Background The reproductive performance of chickens mainly depends on the development of follicles.Abnor-mal follicle development can lead to decreased reproductive performance and even ovarian disease among chick-ens...Background The reproductive performance of chickens mainly depends on the development of follicles.Abnor-mal follicle development can lead to decreased reproductive performance and even ovarian disease among chick-ens.Chicken is the only non-human animal with a high incidence of spontaneous ovarian cancer.In recent years,the involvement of circRNAs in follicle development and atresia regulation has been confirmed.Results In the present study,we used healthy and atretic chicken follicles for circRNA RNC-seq.The results showed differential expression of circRALGPS2.It was then confirmed that circRALGPS2 can translate into a protein,named cir-cRALGPS2-212aa,which has IRES activity.Next,we found that circRALGPS2-212aa promotes apoptosis and autophagy in chicken granulosa cells by forming a complex with PARP1 and HMGB1.Conclusions Our results revealed that circRALGPS2 can regulate chicken granulosa cell apoptosis and autophagy through the circRALGPS2-212aa/PARP1/HMGB1 axis.展开更多
Hospitals are crucial healthcare facilities where patients seek treatment,and effective budget management within hospitals significantly impacts their operational efficiency and financial performance.In the age of inf...Hospitals are crucial healthcare facilities where patients seek treatment,and effective budget management within hospitals significantly impacts their operational efficiency and financial performance.In the age of information technology and advanced healthcare solutions,the emergence of smart hospitals represents a new trend in the medical industry’s evolution.Leveraging modern information technology can enhance the development of hospital IT systems and drive budget management toward greater intelligence.This paper begins by analyzing the influence of smart hospitals on hospital budget control.It then examines the current state of budget management control within smart hospitals.Finally,it proposes several strategies for budget management control in smart hospitals,aiming to provide guidance for relevant stakeholders.展开更多
The physical and chemical properties of the air-dried residual coal after soaking in the goaf will change,resulting in an increase in its spontaneous combustion tendency.This study aimed to look into the features and ...The physical and chemical properties of the air-dried residual coal after soaking in the goaf will change,resulting in an increase in its spontaneous combustion tendency.This study aimed to look into the features and mechanism of soaked-dried coal's spontaneous combustion.Five samples of coal were dried to various degrees,and the weight loss features during thermal processing were examined.Based on this,the pore structure and chemical structure characteristics of the coal samples with the highest tendency to spontaneous combustion were quantitatively examined,and the mechanism by which soaking-drying afected the spontaneous combustion heating process of the remaining coal in goaf was investigated in turn.The results show that T1 decreases with the increase of drying time,T2–T6 shows a fuctuating change,and the ignition activation energy of 36-S-Coal is smaller than that of other coal samples.The pore type of 36-S-Coal changes from a oneend closed impermeable pore to an open pore,and the pore group area is large.During the 36 h drying process,the internal channels of the coal were dredged,and a large number of gravels and minerals were precipitated from the pores with the air fow.A large number of gravels were around the pores to form a surface structure that was easy to adsorb various gases.Furthermore,infrared spectroscopy was used to analyze the two coal samples.It was found that soaking and drying did not change the functional group types of coal samples,but the fatty chain degree of 36-S-Coal was reduced to 1.56.It shows that the aliphatic chain structure of coal is changed after 36 h of drying after 30 days of soaking,which leads to the continuous shedding of aliphatic chain branches of residual coal,and the skeleton of coal is looser,which makes the low-temperature oxidation reaction of 36-S-Coal easier.Based on the above results,the coal-oxygen composite mechanism of water-immerseddried coal is obtained,and it is considered that the key to the spontaneous combustion oxidation process of coal is to provide oxygen atoms and accelerate the formation of peroxides.展开更多
How to effectively implement the work of reducing the burden of basic education has been concerned by people.By using the knowledge of game theory,this paper analyzes the behavioral goals of the relevant subjects in r...How to effectively implement the work of reducing the burden of basic education has been concerned by people.By using the knowledge of game theory,this paper analyzes the behavioral goals of the relevant subjects in reducing the burden of basic education,and puts forward some suggestions.We should change the"focus"to"characteristics"and guide the diversified development of primary and secondary education.By adjusting the matching degree of various levels of education,the pressure of entering school can be reduced.Through social reform,the interests of different classes were adjusted and the residual negative influence of imperial examination culture was eliminated,so as to successfully remove the stumbling block of"excessive academic burden"in the educational reform of the new era and create conditions for cultivating a large number of outstanding talents needed for national development and national rejuvenation.展开更多
Optical thermometry as an important local temperature-sensing technique,has received increasing attention in scientific and industrial areas.However,it is still a big challenge to develop luminescent materials with se...Optical thermometry as an important local temperature-sensing technique,has received increasing attention in scientific and industrial areas.However,it is still a big challenge to develop luminescent materials with self-activated dual-wavelength emissions toward high-sensitivity optical thermometers.Herein,a novel ratiometric thermometric strategy of Bi^(3+)-activated dual-wavelength emission band was realized in the same lattice position with two local electronic states of La_(3)Sb_(1-x)Ta_xO_(7):Bi^(3+)(0≤x≤1.0)materials based on the different temperature-dependent emission behaviors,benefiting from the highlysensitive and regulable emission to the coordination environment of Bi^(3+).The structural and spectral results demonstrate that the emission tremendously shifted from green to blue with 68 nm and the intensity was enhanced 2.6 times.Especially,the visual dual-wavelength emitting from two emission centers was presented by increasing the Ta^(5+)substitution concentration to 20%or 25%,mainly originating from the two local electronic states around the Bi^(3+)emission center.Significantly,the dual-wavelength with different thermal-quenching performance provided high-temperature sensitivity and good discrimination signals for optical thermometry in the range between 303 and 493 K.The maximum relative sensitivity reached 2.64%/K(La_(3)Sb_(0.8)Ta_(0.2)O_(7):0.04Bi^(3+)@383 K)and 1.91%/K(La_(3)Sb_(0.75)Ta_(0.25)O_(7):0.04Bi^(3+)@388 K).This work reveals a rational design strategy of different local electronic states around the singledoping multiple emission centers towards practical applications,such as luminescence thermometry and white LED lighting.展开更多
Background:Cancer stem-like cells(CSCs)are a small subset of cells in tumors that exhibit self-renewal and differentiation properties.CSCs play a vital role in tumor formation,progression,relapse,and therapeutic resis...Background:Cancer stem-like cells(CSCs)are a small subset of cells in tumors that exhibit self-renewal and differentiation properties.CSCs play a vital role in tumor formation,progression,relapse,and therapeutic resistance.B7-H3,an immunoregulatory protein,has many protumor functions.However,little is known about the mechanism underlying the role of B7-H3 in regulating gastric cancer(GC)stemness.Our study aimed to explore the impacts of B7-H3 on GC stemness and its underlying mechanism.Methods:GC stemness influenced by B7-H3 was detected both in vitro and in vivo.The expression of stemness-related markers was examined by reverse transcription quantitative polymerase chain reaction,Western blotting,and flow cytometry.Sphere formation assay was used to detect the sphere-forming ability.The underlying regulatory mechanism of B7-H3 on the stemness of GC was investigated by mass spectrometry and subsequent validation experiments.The signaling pathway(Protein kinase B[Akt]/Nuclear factor erythroid 2-related factor 2[Nrf2]pathway)of B7-H3 on the regulation of glutathione(GSH)metabolism was examined by Western blotting assay.Multi-color immunohistochemistry(mIHC)was used to detect the expression of B7-H3,cluster of differentiation 44(CD44),and Nrf2 on human GC tissues.Student’s t-test was used to compare the difference between two groups.Pearson correlation analysis was used to analyze the relationship between two molecules.The Kaplan-Meier method was used for survival analysis.Results:B7-H3 knockdown suppressed the stemness of GC cells both in vitro and in vivo.Mass spectrometric analysis showed the downregulation of GSH metabolism in short hairpin B7-H3 GC cells,which was further confirmed by the experimental results.Meanwhile,stemness characteristics in B7-H3 overexpressing cells were suppressed after the inhibition of GSH metabolism.Furthermore,Western blotting suggested that B7-H3-induced activation of GSH metabolism occurred through the AKT/Nrf2 pathway,and inhibition of AKT signaling pathway could suppress not only GSH metabolism but also GC stemness.mIHC showed that B7-H3 was highly expressed in GC tissues and was positively correlated with the expression of CD44 and Nrf2.Importantly,GC patients with high expression of B7-H3,CD44,and Nrf2 had worse prognosis(P=0.02).Conclusions:B7-H3 has a regulatory effect on GC stemness and the regulatory effect is achieved through the AKT/Nrf2/GSH pathway.Inhibiting B7-H3 expression may be a new therapeutic strategy against GC.展开更多
Hollow mesoporous silica nanoparticles(HMSNs)have become an attractive drug carrier because of their unique characteristics including stable physicochemical properties,large specific surface area and facile functional...Hollow mesoporous silica nanoparticles(HMSNs)have become an attractive drug carrier because of their unique characteristics including stable physicochemical properties,large specific surface area and facile functionalization,especially made into intelligent drug delivery systems(DDSs)for cancer therapy.HMSNS are employed to transport traditional anti-tumor drugs,which can solve the problems of drugs with instability,poor solubility and lack of recognition,etc.,while significantly improving the anti-tumor effect.And an unexpected good result will be obtained by combining functional molecules and metal species with HMSNs for cancer diagnosis and treatment.Actually,HMSNs-based DDSS have developed relatively mature in recent years.This review briefly describes how to successfully prepare an ordinary HMSNs-based DDS,as well as its degradation,different stimuli-responses,targets and combination therapy.These versatile intelligent nanoparticles show great potential in clinical aspects.展开更多
Oil bleed is a serious problem in elastomeric thermal silicone conductive pads. The components of the oil bleed and the effect of the silicone chemical parameters on the amount ofoil bleed have been determined. The ma...Oil bleed is a serious problem in elastomeric thermal silicone conductive pads. The components of the oil bleed and the effect of the silicone chemical parameters on the amount ofoil bleed have been determined. The main components of oil bleeds are the uncrosslinked silicones in the cured resins, which include the unreacted silicone materials and the macromolecular substances produced by the hydrosilylation reaction. Cured resins with a high crosslinking density and a high molecular weight of vinyl silicone residues had a lower amount of oil bleed. In addition, a low Si-H content also reduced the amount ofoil bleed.展开更多
The detection and analysis of circulating tumor cells (CTCs) from patients' blood is important to assess tumor status; however, it remains a challenge. In the present study, we developed a programmable DNA-responsi...The detection and analysis of circulating tumor cells (CTCs) from patients' blood is important to assess tumor status; however, it remains a challenge. In the present study, we developed a programmable DNA-responsive microchip for the highly efficient capture and nondestructive release of CTCs via nucleic acid hybridization. Transparent and patternable substrates with hierarchical architectures were integrated into the microchip with herringbone grooves, resulting in greatly enhanced cell-surface interaction via herringbone micromixers, more binding sites, and better matched topographical interactions. In combination with a high-affinity aptamer, target cancer cells were specifically and efficiently captured on the chip. Captured cancer cells were gently released from the chip under physiological conditions using toehold-mediated strand displacement, without any destructive factors for cells or substrates. More importantly, aptamercontaining DNA sequences on the surface of the retrieved cancer cells could be further amplified by polymerase chain reaction (PCR), facilitating the detection of cell surface biomarkers and characterization of the CTCs. Furthermore, this system was extensively applied to the capture and release of CTCs from patients' blood samples, demonstrating a promising high-performance platform for CTC enrichment, release, and characterization.展开更多
Dielectric barrier discharge(DBD)plasma applied as surface treatment technology was employed for the modification of Ag_(2)O and graphitic carbon nitride(g-C_(3)N_(4))powders.Subsequently,the pretreated powders were s...Dielectric barrier discharge(DBD)plasma applied as surface treatment technology was employed for the modification of Ag_(2)O and graphitic carbon nitride(g-C_(3)N_(4))powders.Subsequently,the pretreated powders were sequentially loaded onto TiO_(2)nanorods(TiO_(2)-NRs)via electro-deposition,followed by calcination at N_(2)atmosphere.The results indicated that at the optimal plasma discharge time of 5 min for modification of g-C_(3)N_(4)and Ag_(2)O,photocurrent density of ternary composite was 6 times to bare TiO_(2)-NRs under UV-visible light irradiation.Phenol was degraded by using DBD plasma-modified g-C_(3)N_(4)/Ag_(2)O/TiO_(2)-NRs electrode to analyze the photoelectrocatalytic performance.The removal rate of phenol for g-C_(3)N_(4)-5/Ag_(2)O-5/TiO_(2)-NRs electrode was about 3.07 times to that for TiO_(2)-NRs electrode.During active species scavengers'analysis,superoxide radicals and hydroxyl radicals were the main oxidation active species for pollutants degradation.A possible electron-hole separation and transfer mechanism of ternary composite with high photoelectrocatalytic performance was proposed.展开更多
Effective and low toxicity delivery of siRNA is of great importance for clinical gene therapy. Herein, self-assembled DNA nanoparticles (NPs) based on rolling circle amplification (RCA) with a small interfering RNA (s...Effective and low toxicity delivery of siRNA is of great importance for clinical gene therapy. Herein, self-assembled DNA nanoparticles (NPs) based on rolling circle amplification (RCA) with a small interfering RNA (siRNA) payload were successfully developed as a facile and efficient siRNA delivery strategy. This intracellular gene silencing strategy exhibits various advantages including low toxicity, high efficiency, and good stability. The synthesized DNA NPs serve as siRNA carriers, protecting the siRNA against nuclease degradation. We demonstrate that the obtained self-assembled siRNA/NP/PEI system can successfully deliver enhanced green fluorescent protein (EGFP)-siRNA into HeLa cells, realizing the same EGFP knockdown efficiency with less toxicity as that of commercial Lipofectamine 2000.展开更多
The availability and reliability of strategies for molecular biosensing over a finely adjustable dynamic range is essential to enhance the understanding and control of vital biological process. To expand the versatili...The availability and reliability of strategies for molecular biosensing over a finely adjustable dynamic range is essential to enhance the understanding and control of vital biological process. To expand the versatility and utility of nucleic acid- related enzymes, we demonstrated a rational approach to acquiring tunable, pH-dependent deoxyribozymes (DNAzymes) with catalytic activities and response sensitivities that can be tuned through a simple change in solution pH. To do this, we capitalized upon the pH dependence of Hoogsteen interactions and designed i-motif- and triplex-based DNAzymes that can be finely regulated with high precision over a physiologically relevant pH interval. The modified DNAzymes are dependent upon pH for efficient cleavage of substrates, and their catalytic performance can be tuned by regulating the sequence of inserted i-motif/triplex structures. The principle of tunable, pH-dependent DNAzymes provides the opportunity to engineer pH-controlled DNA-machinery devices with unprecedented sensitivity to pH changes. For example, we constructed a DNA-walker device, the stepping rate of which could be adjusted by simply modulating solution pH within an interval of 5.6 to 7.4, as well as a DNA tetrahedron that can be opened at pH 6.4 and kept closed at pH 7.4. The potential of this approach is not limited to serve as pH-dependent devices, but rather may be combined with other elements to expand their practical usefulness.展开更多
The development of multifunctional theranostic nano-agents is an important resolution for personalized treatment of cancer.In this work,we synthesized a new kind of gadolinium boride nanoparticles(GBN)by a microwave-a...The development of multifunctional theranostic nano-agents is an important resolution for personalized treatment of cancer.In this work,we synthesized a new kind of gadolinium boride nanoparticles(GBN)by a microwave-assisted chemical etching method,and discovered their optical characteristics including fluorescence imaging and near-infrared(NIR)photothermal conversion capability.Bright greenishyellow fluorescence enabled for intracellular localization,while effective NIR-photothermal conversion supported photothermal therapy(PTT).In vitro and in vivo results indicated that GBN exhibited a superior antitumor performance and high biocompatibility.This study demonstrated a promising multifunctional theranostic nanoplatform for cancer treatment.展开更多
The design and development of multifunctional nano-drug delivery systems(NDDSs)is a solution that is expected to solve some intractable problems in traditional cancer treatment.In particular,metal-organic frameworks(M...The design and development of multifunctional nano-drug delivery systems(NDDSs)is a solution that is expected to solve some intractable problems in traditional cancer treatment.In particular,metal-organic frameworks(MOFs)are novel hybrid porous nanomaterials which are constructed by the coordination of metal cations or clusters and organic bridging ligands.Benefiting from their intrinsic superior properties,MOFs have captivated intensive attentions in drug release and cancer theranostic.Based on what has been achieved about MOF-based DDSs in recent years,this review introduces different stimuli-responsive mechanisms of them and their applications in cancer diagnosis and treatment systematically.Moreover,the existing challenges and future opportunities in this field are summarized.By realizing industrial production and paying attention to biosafety,their clinical applications will be enriched.展开更多
基金This research was funded by The National Key Research and Development Program of China,grant number 2021YFD1300600China Agriculture Research System of MOF and MARA,grant number CARS-40+1 种基金Sichuan Science and Technology Program,grant number 2021YFYZ0007,2021YFYZ0031 and 2022YFYZ0005National Natural Science Foundation of China Grants,grant number 31972543.
文摘Background The reproductive performance of chickens mainly depends on the development of follicles.Abnor-mal follicle development can lead to decreased reproductive performance and even ovarian disease among chick-ens.Chicken is the only non-human animal with a high incidence of spontaneous ovarian cancer.In recent years,the involvement of circRNAs in follicle development and atresia regulation has been confirmed.Results In the present study,we used healthy and atretic chicken follicles for circRNA RNC-seq.The results showed differential expression of circRALGPS2.It was then confirmed that circRALGPS2 can translate into a protein,named cir-cRALGPS2-212aa,which has IRES activity.Next,we found that circRALGPS2-212aa promotes apoptosis and autophagy in chicken granulosa cells by forming a complex with PARP1 and HMGB1.Conclusions Our results revealed that circRALGPS2 can regulate chicken granulosa cell apoptosis and autophagy through the circRALGPS2-212aa/PARP1/HMGB1 axis.
文摘Hospitals are crucial healthcare facilities where patients seek treatment,and effective budget management within hospitals significantly impacts their operational efficiency and financial performance.In the age of information technology and advanced healthcare solutions,the emergence of smart hospitals represents a new trend in the medical industry’s evolution.Leveraging modern information technology can enhance the development of hospital IT systems and drive budget management toward greater intelligence.This paper begins by analyzing the influence of smart hospitals on hospital budget control.It then examines the current state of budget management control within smart hospitals.Finally,it proposes several strategies for budget management control in smart hospitals,aiming to provide guidance for relevant stakeholders.
基金supported by the fnancial support of the General Projects of National Natural Science Foundation of China(52074156).
文摘The physical and chemical properties of the air-dried residual coal after soaking in the goaf will change,resulting in an increase in its spontaneous combustion tendency.This study aimed to look into the features and mechanism of soaked-dried coal's spontaneous combustion.Five samples of coal were dried to various degrees,and the weight loss features during thermal processing were examined.Based on this,the pore structure and chemical structure characteristics of the coal samples with the highest tendency to spontaneous combustion were quantitatively examined,and the mechanism by which soaking-drying afected the spontaneous combustion heating process of the remaining coal in goaf was investigated in turn.The results show that T1 decreases with the increase of drying time,T2–T6 shows a fuctuating change,and the ignition activation energy of 36-S-Coal is smaller than that of other coal samples.The pore type of 36-S-Coal changes from a oneend closed impermeable pore to an open pore,and the pore group area is large.During the 36 h drying process,the internal channels of the coal were dredged,and a large number of gravels and minerals were precipitated from the pores with the air fow.A large number of gravels were around the pores to form a surface structure that was easy to adsorb various gases.Furthermore,infrared spectroscopy was used to analyze the two coal samples.It was found that soaking and drying did not change the functional group types of coal samples,but the fatty chain degree of 36-S-Coal was reduced to 1.56.It shows that the aliphatic chain structure of coal is changed after 36 h of drying after 30 days of soaking,which leads to the continuous shedding of aliphatic chain branches of residual coal,and the skeleton of coal is looser,which makes the low-temperature oxidation reaction of 36-S-Coal easier.Based on the above results,the coal-oxygen composite mechanism of water-immerseddried coal is obtained,and it is considered that the key to the spontaneous combustion oxidation process of coal is to provide oxygen atoms and accelerate the formation of peroxides.
文摘How to effectively implement the work of reducing the burden of basic education has been concerned by people.By using the knowledge of game theory,this paper analyzes the behavioral goals of the relevant subjects in reducing the burden of basic education,and puts forward some suggestions.We should change the"focus"to"characteristics"and guide the diversified development of primary and secondary education.By adjusting the matching degree of various levels of education,the pressure of entering school can be reduced.Through social reform,the interests of different classes were adjusted and the residual negative influence of imperial examination culture was eliminated,so as to successfully remove the stumbling block of"excessive academic burden"in the educational reform of the new era and create conditions for cultivating a large number of outstanding talents needed for national development and national rejuvenation.
基金supported by the National Natural Science Foundation of China(Nos.52072101,51972088,52172205)the Fundamental Research Funds for the Provincial Universities of Zhejiang(No.GK229909299001-003)the Postgraduate Research Innovation Fund of Hangzhou Dianzi University(No.CXJJ2022032)。
文摘Optical thermometry as an important local temperature-sensing technique,has received increasing attention in scientific and industrial areas.However,it is still a big challenge to develop luminescent materials with self-activated dual-wavelength emissions toward high-sensitivity optical thermometers.Herein,a novel ratiometric thermometric strategy of Bi^(3+)-activated dual-wavelength emission band was realized in the same lattice position with two local electronic states of La_(3)Sb_(1-x)Ta_xO_(7):Bi^(3+)(0≤x≤1.0)materials based on the different temperature-dependent emission behaviors,benefiting from the highlysensitive and regulable emission to the coordination environment of Bi^(3+).The structural and spectral results demonstrate that the emission tremendously shifted from green to blue with 68 nm and the intensity was enhanced 2.6 times.Especially,the visual dual-wavelength emitting from two emission centers was presented by increasing the Ta^(5+)substitution concentration to 20%or 25%,mainly originating from the two local electronic states around the Bi^(3+)emission center.Significantly,the dual-wavelength with different thermal-quenching performance provided high-temperature sensitivity and good discrimination signals for optical thermometry in the range between 303 and 493 K.The maximum relative sensitivity reached 2.64%/K(La_(3)Sb_(0.8)Ta_(0.2)O_(7):0.04Bi^(3+)@383 K)and 1.91%/K(La_(3)Sb_(0.75)Ta_(0.25)O_(7):0.04Bi^(3+)@388 K).This work reveals a rational design strategy of different local electronic states around the singledoping multiple emission centers towards practical applications,such as luminescence thermometry and white LED lighting.
基金supported by Suzhou Special Project on Clinical Key Diseases Treatment Technology of Suzhou Commission of Health(No.LCZX201803)People’s Livelihood and Science and Technology project of Department of Science and Technology of Suzhou(No.SS2019059)+5 种基金Jiangsu Provincial Medical Key Discipline(No.ZDXK202246)Key Project of Jiangsu Provincial Health Commission(No.zd2021050)the Natural Science Foundation of the Jiangsu Higher Education Institutions of China(No.20KJA310005)Key Project of Medical Research of Jiangsu Commission of Health(No.ZDA2020008)National Natural Science Foundation of China(No.81802843)Social Development Project of Department of Science and Technology of Jiangsu Province(No.BE2019667)
文摘Background:Cancer stem-like cells(CSCs)are a small subset of cells in tumors that exhibit self-renewal and differentiation properties.CSCs play a vital role in tumor formation,progression,relapse,and therapeutic resistance.B7-H3,an immunoregulatory protein,has many protumor functions.However,little is known about the mechanism underlying the role of B7-H3 in regulating gastric cancer(GC)stemness.Our study aimed to explore the impacts of B7-H3 on GC stemness and its underlying mechanism.Methods:GC stemness influenced by B7-H3 was detected both in vitro and in vivo.The expression of stemness-related markers was examined by reverse transcription quantitative polymerase chain reaction,Western blotting,and flow cytometry.Sphere formation assay was used to detect the sphere-forming ability.The underlying regulatory mechanism of B7-H3 on the stemness of GC was investigated by mass spectrometry and subsequent validation experiments.The signaling pathway(Protein kinase B[Akt]/Nuclear factor erythroid 2-related factor 2[Nrf2]pathway)of B7-H3 on the regulation of glutathione(GSH)metabolism was examined by Western blotting assay.Multi-color immunohistochemistry(mIHC)was used to detect the expression of B7-H3,cluster of differentiation 44(CD44),and Nrf2 on human GC tissues.Student’s t-test was used to compare the difference between two groups.Pearson correlation analysis was used to analyze the relationship between two molecules.The Kaplan-Meier method was used for survival analysis.Results:B7-H3 knockdown suppressed the stemness of GC cells both in vitro and in vivo.Mass spectrometric analysis showed the downregulation of GSH metabolism in short hairpin B7-H3 GC cells,which was further confirmed by the experimental results.Meanwhile,stemness characteristics in B7-H3 overexpressing cells were suppressed after the inhibition of GSH metabolism.Furthermore,Western blotting suggested that B7-H3-induced activation of GSH metabolism occurred through the AKT/Nrf2 pathway,and inhibition of AKT signaling pathway could suppress not only GSH metabolism but also GC stemness.mIHC showed that B7-H3 was highly expressed in GC tissues and was positively correlated with the expression of CD44 and Nrf2.Importantly,GC patients with high expression of B7-H3,CD44,and Nrf2 had worse prognosis(P=0.02).Conclusions:B7-H3 has a regulatory effect on GC stemness and the regulatory effect is achieved through the AKT/Nrf2/GSH pathway.Inhibiting B7-H3 expression may be a new therapeutic strategy against GC.
基金supported by the National Natural Science Foundation of China(Grant Nos.51773162 and 21204071).
文摘Hollow mesoporous silica nanoparticles(HMSNs)have become an attractive drug carrier because of their unique characteristics including stable physicochemical properties,large specific surface area and facile functionalization,especially made into intelligent drug delivery systems(DDSs)for cancer therapy.HMSNS are employed to transport traditional anti-tumor drugs,which can solve the problems of drugs with instability,poor solubility and lack of recognition,etc.,while significantly improving the anti-tumor effect.And an unexpected good result will be obtained by combining functional molecules and metal species with HMSNs for cancer diagnosis and treatment.Actually,HMSNs-based DDSS have developed relatively mature in recent years.This review briefly describes how to successfully prepare an ordinary HMSNs-based DDS,as well as its degradation,different stimuli-responses,targets and combination therapy.These versatile intelligent nanoparticles show great potential in clinical aspects.
文摘Oil bleed is a serious problem in elastomeric thermal silicone conductive pads. The components of the oil bleed and the effect of the silicone chemical parameters on the amount ofoil bleed have been determined. The main components of oil bleeds are the uncrosslinked silicones in the cured resins, which include the unreacted silicone materials and the macromolecular substances produced by the hydrosilylation reaction. Cured resins with a high crosslinking density and a high molecular weight of vinyl silicone residues had a lower amount of oil bleed. In addition, a low Si-H content also reduced the amount ofoil bleed.
基金This work was supported by the National Natural Science Foundation of China (NSFC) (Nos. 21432008, 91413109 and 21575110). China Postdoctoral Innovative Talent Support Program of China (No. BX201700176).
文摘The detection and analysis of circulating tumor cells (CTCs) from patients' blood is important to assess tumor status; however, it remains a challenge. In the present study, we developed a programmable DNA-responsive microchip for the highly efficient capture and nondestructive release of CTCs via nucleic acid hybridization. Transparent and patternable substrates with hierarchical architectures were integrated into the microchip with herringbone grooves, resulting in greatly enhanced cell-surface interaction via herringbone micromixers, more binding sites, and better matched topographical interactions. In combination with a high-affinity aptamer, target cancer cells were specifically and efficiently captured on the chip. Captured cancer cells were gently released from the chip under physiological conditions using toehold-mediated strand displacement, without any destructive factors for cells or substrates. More importantly, aptamercontaining DNA sequences on the surface of the retrieved cancer cells could be further amplified by polymerase chain reaction (PCR), facilitating the detection of cell surface biomarkers and characterization of the CTCs. Furthermore, this system was extensively applied to the capture and release of CTCs from patients' blood samples, demonstrating a promising high-performance platform for CTC enrichment, release, and characterization.
基金the Zhejiang Provincial Natural Science Foundation of China(Nos.LY16B060001 and LY21B070003)the National Natural Science Foundation of China(No.21876154)。
文摘Dielectric barrier discharge(DBD)plasma applied as surface treatment technology was employed for the modification of Ag_(2)O and graphitic carbon nitride(g-C_(3)N_(4))powders.Subsequently,the pretreated powders were sequentially loaded onto TiO_(2)nanorods(TiO_(2)-NRs)via electro-deposition,followed by calcination at N_(2)atmosphere.The results indicated that at the optimal plasma discharge time of 5 min for modification of g-C_(3)N_(4)and Ag_(2)O,photocurrent density of ternary composite was 6 times to bare TiO_(2)-NRs under UV-visible light irradiation.Phenol was degraded by using DBD plasma-modified g-C_(3)N_(4)/Ag_(2)O/TiO_(2)-NRs electrode to analyze the photoelectrocatalytic performance.The removal rate of phenol for g-C_(3)N_(4)-5/Ag_(2)O-5/TiO_(2)-NRs electrode was about 3.07 times to that for TiO_(2)-NRs electrode.During active species scavengers'analysis,superoxide radicals and hydroxyl radicals were the main oxidation active species for pollutants degradation.A possible electron-hole separation and transfer mechanism of ternary composite with high photoelectrocatalytic performance was proposed.
基金the National Natural Science Foundation of China (Nos.21432008,21721005 and 91753201)Major new drug innovation in the Ministry of Science and Technology (No.2017ZX09303013).
文摘Effective and low toxicity delivery of siRNA is of great importance for clinical gene therapy. Herein, self-assembled DNA nanoparticles (NPs) based on rolling circle amplification (RCA) with a small interfering RNA (siRNA) payload were successfully developed as a facile and efficient siRNA delivery strategy. This intracellular gene silencing strategy exhibits various advantages including low toxicity, high efficiency, and good stability. The synthesized DNA NPs serve as siRNA carriers, protecting the siRNA against nuclease degradation. We demonstrate that the obtained self-assembled siRNA/NP/PEI system can successfully deliver enhanced green fluorescent protein (EGFP)-siRNA into HeLa cells, realizing the same EGFP knockdown efficiency with less toxicity as that of commercial Lipofectamine 2000.
基金The authors thank the National Basic Research Pro- gram of China (973 Program) (Nos. 2012CB720600, 2012CB720603, and 2012CB720604), the National Natural Science Foundation of China (Nos. 21432008 and 81373256).
文摘The availability and reliability of strategies for molecular biosensing over a finely adjustable dynamic range is essential to enhance the understanding and control of vital biological process. To expand the versatility and utility of nucleic acid- related enzymes, we demonstrated a rational approach to acquiring tunable, pH-dependent deoxyribozymes (DNAzymes) with catalytic activities and response sensitivities that can be tuned through a simple change in solution pH. To do this, we capitalized upon the pH dependence of Hoogsteen interactions and designed i-motif- and triplex-based DNAzymes that can be finely regulated with high precision over a physiologically relevant pH interval. The modified DNAzymes are dependent upon pH for efficient cleavage of substrates, and their catalytic performance can be tuned by regulating the sequence of inserted i-motif/triplex structures. The principle of tunable, pH-dependent DNAzymes provides the opportunity to engineer pH-controlled DNA-machinery devices with unprecedented sensitivity to pH changes. For example, we constructed a DNA-walker device, the stepping rate of which could be adjusted by simply modulating solution pH within an interval of 5.6 to 7.4, as well as a DNA tetrahedron that can be opened at pH 6.4 and kept closed at pH 7.4. The potential of this approach is not limited to serve as pH-dependent devices, but rather may be combined with other elements to expand their practical usefulness.
基金supported by the National Natural Science Foundation of China(No.51872188)Shenzhen Basic Research Program(Nos.JCYJ20170302151858466,JCYJ20170818093808351)+2 种基金Special Funds for the Development of Strategic Emerging Industries in Shenzhen(No.20180309154519685)SZU Top Ranking Project(No.860-00000210)Hubei Key Laboratory of Plasma Chemistry and Advanced Materials for the Open Fund(No.2020KF02).
文摘The development of multifunctional theranostic nano-agents is an important resolution for personalized treatment of cancer.In this work,we synthesized a new kind of gadolinium boride nanoparticles(GBN)by a microwave-assisted chemical etching method,and discovered their optical characteristics including fluorescence imaging and near-infrared(NIR)photothermal conversion capability.Bright greenishyellow fluorescence enabled for intracellular localization,while effective NIR-photothermal conversion supported photothermal therapy(PTT).In vitro and in vivo results indicated that GBN exhibited a superior antitumor performance and high biocompatibility.This study demonstrated a promising multifunctional theranostic nanoplatform for cancer treatment.
基金This work was financially supported by the National Natural Science Foundation of China(Grant Nos.51773162 and 21204071).
文摘The design and development of multifunctional nano-drug delivery systems(NDDSs)is a solution that is expected to solve some intractable problems in traditional cancer treatment.In particular,metal-organic frameworks(MOFs)are novel hybrid porous nanomaterials which are constructed by the coordination of metal cations or clusters and organic bridging ligands.Benefiting from their intrinsic superior properties,MOFs have captivated intensive attentions in drug release and cancer theranostic.Based on what has been achieved about MOF-based DDSs in recent years,this review introduces different stimuli-responsive mechanisms of them and their applications in cancer diagnosis and treatment systematically.Moreover,the existing challenges and future opportunities in this field are summarized.By realizing industrial production and paying attention to biosafety,their clinical applications will be enriched.
