Cell metabolism pathways involved in the pathophysiological changes of diabetic peripheral neuropathy

Diabetic peripheral neuropathy is a common complication of diabetes mellitus.Elucidating the pathophysiological metabolic mechanism impels the generation of ideal therapies.However,existing limited treatments for diabetic peripheral neuropathy expose the urgent need for cell metabolism research.Given the lack of comprehensive understanding of energy metabolism changes and related signaling pathways in diabetic peripheral neuropathy,it is essential to explore energy changes and metabolic changes in diabetic peripheral neuropathy to develop suitable treatment methods.This review summarizes the pathophysiological mechanism of diabetic peripheral neuropathy from the perspective of cellular metabolism and the specific interventions for different metabolic pathways to develop effective treatment methods.Various metabolic mechanisms(e.g.,polyol,hexosamine,protein kinase C pathway)are associated with diabetic peripheral neuropathy,and researchers are looking for more effective treatments through these pathways.

Metabolic and proteostatic differences in quiescent and active neural stem cells

Adult neural stem cells are neurogenesis progenitor cells that play an important role in neurogenesis.Therefore,neural regeneration may be a promising target for treatment of many neurological illnesses.The regenerative capacity of adult neural stem cells can be chara cterized by two states:quiescent and active.Quiescent adult neural stem cells are more stable and guarantee the quantity and quality of the adult neural stem cell pool.Active adult neural stem cells are chara cterized by rapid proliferation and differentiation into neurons which allow for integration into neural circuits.This review focuses on diffe rences between quiescent and active adult neural stem cells in nutrition metabolism and protein homeostasis.Furthermore,we discuss the physiological significance and underlying advantages of these diffe rences.Due to the limited number of adult neural stem cells studies,we refe rred to studies of embryonic adult neural stem cells or non-mammalian adult neural stem cells to evaluate specific mechanisms.

Glycogen metabolism-mediated intercellular communication in the tumor microenvironment influences liver cancer prognosis

Glycogen metabolism plays a key role in the development of hepatoellular carcinoma(HCC),but the function of glycogen metabolism genes in the tumor microenvironment(TME)is still to be elucidated.Single cell RNA-seq data were obtained from ten HCC tumor samples totaling 64,545 cells and 65 glycogen metabolism genes were analyzed bya nonnegative matrix factorization(NMF).The prognosis and immune response of new glycogen TME cell dusters were predicted by using HCC and immunotherapy cohorts from public databases.HOC single cell analysis was divided into fibroblasts,NT T cells,macrophages,endothelial clls,and B cells,which were separately divided into new cell clusters by glycogen metabolism gene annotation.Pseudo temporal trajectory analysis demonstrated the temporal differentiation trajectory of different glycogen subtype cell dusters.Cellular communication analysis revealed extensive interactions between endothelial cells with glycogen metabolizing TME cell.related subtypes and diferent glycogen subtype cell clusters.SCENIC analysis of transcription factors upstream of TME cell clusters with different glycogen metabolism.In addition,TME cell dusters of glycogen metabolism were found to be enriched in expression in CAF subtypes,CD8 depleted,M1,and M2 types.Bulk seq analysis showed the prognostic signifcance of glycogen metabolism.mediated TME cell dusters in HCC,while a significant immune response was found in the immunotherapy cohort in patients treated with immune checkpoint blockade(ICB),especially for CAFs,T cells,and macrophages In summary,our study reveals for the first time that glycogen metabolism mediates intercellular communication in the hepatocellular carcinoma microenvironment while elucidating the anti-tumor mechanisms and immune prognostic responses of different subtypes of cell dusters.

Intermittent fasting boosts antitumor immunity by restricting CD11b^(+)Ly6C^(low)Ly6G^(low) cell viability through glucose metabolism in murine breast tumor model

Intermittent fasting can benefit breast cancer patients undergoing chemotherapy or immunotherapy.However,it is still uncertain how to select immunotherapy drugs to combine with intermittent fasting.Herein we observed that two cycles of fasting treatment significantly inhibited breast tumor growth and lung tissue metastasis,as well as prolonged overall survival in mice bearing 4T1 and 4T07 breast cancer.During this process,both the immunosuppressive monocytic-(M-)and granulocytic-(G-)myeloid-derived suppressor cell(MDSC)decreased,accompanied by an increase in interleukin(IL)7R^(+)and granzyme B^(+)T cells in the tumor microenvironment.Interestingly,we observed that Ly6G^(low)G-MDSC sharply decreased after fasting treatment,and the cell surface markers and protein mass spectrometry data showed potential therapeutic targets.Mechanistic investigation revealed that glucose metabolism restriction suppressed the splenic granulocytemonocyte progenitor and the generation of colony-stimulating factors and IL-6,which both contributed to the accumulation of G-MDSC.On the other hand,glucose metabolism restriction can directly induce the apoptosis of Ly6G^(low)G-MDSC,but not Ly6G^(high)subsets.In summary,these results suggest that glucose metabolism restriction induced by fasting treatment attenuates the immune-suppressive milieu and enhances the activation of CD3^(+)T cells,providing potential solutions for enhancing immune-based cancer interventions.

VEGF, HIF-1α, and Metabolic Indicators in Esophageal Squamous Cell Carcinoma

Objective:To explore and analyze the expression and clinical significance of vascular endothelial growth factor(VEGF),hypoxia-inducible factor 1α(HIF-1α),and metabolic indicators in esophageal squamous cell carcinoma(ESCC).Methods:Sixty ESCC patients admitted to the hospital from October 2021 to October 2023 were selected as the ESCC group.Sixty normal healthy patients from the same period were chosen as the control group.Their serum samples and tissue samples were collected.Metabolic indicators of all study subjects were obtained based on the basic biochemical results upon admission.RT-PCR was utilized to detect the expression of VEGF and HIF-1αin ESCC tissues.Results:The expression of VEGF and HIF-1αin the ESCC T3+T4 group was significantly higher than that of the carcinoma in situ(Tis)group,T1+T2 group,and control group.Furthermore,the expression of HIF-1αwas found to be related to the expression of VEGF,showing a significant correlation between the quantities.Significant differences in the levels of metabolic indicators were observed between the ESCC group and the control group(P<0.05).Conclusion:Metabolic indicators are associated with the onset of ESCC in patients.Abnormal lipid metabolism plays a crucial role in the occurrence and development of tumors.The expression of VEGF and HIF-1αin ESCC tissues significantly correlates with the tumor stage,providing a new reference for the diagnosis and treatment of ESCC.

姜黄素通过抑制乙酰转移酶P300表达促进HeLa细胞凋亡

目的:探讨姜黄素(Cur)通过下调HeLa细胞腺病毒E1A相关300 kD蛋白(P300)调控HeLa细胞的活力及凋亡。方法:将对数生长期的HeLa细胞分别采用20、40、60和80μmol/L Cur处理,并以未处理组细胞作为对照,用CCK-8法检测细胞活力;选取20和40μmol/L Cur处理细胞,以流式细胞术检测细胞凋亡,RT-qPCR、Western blot法检测E6基因的mRNA和蛋白表达及凋亡相关蛋白、P300和组蛋白的表达;构建沉默质粒shE6和阴性对照质粒shNC转染HeLa细胞,设置shNC,shNC+Cur(40μmol/L),shE6以及shE6+Cur(40μmol/L)四组,以CCK-8、流式细胞术以及Western blot法分别检测细胞活力、凋亡以及凋亡相关蛋白的表达;构建沉默质粒siP300和阴性对照质粒siNC转染HeLa细胞,RT-PCR、Western blot法分别检测P300的mRNA和蛋白表达、E6的蛋白表达。结果:与未处理组相比,用不同浓度Cur处理HeLa细胞后能显著抑制其活力并可使早期凋亡率增高(P<0.05);Cur处理HeLa细胞后,E6的mRNA及蛋白表达均下调,而敲减E6与未敲减E6的Cur处理组相比,敲减组的早期凋亡率以及促凋亡相关蛋白表达均低于未敲减组(P<0.05);敲减P300后,HeLa细胞中E6蛋白表达降低;而单以Cur处理HeLa细胞后,P300及相关组蛋白表达均下调(P<0.01)。结论:Cur抑制HPV18阳性宫颈癌细胞的活力并促进其凋亡,机制可能与其下调P300而抑制E6蛋白乙酰化有关。

扁蒴藤素调节Shh/Gli1信号通路对宫颈癌HeLa细胞增殖、凋亡和血管生成拟态的影响

目的:探讨扁蒴藤素(Pris)调节Shh/Gli1信号通路对宫颈癌HeLa细胞增殖、凋亡和血管生成拟态(VM)的影响及其机制。方法:采用MTT法检测不同浓度Pris对宫颈癌HeLa细胞增殖的抑制作用,以选取合适的干预浓度。将HeLa细胞分为对照组、环巴胺组、Pris组、Pris+pc-NC组和Pris+pc-Shh组。采用MTT法、EdU法检测各组细胞的增殖能力,Transwell小室法、流式细胞术检测各组细胞的迁移及侵袭能力和细胞凋亡率,体外血管生成实验观察VM形成情况,qPCR法检测各组细胞中Shh和Gli1 mRNA表达水平,WB法检测细胞中血管内皮生长因子A(VEGF-A)、血管内皮钙黏素(VE-cadherin)、Ki-67、caspase-3及与Shh/Gli1信号通路相关蛋白表达水平。结果:0.25~2.5μmol/L的Pris对HeLa细胞增殖均有显著抑制作用,选择1.5μmol/L的Pris进行后续实验。对照组细胞形成良好的管腔结构,与对照组相比,环巴胺组、Pris组和Pris+pc-NC组HeLa细胞管腔结构被明显破坏,细胞增殖活力和增殖率、迁移及侵袭细胞数目、Shh和Gli1 mRNA、VEGF-A、VE-cadherin、Ki-67、Shh、Gli1蛋白表达均显著降低(均P<0.05),细胞凋亡率和caspase-3表达均显著升高(均P<0.05);环巴胺组与Pris组HeLa细胞各项检测指标比较差异均无统计学意义(均P>0.05);与Pris+pc-NC组相比,Pris+pc-Shh组细胞管腔结构形成明显改善,细胞增殖活力和增殖率、迁移及侵袭细胞数、Shh和Gli1 mRNA、VEGF-A、VE-cadherin、Ki-67、Shh、Gli1蛋白表达均显著升高(均P<0.05),细胞凋亡率和caspase-3表达均显著降低(均P<0.05)。结论:Pris抑制宫颈癌HeLa细胞的增殖、迁移与侵袭和VM的形成并促进细胞凋亡,可能与阻断Shh/Gli1信号通路有关。

中药砒霜上调E-钙黏蛋白抑制宫颈癌Hela细胞生长、侵袭、迁移机制研究

目的:研究中药砒霜的主要成分三氧化二砷(As_(2)O_(3))抑制宫颈癌Hela细胞生长、侵袭、迁移的机制,观察As_(2)O_(3)对宫颈癌Hela细胞组蛋白脱乙酰基酶1(HDAC1)、E-钙黏蛋白表达的影响,以及联合HDAC1抑制剂伏立诺他(SAHA)的协同作用。方法:以宫颈癌Hela细胞作为载体,随机分为空白对照组、As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组4组,采用CCK-8法测定不同药物浓度对Hela细胞活性的抑制情况,并筛选后续实验药物浓度;采用Transwell法、划痕法检测各组药物对Hela细胞侵袭、迁移能力的影响;采用实时荧光定量聚合酶链式反应及蛋白免疫印迹法检测HDAC1和E-钙黏蛋白的mRNA表达情况与蛋白表达情况。结果:随着各组药物浓度增加,Hela细胞的活性逐渐降低。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组的Hela细胞活性均低于空白对照组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组穿越Transwell小室膜的细胞数量均少于空白对照组(P<0.05);As_(2)O_(3)+SAHA组的细胞数量少于As_(2)O_(3)组、SAHA组(P<0.05);As_(2)O_(3)组的细胞数量少于SAHA组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组的Hela细胞迁移百分比均低于空白对照组(P<0.05);As_(2)O_(3)+SAHA组的Hela细胞迁移百分比低于As_(2)O_(3)组、SAHA组(P<0.05);As_(2)O_(3)组的Hela细胞迁移百分比低于SAHA组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组的HDAC1 mRNA表达水平均低于空白对照组(P<0.05);As_(2)O_(3)组的HDAC1 mRNA表达水平高于SAHA组(P<0.05);As_(2)O_(3)+SAHA组的HDAC1 mRNA表达水平低于As_(2)O_(3)组、SAHA组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组的E-钙黏蛋白mRNA表达水平均高于空白对照组(P<0.05);As_(2)O_(3)+SAHA组的E-钙黏蛋白mRNA表达水平高于As_(2)O_(3)组、SAHA组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组的HDAC1蛋白表达水平均低于空白对照组(P<0.05);As_(2)O_(3)+SAHA组的HDAC1蛋白表达水平低于As_(2)O_(3)组、SAHA组(P<0.05)。As_(2)O_(3)组、SAHA组、As_(2)O_(3)+SAHA组E-钙黏蛋白的蛋白表达水平均高于空白对照组(P<0.05);As_(2)O_(3)+SAHA组E-钙黏蛋白的蛋白表达水平高于As_(2)O_(3)组、SAHA组(P<0.05)。结论:As_(2)O_(3)抑制Hela细胞的最佳浓度为8μmol/L,联合SAHA时,最佳抑制浓度为4μmol/L。As_(2)O_(3)可能通过抑制HDAC1的表达,同时促进升高E-钙黏蛋白的表达,与SAHA发挥协同作用抑制Hela细胞生长、侵袭、迁移。

鸦胆子苦醇通过TLR9-MyD88信号通路调控Hela细胞凋亡的机制研究

目的探究鸦胆子苦醇(Brusatol,BRU)通过TLR9-MyD88信号通路调控Hela细胞凋亡的分子机制。方法针对本实验室保存的Hela细胞,使用不同浓度(0、5.0、10.0、20.0、40.0、80.0 nmol·L^(-1))的鸦胆子苦醇处理细胞。并将Hela细胞分为Control组(正常培养的Hela细胞)、BRU-L组(使用10.0 nmol·L^(-1)的鸦胆子苦醇处理细胞)BRU-H组(使用20.0 nmol·L^(-1)的鸦胆子苦醇处理细胞)、BRU+pcDNA-NC组(转染pcDNANC+20.0 nmol·L^(-1)的鸦胆子苦醇)、BRU-H+pcDNA-TLR9组(转染pcDNA-TLR9+20.0 nmol·L^(-1)的鸦胆子苦醇)。使用细胞计数试剂盒(CCK-8)法和EdU法检测各组细胞增殖情况;TUNNEL染色法,经流式细胞仪检测细胞凋亡;蛋白免疫印迹(Western blot)检测各组细胞TLR9、MyD88、Bax、Bcl-2、Cleaved Caspase-3和Cleaved Caspase-9蛋白表达水平;流式细胞术检测细胞凋亡和线粒体膜电位检测试剂盒(JC-1)情况、ELISA检测各组细胞三磷酸腺苷(ATP)和活性氧基团(ROS)含量。结果与0 nmol·L^(-1)组比较,10 nmol·L^(-1)组细胞活存活率、IC50值开始显著降低(P<0.05)。不同浓度的BRU刺激细胞后,细胞增殖能力显著降低,且呈剂量依赖(P<0.05)。。与Control组比较,BRU-L、BRU-H组、BRU-H+pcDNA-NC组细胞5-乙炔基-2′-脱氧尿嘧啶核苷(EDU)阳性细胞率、缺口末端标记法(TUNEL)阳性细胞率、细胞凋亡率、细胞Bcl-2蛋白均显著降低,TLR9和MyD88蛋白、Bax、Bax/Bcl-2、Cleaved Caspase-3、Cleaved Caspase-9蛋白水平均明显增加(P<0.05);Control组、BRU-L、BRU-H组/BRU-H+pcDNA-NC呈持续递减/递减趋势(P<0.05);与BRU-H+pcDNA-NC组比较,BRU-H+pcDNA-TLR9组EDU阳性细胞率、TUNEL阳性细胞率、细胞凋亡率、细胞Bcl-2蛋白均显著升高,TLR9和MyD88蛋白、Bax、Bax/Bcl-2、Cleaved Caspase-3、Cleaved Caspase-9蛋白水平均明显降低(P<0.05)。与Control组比较,BRU-L、BRU-H组、BRU-H+pcDNA-NC组细胞JC-1水平和ATP含量显著降低,而ROC含量、mitotracker染色阳性细胞水平显著增加(P<0.05);与BRU-L组比较,BRU-H组、BRU-H+pcDNANC组JC-1水平和ATP含量进一步降低,而ROC含量、mitotracker染色阳性细胞水平进一步增加(P<0.05);与BRU-H+pcDNA-NC组比较,BRU-H+pcDNA-TLR9组细胞JC-1水平和ATP含量增加,而ROC含量、mitotracker染色阳性细胞水平降低(P<0.05)。结论鸦胆子苦醇可通过调控TLR9-MyD88信号通路制Hela细胞增殖。

T cells in pancreatic cancer stroma:Tryptophan metabolism plays an important role in immunoregulation

Several studies have shown that the immune system is highly regulated by tryptophan metabolism,which serves as an immunomodulatory factor.The indoleamine 2,3-dioxygenase 1(IDO1),as an intracellular enzyme that participates in metabolism of the essential amino acid tryptophan in the kynurenine pathway,is an independent prognostic marker for pancreatic cancer(PC).First,overexpression of IDO1 inhibits the maturation of dendritic cells and T-cell proliferation in the liver and spleen.Second,the high expression of kynurenine induces and activates the aryl hydrocarbon receptor,resulting in upregulated programmed cell death protein 1 expression.Third,the induction of IDO1 can lead to loss of the T helper 17 cell/regulatory T cell balance,mediated by the proximal tryptophan catabolite from IDO metabolism.In our study,we found that overexpression of IDO1 upregulated CD8+T cells and reduced natural killer T cells in pancreatic carcinoma in mice.Hence,it may be essential to pay more attention to tryptophan metabolism in patients,especially those who are tolerant to immunotherapy for PC.

Astrocytic endothelin-1 overexpression impairs learning and memory ability in ischemic stroke via altered hippocampal neurogenesis and lipid metabolism

Vascular etiology is the second most prevalent cause of cognitive impairment globally.Endothelin-1,which is produced and secreted by endothelial cells and astrocytes,is implicated in the pathogenesis of stroke.However,the way in which changes in astrocytic endothelin-1 lead to poststroke cognitive deficits following transient middle cerebral artery occlusion is not well understood.Here,using mice in which astrocytic endothelin-1 was overexpressed,we found that the selective overexpression of endothelin-1 by astrocytic cells led to ischemic stroke-related dementia(1 hour of ischemia;7 days,28 days,or 3 months of reperfusion).We also revealed that astrocytic endothelin-1 overexpression contributed to the role of neural stem cell proliferation but impaired neurogenesis in the dentate gyrus of the hippocampus after middle cerebral artery occlusion.Comprehensive proteome profiles and western blot analysis confirmed that levels of glial fibrillary acidic protein and peroxiredoxin 6,which were differentially expressed in the brain,were significantly increased in mice with astrocytic endothelin-1 overexpression in comparison with wild-type mice 28 days after ischemic stroke.Moreover,the levels of the enriched differentially expressed proteins were closely related to lipid metabolism,as indicated by Kyoto Encyclopedia of Genes and Genomes pathway analysis.Liquid chromatography-mass spectrometry nontargeted metabolite profiling of brain tissues showed that astrocytic endothelin-1 overexpression altered lipid metabolism products such as glycerol phosphatidylcholine,sphingomyelin,and phosphatidic acid.Overall,this study demonstrates that astrocytic endothelin-1 overexpression can impair hippocampal neurogenesis and that it is correlated with lipid metabolism in poststroke cognitive dysfunction.

Pleckstrin Homology-Like Domain, Family A, Member 1 (PHLDA1): A Multifaceted Cell Survival Factor that Drives Metabolic Disease

Pleckstrin homology-like domain, family A, member 1 (PHLDA1) is a multifaceted intracellular protein belonging to the evolutionarily conserved pleckstrin homology-related domain family. Its murine homologue, T-cell death-associated 51 (TDAG51) gene, was initially discovered for its role in activation-induced apoptosis in T-cell hybridomas. In recent years, PHLDA1 has received increased attention due to its association with obesity, fatty liver disease, diabetes, atherosclerosis, and cancer. Accumulating evidence also supports its role in endoplasmic reticulum stress signaling pathways as a crucial mediator of apoptosis, autophagy, and cell proliferation. In this review, the current knowledge of PHLDA1 gene and protein regulation, localization, and function is summarized. This review highlights the pro- and anti-apoptotic roles of PHLDA1 that contribute to vast array of metabolic diseases.

ZmMs33 promotes anther elongation via modulating cell elongation regulators,metabolic homeostasis,and cell wall remodeling in maize

Plant cell elongation depends on well-defined gene regulations,adequate nutrients,and timely cell wall modifications.Anther size is positively correlated with the number and viability of pollen grains,while little is known about molecular mechanisms underlying anther cell elongation.Here,we found that properly activated cell elongation regulators at transcriptional levels in loss-of-function ZmMs33 mutant(ms33-6038)anthers failed to promote maize anther elongation.ZmMs33 deficiency disrupted metabolic homeostasis mainly by inhibiting both photosynthesis in anther endothecium and lipid accumulation in anther tapetum.Importantly,ms33-6038 anthers displayed ectopic,premature and excessive secondary cell wall thickening in anther middle layer,which constrained cell elongation structurally and blocked nutrient flows across different anther wall layers.The metabolic disorder was only found in ms33-6038 mutant rather than several representative male-sterility lines at transcriptional and post-translational levels.Collectively,the disordered metabolisms and blocked nutrient flows defeated the activated cell elongation regulators,and finally inhibited anther elongation and growth with a unique‘‘idling effect”in ms33-6038 mutant.

A 640×640 ISFET array for detecting cell metabolism

Ion sensitive field effect transistor(ISFET)devices are highly accurate,convenient,fast and low-cost in the detection of ions and biological macromolecules,such as DNA molecules,antibodies,enzymatic substrates and cellular metabolites.For high-throughput cell metabolism detection,we successfully designed a very large-scale biomedical sensing application specific integrated circuit(ASIC)with a 640×640 ISFET array.The circuit design is highly integrated by compressing the size of a pixel to 7.4×7.4μm^(2)and arranging the layout of even and odd columns in an interdigital pattern to maximize the utilization of space.The chip can operate at a speed of 2.083M pixels/s and the dynamic process of the fluid flow on the surface of the array was monitored through ion imaging.The pH sensitivity is 33±4 mV/pH and the drift rate is 0.06 mV/min after 5 h,indicating the stability and robustness of the chip.Moreover,the chip was applied to monitor pH changes in CaSki cells metabolism,with pH shifting from 8.04 to 7.40 on average.This platform has the potential for continuous and parallel monitoring of cell metabolism in single-cell culture arrays.

Iron Metabolism Abnormalities in Children with Homozygous Sickle Cell Disease in Brazzaville

Introduction: Sickle cell disease is the most common genetic disease in the world, particularly in sub-Saharan Africa. It is a protean condition with multiple complications including disturbed iron metabolism. Objectives: To determine the prevalence of iron metabolism abnormalities in children with homozygous sickle cell disease, to describe the epidemiological, clinical and paraclinical characteristics of children with these abnormalities and to identify associated factors. Patients and Methods: This was a cross-sectional analytical study conducted over 9 months in the mother-child consultation unit of the Brazzaville University Hospital, the National Reference Centre for Sickle Cell Disease and the paediatric department of the Blanche Gomes mother-child hospital. It concerned children aged between 3 months and 15 years followed up for homozygous sickle cell disease. The study was based on a haemogram, iron metabolism test, LDH, transaminases and CRP. Results: The overall prevalence of iron metabolism abnomalities was 40.7%. Of the 145 children included, 35.9% had iron overload and 4.8% iron deficiency. Iron overload was associated with infections, undernutrition, iron supplementation and number of blood transfusions. Iron deficiency was not significantly associated with any factor but recurrent infections were relatively more frequent. Conclusion: Abnormalities of iron metabolism in sickle cell patients are relatively frequent, which justifies monitoring during follow-up for early detection and better management. .

斑蝥酸钠在诱导人宫颈癌Hela细胞凋亡相关基因表达中的作用机制研究

目的:探讨斑蝥酸钠在诱导人宫颈癌Hela细胞凋亡相关基因表达中的作用机制。方法:2023年1月—2023年12月购买1株人宫颈癌Hela细胞,培养至对数生长期后开始实验,将其分为4组,分别加斑蝥酸钠0μmol/L(空白对照组)、4μmol/L(4μmol/L组)、8μmol/L(8μmol/L组)和16μmol/L(16μmol/L组),每个浓度分别设置5个复孔(每组样本量为5),以细胞活力试验(CCK-8)检测细胞增殖情况,以流式细胞仪检测细胞凋亡情况,以实时荧光定量多聚核苷酸链式反应(Real-time PCR)检测B淋巴细胞瘤2(BCL-2)、人细胞凋亡调节因子(Bax)、人半胱氨酸蛋白酶3(Caspase-3)的表达情况。结果:4μmol/L组、8μmol/L组和16μmol/L组的细胞增殖抑制率、凋亡率和Caspase-3相对表达量水平均高于空白对照组,BCL-2/Bax相对表达量水平低于空白对照组,差异均有统计学意义(P<0.05)。随着斑蝥酸钠浓度的升高,人宫颈癌Hela细胞增殖抑制率、凋亡率和Caspase-3随之也升高,BCL-2/Bax相对表达量逐渐下降,差异均有统计学意义(P<0.05)。经斑蝥酸钠处理后可见细胞皱缩、变圆,细胞边缘出芽形成多花环结构的凋亡小体。结论:斑蝥酸钠具有抑制人宫颈癌Hela细胞增殖、促进其凋亡的作用,具有剂量依赖性,其对细胞凋亡的调控作用可能与调控BCL-2,Bax和Caspase-3表达有关。

硫酸软骨素纳米硒的结构表征及其对Hela细胞迁移和侵袭的影响

对硫酸软骨素纳米硒(selenium-chondroitin sulfate nanoparticles,SeCS)的结构进行鉴定,并考察其对Hela细胞迁移和侵袭的影响。以硫酸软骨素为模板,采用亚硒酸钠-维生素C氧化还原法制备SeCS,并运用透射电镜、扫描电镜、X射线光电子能谱仪和傅立叶红外光谱仪对SeCS进行结构表征;通过划痕实验和细胞迁移侵袭实验(Transwell)检测SeCS对Hela细胞迁移及侵袭的影响;通过Western blot免疫印迹法检测SeCS对细胞内基质金属蛋白酶-2(matrix metalloproteinase 2,MMP-2)和基质金属蛋白酶-9(matrix metalloproteinase 9,MMP-9)表达水平的影响。实验结果表明,制备所得的SeCS是零价态的分散良好的球形纳米粒,表面光滑。Hela细胞经20μg/mL SeCS处理后,细胞的迁移率和侵袭率分别从对照组的100%下降到(59.19±7.74)%和(82.43±4.21)%,表明SeCS能够抑制细胞的迁移和侵袭。进一步的研究发现,SeCS下调了MMP-2和MMP-9蛋白的表达量,表明SeCS通过降低MMP-2和MMP-9的蛋白表达来抑制细胞的迁移和侵袭。

Dietary xylo‑oligosaccharides and arabinoxylans improved growth efficiency by reducing gut epithelial cell turnover in broiler chickens

Background One of the main roles of the intestinal mucosa is to protect against environmental hazards.Supple-mentation of xylo-oligosaccharides(XOS)is known to selectively stimulate the growth of beneficial intestinal bacteria and improve gut health and function in chickens.XOS may have an impact on the integrity of the intestinal epithelia where cell turnover is critical to maintain the compatibility between the digestive and barrier functions.The aim of the study was to evaluate the effect of XOS and an arabinoxylan-rich fraction(AXRF)supplementation on gut func-tion and epithelial integrity in broiler chickens.Methods A total of 128 broiler chickens(Ross 308)were assigned into one of two different dietary treatments for a period of 42 d:1)control diet consisting of a corn/soybean meal-based diet;or 2)a control diet supplemented with 0.5%XOS and 1%AXRF.Each treatment was randomly distributed across 8 pens(n=8)with 8 chickens each.Feed intake and body weight were recorded weekly.On d 42,one male chicken per pen was selected based on aver-age weight and euthanized,jejunum samples were collected for proteomics analysis.Results Dietary XOS/AXRF supplementation improved feed efficiency(P<0.05)from d 1 to 42 compared to the con-trol group.Proteomic analysis was used to understand the mechanism of improved efficiency uncovering 346 dif-ferentially abundant proteins(DAP)(Padj<0.00001)in supplemented chickens compared to the non-supplemented group.In the jejunum,the DAP translated into decreased ATP production indicating lower energy expenditure by the tissue(e.g.,inhibition of glycolysis and tricarboxylic acid cycle pathways).In addition,DAP were associated with decreased epithelial cell differentiation,and migration by reducing the actin polymerization pathway.Put-ting the two main pathways together,XOS/AXRF supplementation may decrease around 19%the energy required for the maintenance of the gastrointestinal tract.Conclusions Dietary XOS/AXRF supplementation improved growth efficiency by reducing epithelial cell migration and differentiation(hence,turnover),actin polymerization,and consequently energy requirement for maintenance of the jejunum of broiler chickens.

Cholesterol metabolism: physiological versus pathological aspects in intracerebral hemorrhage

Cholesterol is an important component of plasma membranes and participates in many basic life functions,such as the maintenance of cell membrane stability,the synthesis of steroid hormones,and myelination.Cholesterol plays a key role in the establishment and maintenance of the central nervous system.The brain contains 20%of the whole body’s cholesterol,80%of which is located within myelin.A huge number of processes(e.g.,the sterol regulatory element-binding protein pathway and liver X receptor pathway)participate in the regulation of cholesterol metabolism in the brain via mechanisms that include cholesterol biosynthesis,intracellular transport,and efflux.Certain brain injuries or diseases involving crosstalk among the processes above can affect normal cholesterol metabolism to induce detrimental consequences.Therefore,we hypothesized that cholesterol-related molecules and pathways can serve as therapeutic targets for central nervous system diseases.Intracerebral hemorrhage is the most severe hemorrhagic stroke subtype,with high mortality and morbidity.Historical cholesterol levels are associated with the risk of intracerebral hemorrhage.Moreover,secondary pathological changes after intracerebral hemorrhage are associated with cholesterol metabolism dysregulation,such as neuroinflammation,demyelination,and multiple types of programmed cell death.Intracellular cholesterol accumulation in the brain has been found after intracerebral hemorrhage.In this paper,we review normal cholesterol metabolism in the central nervous system,the mechanisms known to participate in the disturbance of cholesterol metabolism after intracerebral hemorrhage,and the links between cholesterol metabolism and cell death.We also review several possible and constructive therapeutic targets identified based on cholesterol metabolism to provide cholesterol-based perspectives and a reference for those interested in the treatment of intracerebral hemorrhage.

Comprehensive Understanding of Immune Cells in The Pathogenesis of Non-alcoholic Fatty Liver Disease

Non-alcoholic fatty liver disease(NAFLD)is the most common chronic liver disease,defined by several phases,ranging from benign fat accumulation to non-alcoholic steatohepatitis(NASH),which can lead to liver cancer and cirrhosis.Although NAFLD is a disease of disordered metabolism,it also involves several immune cell-mediated inflammatory processes,either promoting and/or suppressing hepatocyte inflammation through the secretion of pro-inflammatory and/or anti-inflammatory factors to influence the NAFLD process.However,the underlying disease mechanism and the role of immune cells in NAFLD are still under investigation,leaving many open-ended questions.In this review,we presented the recent concepts about the interplay of immune cells in the onset and pathogenesis of NAFLD.We also highlighted the specific non-immune cells exhibiting immunological properties of therapeutic significance in NAFLD.We hope that this review will help guide the development of future NAFLD therapeutics.