and differences in protein micro-compartmentalization,substrate availability,chaperone availability,product toxicity,and cytochrome p450 reductase enzymes.Unlike other heterologous systems,plant cells may be a promising alternative for the production of high-value metabolites.Several commercial plant suspension cell cultures from different plant species have been used successfully to produce valuable metabolites in a safe,low cost,and environmentally friendly manner.However,few metabolites are currently being biosynthesized using plant platforms,with the exception of the natural pigment anthocyanin.Both Arabidopsis thaliana and Nicotiana tabacum cell cultures can be developed by multiple gene transformations and CRISPR-Cas9 genome editing.Given that the introduction of heterologous biosynthetic pathways into Arabidopsis and N.tabacum is not widely used,the biosynthesis of foreign metabolites is currently limited;however,therein lies great potential.Here,we discuss the exemplary use of plant cell cultures and prospects for using A.thaliana and N.tabacum cell cultures to produce valuable plant-specific metabolites.
文摘Objective To compare the characteristics or endogenous ouabaln(EO) secretion with the other adrenocortical hormones and determine the effects of angiotensin I (Ang I ), and ad reno corticotrophin (ACTH ) on the secretion or EO. Methods EO was measured by radioimmunoassay from primary cultured bovine adrenocotical cells (BAC). Results oouabain was determined in the media or cultured BAC. Both EO and aldosterone secretion were decreased from the 6uter to inner layer or the cultured adrenal cortex, and the responses to Ang I and ACTH were hlgher than that in the mld layer (P <o. o5) and inner layer (P <o. o1 ). Cortisol secretion was activated by Ang I or ACTH was slgnificantly higher in the mid layer and in the inner layer than that in the outer layer. The tlme-course experlment showed that the gradually rising amounts or aldosterone and cortisol could be determined during the continuous incubation to 48h wlth or without Ang I or ACTH. However, EO did not increase continuously arter 24h or incubation in the basal secreting sltuation and arter 12h of lncubatiou in the stimulating situation by Ang,or ACTH. There were obvlous drops in aldosterone and cortisol secretlou from 3rd day during a 21 day-perlod cell culture, but the peak secretion of ouabain was in 7th day. Conclusion it suggests that the secretory mechanism might be different between EO and aldosterone or cortisol. Also, Ang I and ACTR might be involved in the regulation of Eo secretion.
文摘The human lens epithelial cells (HLE) cultured in vitro was established in normal and cataractous lenses. The biological feature, histological characteristics and the ultrastructure of the cultured HLE cells were investigated. The results reveal that the proliferative capacity of the culutured HLE cells is reversely proportional to the donour age; the cultured HLE cells has the limited proliferative capacity in vitro. The relieve of the contact inhibition is the effective trigger of the HLE cell prolife...
基金Supported by the Tianjin Key Medical Discipline(Specialty)Construction Project(No.TJYXZDXK-037A)Tianjin Medical University Eye Hospital。
文摘AIM:To evaluate the differences between human lacrimal gland adenoid cystic carcinoma with high-grade transformation(LACC-HGT)primar y cells cultured by high-grade transformation tissue and non-high-grade transformation(non-HGT)primary cells cultured by non-highgrade transformation tissue in proliferation,metastasis,drug susceptibility,and genes.METHODS:LACC-HGT primary cells were established by tissue block culture,and the 4^(th)to 10^(th)generation primary cells were selected as research objects.The cells were preliminarily identified by immunofluorescent staining.The differences between non-HGT and LACC-HGT primary cells in terms of proliferation,metastasis,and drug susceptibility were compared by cell counting kit-8(CCK-8)assay,wound healing,and drug sensitivity experiments.Differentially expressed genes were screened using mRNA array.Gene expression was analyzed using real-time quantitative polymerase chain reaction(RT-qPCR).RESULTS:LACC-HGT primary cells were successfully cultured by tissue block culture.Immunofluorescence staining results showed that cytokeratin(CK)and CK7 expression levels were positive in LACC-HGT primary cells.CCK-8 results showed that the proliferation ability of LACCHGT cells was significantly higher than that of non-HGT cells.Wound healing experiment showed that the migration ability of LACC-HGT cells was significantly higher than that of non-HGT cells.LACC-HGT cells were also less sensitive to cisplatin and paclitaxel than non-HGT cells.Compared with non-HGT cells,9566 differentially expressed genes were found in LACC-HGT primary cells,of which 5162 were upregulated and 4404 were down-regulated.The expression of N-acetylneuraminate pyruvate lyase(NPL),MARVEL domain containing 3(MARVELD3),syntabulin(SYBU),and allograft inflammatory factor 1(AIF1)was higher in LACCHGT cells than in non-HGT cells,whereas that of periostin(POSTN)was lower.CONCLUSION:LACC-HGT primary cells have faster proliferation,stronger migration ability,and poorer sensitivity to chemotherapy drugs than non-HGT primary cells.The expression of mRNAs in non-HGT and LACC-HGT primary cells are significantly different.These features are speculated to be the reasons why high-grade transformation tissues exhibit higher malignant degree and poorer prognosis than their counterparts.
基金the National Key Research and Development Program of China(2020YFA0908200)the National Natural Science Foundation of China(52073060,32101159,and 61927805)+1 种基金the Shenzhen Fundamental Research Program(JCYJ20190813152616459)the Wenzhou Institute,University of Chinese Academy of Sciences(WIUCAS)’startup fund(WIUCASQD2019007).
文摘With the advantages of better mimicking the specificity of natural tissues,three-dimensional(3D)cell culture plays a major role in drug development,toxicity testing,and tissue engineering.However,existing scaffolds or microcarriers for 3D cell culture are often limited in size and show suboptimal performance in simulating the vascular complexes of living organisms.Therefore,we present a novel hierarchically inverse opal porous scaffold made via a simple microfluidic approach for promoting 3D cell co-culture techniques.The designed scaffold is constructed using a combined concept involving an emulsion droplet template and inert polymer polymerization.This work demonstrates that the resultant scaffolds ensure a sufficient supply of nutrients during cell culture,so as to achieve large-volume cell culture.In addition,by serially planting different cells in the scaffold,a 3D co-culture system of endothelial-cellencapsulated hepatocytes can be developed for constructing certain functional tissues.It is also demonstrated that the use of the proposed scaffold for a co-culture system helps hepatocytes to maintain specific in vivo functions.These hierarchically inverse opal scaffolds lay the foundation for 3D cell culture and even the construction of biomimetic tissues.
基金financially supported by the National Natural Science Foundation of China(Nos.21803069 and 21975249)。
文摘Many cell-matrix interaction studies have proved that dynamic changes in the extracellular matrix(ECM)are crucial to maintain cellular properties and behaviors.Thus,developing materials that can recapitulate the dynamic attributes of the ECM is highly desired for threedimensional(3 D)cell culture platforms.To this end,we sought to develop a hydrogel system that would enable dynamic and reversible turning of its mechanical and biochemical properties,thus facilitating the control of cell culture to imitate the natural ECM.Herein,a hydrogel with dynamic mechanics and a biochemistry based on an addition-fragmentation chain transfer(AFCT)reaction was constructed.Thiol-modified hyaluronic acid(HA)and allyl sulfide-modifiedε-poly-L-lysine(EPL)were synthesized to form hydrogels,which were non-swellable and biocompatible.The reversible modulus of the hydrogel was first achieved through the AFCT reaction;the modulus can also be regulated stepwise by changing the dose of UVA irradiation.Dynamic patterning of fluorescent markers in the hydrogel was also realized.Therefore,this dynamically controllable hydrogel has great potential as a 3 D cell culture platform for tissue engineering applications.
基金Supported by National Nature Science Foundation of China(8196076181960751,81902764)Guangxi Natural Science Foundation(2020JJA140257)The Training Project for Excellent Middle-aged/Young Teachers in Guangx Higher Education Institutions(2018KY1149)。
文摘Hepatic sinusoidal endothelial cells are a kind of highly differentiated cells in hepatic sinusoids, which play an important role in the occurrence and development of liver fibrosis. Hepatic sinusoidal endothelial cells are often used in the study of liver fibrosis. In the process of culturing liver sinusoidal endothelial cells, the treatment of serum for culture and cryopreservation of cells are relatively complicated and error-prone. If the technical details of serum treatment and cell cryopreservation are not handled properly, it will have a more obvious effect on the effect of hepatic sinusoidal endothelial cell culture. We have gained experience in the theoretical study of liver fibrosis and the operation of cell culture experiments, and this paper summarized the details of liver sinusoidal endothelial cell culture such as the problems of serum preservation, thawing, precipitates and heat inactivation, as well as methods and precautions for cell cryopreservation.
文摘In vitro 3D cancer spheroids (tumoroids) exhibit a drug resistance profile similar to that found in solid tumors. 3D spheroid culture methods recreate more physiologically relevant microenvironments for cells. Therefore, these models are more appropriate for cancer drug screening. We have recently developed a protocol for MCF-7 cell spheroid culture, and used this method to test the effects of different types of drugs on this estrogen-dependent breast cancer cell spheroid. Our results demonstrated that MCF-7 cells can grow spheroid in medium using a low attachment plate. We managed to grow one spheroid in each well, and the spheroid can grow over a month, the size of the spheroid can grow over a hundred times in volume. Our targeted drug experimental results suggest that estrogen sulfotransferase, steroid sulfatase, and G protein-coupled estrogen receptor may play critical roles in MCF-7 cell spheroid growth, while estrogen receptors α and β may not play an essential role in MCF-7 spheroid growth. Organoids are the miniatures of in vivo tissues and reiterate the in vivo microenvironment of a specific organ, best fit for the in vitro studies of diseases and drug development. Tumoroid, developed from cancer cell lines or patients’ tumor tissue, is the best in vitro model of in vivo tumors. 3D spheroid technology will be the best future method for drug development of cancers and other diseases. Our reported method can be developed clinically to develop personalized drugs when the patient’s tumor tissues are used to develop a spheroid culture for drug screening.
基金Supported by the National Key R&D Program of China (No.2018YFD0901301)the Natural Science Foundation of Shandong Province (No.ZR2020MC189)+1 种基金the Fundamental Research Funds for Central Universities of China (No.201822018)the Pilot National Laboratory for Marine Science and Technology (Qingdao) (No.JCZX202024)。
文摘Crab cell line,especially continuous crab cell line,can provide us a useful tool for studies on the virology,immunology,and molecular biology of crabs.However,no continuous crab cell line has been available due to the lacking of suitable medium and the occurrence of mitosis-arrest.In this study,long-term in vitro culture conditions for both two-(2D)and three-dimensions(3D)were successfully developed for the circulating hemocytes of swimming crab Portunus trituberculatus,designated as PTH cells.In 2D culture,a novel crab basic medium in osmolarity of 990–1100 mOsm/kg was optimized for the first time,which is different from Leibovitz's L-15 medium in mainly the components of amino acids,containing double strengths of the contents of free amino acid mixture in the crab serum.Then an optimal crab growth medium was developed by supplementing 5%fetal bovine serum,50-g/L yeast extract powder,20-μg/L basic fibroblast growth factor and epidermal growth factor into the optimal crab basic medium,and found that it could support a long-term survival of PTH cells in a healthy monolayer up to 347 days and partially break through the mitosis-arrest of crab cells evidenced by the obvious increase of proliferating potential detected in the 10-d primarily cultured PTH cells.These 2D cultured PTH cells could be successfully sub-cultured for 11 times by physical flushing method and well cryopreserved in liquid nitrogen.In 3D culture,using the same crab growth medium,the PTH cell aggregates could be easily formed and healthily maintained on the surface of solidified Matrigel or in the ultra-low-attachment plate with a survival rate of 50%–60%on Day 103.This work largely improved the primary culture and subculture of crab cells and will facilitate the establishment of continuous crab cell line.
文摘All life on Earth has evolved under the influence of continuous gravity,and methods have been developed to balance this influence with the biological evolution of organisms at the cellular and system levels.However,when exposed to zero gravity in space,the balance between cell structure and external forces is destroyed,resulting in changes at the cellular level(e.g.,cell morphology,adhesion,viability,apoptosis,etc.),and understanding the molecular mechanism of cell response to zero gravity will help to cope with diseases that rely on mechanical response.Therefore,biological research in space and zero gravity is a unique step in developing the best anti-cancer treatments,which is a great challenge to humanity.In this study,multicellular glioma cancer cells from a brain tumor in a 72-year-old Iraqi patient were subjected to simulated zero gravity for 24 h,and the results showed that most of the cells lost their adhesion,which is considered to be the first step toward cell apoptosis.In addition to the formation of multicellular spheroids,the results also showed that the inhibition rate for cell death was 32%in comparison to the control cells.Moreover,the cells showed a clear change in their cellular morphology and growth behavior.These results give new hope for fighting cancer distinctively,and such a treatment method has no side effects in comparison to traditional chemical and radiological ones.
基金supported by the Supporting Fund of the First Affiliated Hospital of Xi'an Medical University(XYFYPT-2023-01).
文摘Objective:To study the effects of Lycium barbarum polysaccharide(LBP)on the proliferation,apoptosis,and autophagy of retinal pigment epithelial(RPE)cells cultured under high-glucose conditions.Methods:The ARPE-19 cell line was randomly divided into a control group(normally cultured in Dulbecco's Modified Eagle Medium/Nutrient Mixture F-12[DMEM/F-12]medium),a high-glucose group(HG;50 mmol/L glucose added to DMEM/F-12 medium),and a HG+LBP group(incubated in DMEM/F-12 medium containing 1 mg/mL LBP for 24 h,and then treated with 50 mmol/L glucose for 24 h).Following Ad-mCherry-GFP-LC3B infection,cell proliferation,apoptosis,mammalian target of rapamy-cin(mTOR)expression,and autophagic flux were determined by Cell Counting Kit-8(CCK-8),AnnexinV-APC/7-AAD Apoptosis Detection Kit,Western blot,and laser confocal microscopy,respectively.Results:The proliferation rate of ARPE-19 cells in the HG group was significantly lower than that in the control group(P<0.05),while the proliferation rate of ARPE-19 cells in the HG+LBP group was significantly higher than that in the HG group(P<0.05).The apoptosis rate of ARPE-19 cells in the HG group was significantly higher than that in the control group(P<0.05),while the apoptosis rate of ARPE-19 cells in the HG+LBP group was significantly lower than that in the HG group(P<0.05).The relative expression of phosphorylated mTOR(p-mTOR)of ARPE-19 cells in the HG group was significantly lower than that in the control group(P<0.05),with enhanced autophagic flux;when compared with the HG group,the HG+LBP group had significantly higher expression of p-mTOR(P<0.05),with diminished autophagic flux.Conclusion:LBP has a protective effect on RPE cells with high glucose-induced injury,and its mechanism may be related to LBP inhibition of high glucose-induced abnormal autophagy.