PTEN-induced putative kinase 1(PINK1),a mitochondrial kinase that phosphorylates Parkin and other proteins,plays a crucial role in mitophagy and protection against neurodegeneration.Mutations in PINK1 and Parkin can l...PTEN-induced putative kinase 1(PINK1),a mitochondrial kinase that phosphorylates Parkin and other proteins,plays a crucial role in mitophagy and protection against neurodegeneration.Mutations in PINK1 and Parkin can lead to loss of function and early onset Parkinson's disease.However,there is a lack of strong in vivo evidence in rodent models to support the theory that loss of PINK1 affects mitophagy and induces neurodegeneration.Additionally,PINK1 knockout pigs(Sus scrofa)do not appear to exhibit neurodegeneration.In our recent work involving non-human primates,we found that PINK1 is selectively expressed in primate brains,while absent in rodent brains.To extend this to other species,we used multiple antibodies to examine the expression of PINK1 in pig tissues.In contrast to tissues from cynomolgus monkeys(Macaca fascicularis),our data did not convincingly demonstrate detectable PINK1expression in pig tissues.Knockdown of PINK1 in cultured pig cells did not result in altered Parkin and BAD phosphorylation,as observed in cultured monkey cells.A comparison of monkey and pig striatum revealed more PINK1-phosphorylated substrates in the monkey brain.Consistently,PINK1 knockout in pigs did not lead to obvious changes in the phosphorylation of Parkin and BAD.These findings provide new evidence that PINK1expression is specific to primates,underscoring the importance of non-human primates in investigating PINK1function and pathology related to PINK1 deficiency.展开更多
Objective YAP1 plays a dual role as an oncogene and tumor suppressor gene in several tumors;differentiating between these roles may depend on the YAP1 phosphorylation pattern.The specific function of YAP1 in B cell ac...Objective YAP1 plays a dual role as an oncogene and tumor suppressor gene in several tumors;differentiating between these roles may depend on the YAP1 phosphorylation pattern.The specific function of YAP1 in B cell acute lymphoblastic leukemia(B-ALL),however,is currently unclear.Thus,in the present study,the role of YAP1 in B-ALL was investigated using relevant cell lines and patient datasets.Methods The effects of shRNA-mediated knockdown on YAP1 and LATS1 levels in the NALM6 and MOLT-4 cell lines were examined using Western blotting,quantitative real-time polymerase chain reaction,flow cytometry,immunostaining,and nude mouse subcutaneous tumorigenesis experiments.Gene expression levels of Hippo pathway-related molecules before and after verteporfin(VP)treatment were compared using RNA-Seq to identify significant Hippo pathway-related genes in NALM6 cells.Results Patients with ALL showing high YAP1 expression and low YAP1-Ser127 phosphorylation levels had worse prognoses than those with low YAP1 protein expression and high YAP1-Ser127 phosphorylation levels.YAP1-Ser127 phosphorylation levels were lower in NALM6 cells than in MOLT-4 and control cells;YAP1 was distributed in the nuclei in NALM6 cells.Knockdown of YAP1 inhibited MOLT-4 and NALM6 cell proliferation and arrested the NALM6 cell cycle in the G0/G1 phase.Before and after VP treatment,the expression of the upstream gene LATS1 was upregulated;its overexpression promoted YAP1-Ser127 phosphorylation.Further,YAP1 was distributed in the plasma.Conclusion LATS1 may downregulate YAP1-Ser127 phosphorylation and maintain B-ALL cell function;thus,VP,which targets this axis,may serve as a new therapeutic method for improving the outcomes for B-ALL patients.展开更多
Astrocytes and microglia play an orchestrated role following spinal cord injury;however,the molecular mechanisms through which microglia regulate astrocytes after spinal cord injury are not yet fully understood.Herein...Astrocytes and microglia play an orchestrated role following spinal cord injury;however,the molecular mechanisms through which microglia regulate astrocytes after spinal cord injury are not yet fully understood.Herein,microglia were pharmacologically depleted and the effects on the astrocytic response were examined.We further explored the potential mechanisms involving the signal transducers and activators of transcription 3(STAT3)pathway.For in vivo experiments,we constructed a contusion spinal cord injury model in C57BL/6 mice.To deplete microglia,all mice were treated with colony-stimulating factor 1 receptor inhibitor PLX3397,starting 2 weeks prior to surgery until they were sacrificed.Cell proliferation was examined by 5-ethynyl-2-deoxyuridine(EdU)and three pivotal inflammatory cytokines were detected by a specific Bio-Plex Pro^(TM) Reagent Kit.Locomotor function,neuroinflammation,astrocyte activation and phosphorylated STAT3(pSTAT3,a maker of activation of STAT3 signaling)levels were determined.For in vitro experiments,a microglia and astrocyte coculture system was established,and the small molecule STA21,which blocks STAT3 activation,was applied to investigate whether STAT3 signaling is involved in mediating astrocyte proliferation induced by microglia.PLX3397 administration disrupted glial scar formation,increased inflammatory spillover,induced diffuse tissue damage and impaired functional recovery after spinal cord injury.Microglial depletion markedly reduced EdU+proliferating cells,especially proliferating astrocytes at 7 days after spinal cord injury.RNA sequencing analysis showed that the JAK/STAT3 pathway was downregulated in mice treated with PLX3397.Double immunofluorescence staining confirmed that PLX3397 significantly decreased STAT3 expression in astrocytes.Importantly,in vitro coculture of astrocytes and microglia showed that microglia-induced astrocyte proliferation was abolished by STA21 administration.These findings suggest that microglial depletion impaired astrocyte proliferation and astrocytic scar formation,and induced inflammatory diffusion partly by inhibiting STAT3 phosphorylation in astrocytes following spinal cord injury.展开更多
BACKGROUND Intestinal ischemia reperfusion(I/R)occurs in various diseases,such as trauma and intestinal transplantation.Excessive reactive oxygen species(ROS)accumulation and subsequent apoptotic cell death in intesti...BACKGROUND Intestinal ischemia reperfusion(I/R)occurs in various diseases,such as trauma and intestinal transplantation.Excessive reactive oxygen species(ROS)accumulation and subsequent apoptotic cell death in intestinal epithelia are important causes of I/R injury.PTEN-induced putative kinase 1(PINK1)and phosphorylation of dynamin-related protein 1(DRP1)are critical regulators of ROS and apoptosis.However,the correlation of PINK1 and DRP1 and their function in intestinal I/R injury have not been investigated.Thus,examining the PINK1/DRP1 pathway may help to identify a protective strategy and improve the patient prognosis.AIM To clarify the mechanism of the PINK1/DRP1 pathway in intestinal I/R injury.METHODS Male C57BL/6 mice were used to generate an intestinal I/R model via superior mesenteric artery occlusion followed by reperfusion.Chiu’s score was used to evaluate intestinal mucosa damage.The mitochondrial fission inhibitor mdivi-1 was administered by intraperitoneal injection.Caco-2 cells were incubated in vitro in hypoxia/reoxygenation conditions.Small interfering RNAs and overexpression plasmids were transfected to regulate PINK1 expression.The protein expression levels of PINK1,DRP1,p-DRP1 and cleaved caspase 3 were measured by Western blotting.Cell viability was evaluated using a Cell Counting Kit-8 assay and cell apoptosis was analyzed by TUNEL staining.Mitochondrial fission and ROS were tested by MitoTracker and MitoSOX respectively.RESULTS Intestinal I/R and Caco-2 cell hypoxia/reoxygenation decreased the expression of PINK1 and p-DRP1 Ser637.Pretreatment with mdivi-1 inhibited mitochondrial fission,ROS generation,and apoptosis and ameliorated cell injury in intestinal I/R.Upon PINK1 knockdown or overexpression in vitro,we found that p-DRP1 Ser637 expression and DRP1 recruitment to the mitochondria were associated with PINK1.Furthermore,we verified the physical combination of PINK1 and p-DRP1 Ser637.CONCLUSION PINK1 is correlated with mitochondrial fission and apoptosis by regulating DRP1 phosphorylation in intestinal I/R.These results suggest that the PINK1/DRP1 pathway is involved in intestinal I/R injury,and provide a new approach for prevention and treatment.展开更多
BACKGROUND The phosphorylation status ofβ-arrestin1 influences its function as a signal strongly related to sorafenib resistance.This retrospective study aimed to develop and validate radiomics-based models for predi...BACKGROUND The phosphorylation status ofβ-arrestin1 influences its function as a signal strongly related to sorafenib resistance.This retrospective study aimed to develop and validate radiomics-based models for predictingβ-arrestin1 phosphorylation in hepatocellular carcinoma(HCC)using whole-lesion radiomics and visual imaging features on preoperative contrast-enhanced computed tomography(CT)images.AIM To develop and validate radiomics-based models for predictingβ-arrestin1 phosphorylation in HCC using radiomics with contrast-enhanced CT.METHODS Ninety-nine HCC patients(training cohort:n=69;validation cohort:n=30)receiving systemic sorafenib treatment after surgery were enrolled in this retrospective study.Three-dimensional whole-lesion regions of interest were manually delineated along the tumor margins on portal venous CT images.Radiomics features were generated and selected to build a radiomics score using logistic regression analysis.Imaging features were evaluated by two radiologists independently.All these features were combined to establish clinico-radiological(CR)and clinico-radiological-radiomics(CRR)models by using multivariable logistic regression analysis.The diagnostic performance and clinical usefulness of the models were measured by receiver operating characteristic and decision curves,and the area under the curve(AUC)was determined.Their association with prognosis was evaluated using the Kaplan-Meier method.RESULTS Four radiomics features were selected to construct the radiomics score.In the multivariate analysis,alanine aminotransferase level,tumor size and tumor margin on portal venous phase images were found to be significant independent factors for predictingβ-arrestin1 phosphorylation-positive HCC and were included in the CR model.The CRR model integrating the radiomics score with clinico-radiological risk factors showed better discriminative performance(AUC=0.898,95%CI,0.820 to 0.977)than the CR model(AUC=0.794,95%CI,0.686 to 0.901;P=0.011),with increased clinical usefulness confirmed in both the training and validation cohorts using decision curve analysis.The risk ofβ-arrestin1 phosphorylation predicted by the CRR model was significantly associated with overall survival in the training and validation cohorts(log-rank test,P<0.05).CONCLUSION The radiomics signature is a reliable tool for evaluatingβ-arrestin1 phosphorylation which has prognostic significance for HCC patients,providing the potential to better identify patients who would benefit from sorafenib treatment.展开更多
AMMECR1 is a critical gene in the pathogenesis of AMME syndrome. But, little is known about how AMMECR1 is regulated. Here, we showed that many human cell lines expressed AMMECR1. With Phos-tag SDS PAGE analysis, we d...AMMECR1 is a critical gene in the pathogenesis of AMME syndrome. But, little is known about how AMMECR1 is regulated. Here, we showed that many human cell lines expressed AMMECR1. With Phos-tag SDS PAGE analysis, we demonstrated that AMMECR1 was constitutively phosphorylated at Ser16. AMMECR1 was localized in the nucleus. Mutation of Ser16 to alanine did not affect its nuclear localization. The homologs of AMMECR1, PAC688.03c and MTH857, were also nuclear proteins, but they were not phosphorylated when tested in HeLa cells. Therefore, AMMECR1 and its homologs might have atypical nuclear localization sequences.展开更多
目的:观察电针对脑缺血大鼠前扣带皮质高迁移率族蛋白1(high mobility group protein 1,HMGB1)和磷酸化的c-Jun氨基酸末端激酶(phosphorylated c-Jun N-terminal kinase,p-JNK)的表达影响,探讨电针对脑缺血大鼠前扣带皮质的保护作用及...目的:观察电针对脑缺血大鼠前扣带皮质高迁移率族蛋白1(high mobility group protein 1,HMGB1)和磷酸化的c-Jun氨基酸末端激酶(phosphorylated c-Jun N-terminal kinase,p-JNK)的表达影响,探讨电针对脑缺血大鼠前扣带皮质的保护作用及机制。方法:将24只雄性SD大鼠随机分为假手术组、模型组、电针组和假电针组,6只/组。采用右侧大脑中动脉栓塞法制备脑缺血大鼠模型,电针组选取“百会”穴、左侧“足三里”穴进行电针刺激,1次/d,30 min/次,持续14 d;假电针组仅浅刺入两穴位皮下,接电针仪但不通电。采用Longa评分评估各组大鼠神经功能损伤情况;Nissl染色观察右侧前扣带皮质神经元的形态与分布情况;免疫组化检测右侧前扣带皮质HMGB1和p-JNK蛋白的表达情况。结果:与假手术组相比,模型组和假电针组大鼠神经功能缺损评分升高(P<0.01),右侧前扣带皮质区Nissl阳性神经元数量减少(P<0.01),HMGB1和p-JNK蛋白表达增加(P<0.01);与模型组相比,电针组大鼠在脑缺血第7天、14天时神经功能缺损评分降低(P<0.05),Nissl阳性神经元数量增加(P<0.01),HMGB1和p-JNK蛋白表达降低(P<0.01)。结论:电针可能通过抑制脑缺血后HMGB1和p-JNK的过表达,减轻前扣带皮质的损伤。展开更多
[Objectives] To study the effects and mechanism of notoginsenoside Rg1 on the spatial learning and memory and phosphorylated tau protein in the AD( Alzheimer's Disease) model rat. [Methods]The AD model rat was rep...[Objectives] To study the effects and mechanism of notoginsenoside Rg1 on the spatial learning and memory and phosphorylated tau protein in the AD( Alzheimer's Disease) model rat. [Methods]The AD model rat was replicated by injection of Aβ_(25-35) in the left lateral ventricles of SD rats. The low dose( 25 mg/kg),middle dose( 50 mg/kg) and high dose( 100 mg/kg) notoginsenoside Rg1 was used for intragastric administration,respectively,two times every day. After 4 weeks,the Morris water maze test was done to detect the learning and memory capacity,and the immunoblotting,immunohistochemical methods were used to detect the changes in the phosphorylation level and distribution of tau protein in hippocampus of the rats. [Results] After the intracerebroventricular injection of Aβ_(25-35),the learning and memory capacity of the model rats was significantly lower than the learning and memory capacity of the normal control rats. The immunoblotting test results showed that the phosphorylation level of tau protein threonine 231 site( Thr231) in hippocampus was significantly increased,and the nonphosphorylation level was significantly decreased. The morphological testing results showed that the phosphorylation level of tau protein Thr231 of AD model rats was increased markedly in region of DG,CA1 and CA3 of the hippocampus. The intervention of the middle dose notoginsenoside Rg1 could significantly improve the learning and memory capacity of the model rats in Morris water maze. The notoginsenoside Rg1 in three different doses could all reduce the phosphorylation level of tau protein Thr231 in the hippocampal DG,CA1,CA3 regions,and there were no significant differences among the three doses. [Conclusions]The notoginsenoside Rg1 could improve Aβ_(25-35)-induced spatial learning and memory impairment of the AD model rats,and decreased the phosphorylation level of tau protein in hippocampus.展开更多
Cohesin is an evolutionary conserved complex that controls chromosome segregation during mitosis. Here we show that, in response to DNA damage, Saccharomyces cerevisiae Scc3, one of the major regulatory subunits of th...Cohesin is an evolutionary conserved complex that controls chromosome segregation during mitosis. Here we show that, in response to DNA damage, Saccharomyces cerevisiae Scc3, one of the major regulatory subunits of the Smc1-Smc3-Scc1 cohesin ring, is phosphorylated on S/T-Q residues. This event depended on the Mec1 checkpoint kinase as well as on cell cycle arrest triggered by the DNA damage checkpoint network. This phosphorylation event also took place during mitosis of an unperturbed cell cycle. The present finding that S. cerevisiae Scc3 is phosphorylated during mitosis represents a potentially important new regulatory step in cohesin’s mitotic functions.展开更多
The TRPV4 cation channel is expressed in a broad range of tissues and participates in the generation of a Ca<sup>2+</sup> signal and/or depolarization of membrane potential. Here, human phosphoglucomutase-...The TRPV4 cation channel is expressed in a broad range of tissues and participates in the generation of a Ca<sup>2+</sup> signal and/or depolarization of membrane potential. Here, human phosphoglucomutase- 1 (PGM1), an enzyme that converts glucose-6 phosphate to glucose-1 phosphate in the glycolysis pathway, as the first auxiliary protein of TRPV4 Ca<sup>2+</sup> channels, is identified with yeast two hybrid system, coimmunoprecipitation, confocal microscopy, and GST pull-down assays. TRPV4 forms a complex with PGM1 through its C-terminal cytoplasmic domain. Because it is demonstrated that TRPV4 serine residue 824 (S824) is phosphorylated by serum/glucocorticoid regulated kinase 1, we elucidate the effect of TRPV4 S824 phosphorylation on TRPV association with PGM1. Even an inactivated mutant version of TRPV4, S824A, exhibited a decreased ability to bind PGM1, an activated phosphomimetic mutant version of TRPV4, S824D, exhibited enhanced binding to PGM1. Thus, formation of the TRPV4/PGM1 complex and localization of this complex to the plasma membrane appear to be regulated by the phosphorylation status of residue S824 in TRPV4. The newly identified interactor of TRPV4 may help the molecular pathways modulating transport activity or glucose metabolism, respectively.展开更多
Background: Tropomyosin 1 alpha chain (Tm1) is an actin-binding protein that regulates the endothelial cell response to oxidative stress following its phosphorylation at Serine 283 (S283). Tm1 is also a major tumor su...Background: Tropomyosin 1 alpha chain (Tm1) is an actin-binding protein that regulates the endothelial cell response to oxidative stress following its phosphorylation at Serine 283 (S283). Tm1 is also a major tumor suppressor in breast cancer. In the present study, we investigated the role of phosphorylation of Tm1 in regulating its tumor suppressor properties. Methods: MDA MB231 breast cancer cells stably overexpressing wild type form of Tm1 or Tm1 mutants (S283A and S283E) were generated. Proliferation and cell viability were assayed by means of the enzymatic cleavage of the tetrazolium salt WST-1 to formazan dye by cellular mitochondrial dehydrogenases. Adhesion assays were performed at various periods of time on cells grown on plastic. Cell migration was evaluated by using the wound-healing assay and by measuring transendothelial migration of cancer cells. Malignant transformation in vitro was determined by using the anchorage-independent growth assay on soft agar. Results: We found that cells expressing the phosphomimetic form of Tm1 S283E/Tm1 are characterized by an increased adhesion to the substratum. Moreover, the migration of MDA-MB231/S283E/Tm1 cells in a wound closure assay is reduced compared to parental cells or those expressing the non-phosphorylatable form of Tm1 (S283A). Similarly, the transendothelial migration of MDA-MB231/S283E/Tm1 cells is also reduced as compared to the other cell lines. Moreover, we found that the cells expressing the S283A mutants form more colonies in soft agar that those expressing the S283E mutants. Conclusion: Phosphorylation of Tm1 at Ser283 contributes to its anti-tumor properties, and this effect results mainly from an increase in cell adhesion associated with a decrease in their migratory and invasive potentials.展开更多
基金supported by the National Natural Science Foundation of China (32070534,32370567,82371874,81830032,31872779,82071421,81873736)Key Field Research and Development Program of Guangdong Province (2018B030337001)+3 种基金Guangzhou Key Research Program on Brain Science (202007030008)Department of Science and Technology of Guangdong Province (2021ZT09Y007,2020B121201006)Guangdong Basic and Applied Basic Research Foundation (2023B1515020031,2022A1515012301)Fundamental Research Funds for the Central Universities (Jinan University,21620358)。
文摘PTEN-induced putative kinase 1(PINK1),a mitochondrial kinase that phosphorylates Parkin and other proteins,plays a crucial role in mitophagy and protection against neurodegeneration.Mutations in PINK1 and Parkin can lead to loss of function and early onset Parkinson's disease.However,there is a lack of strong in vivo evidence in rodent models to support the theory that loss of PINK1 affects mitophagy and induces neurodegeneration.Additionally,PINK1 knockout pigs(Sus scrofa)do not appear to exhibit neurodegeneration.In our recent work involving non-human primates,we found that PINK1 is selectively expressed in primate brains,while absent in rodent brains.To extend this to other species,we used multiple antibodies to examine the expression of PINK1 in pig tissues.In contrast to tissues from cynomolgus monkeys(Macaca fascicularis),our data did not convincingly demonstrate detectable PINK1expression in pig tissues.Knockdown of PINK1 in cultured pig cells did not result in altered Parkin and BAD phosphorylation,as observed in cultured monkey cells.A comparison of monkey and pig striatum revealed more PINK1-phosphorylated substrates in the monkey brain.Consistently,PINK1 knockout in pigs did not lead to obvious changes in the phosphorylation of Parkin and BAD.These findings provide new evidence that PINK1expression is specific to primates,underscoring the importance of non-human primates in investigating PINK1function and pathology related to PINK1 deficiency.
文摘Objective YAP1 plays a dual role as an oncogene and tumor suppressor gene in several tumors;differentiating between these roles may depend on the YAP1 phosphorylation pattern.The specific function of YAP1 in B cell acute lymphoblastic leukemia(B-ALL),however,is currently unclear.Thus,in the present study,the role of YAP1 in B-ALL was investigated using relevant cell lines and patient datasets.Methods The effects of shRNA-mediated knockdown on YAP1 and LATS1 levels in the NALM6 and MOLT-4 cell lines were examined using Western blotting,quantitative real-time polymerase chain reaction,flow cytometry,immunostaining,and nude mouse subcutaneous tumorigenesis experiments.Gene expression levels of Hippo pathway-related molecules before and after verteporfin(VP)treatment were compared using RNA-Seq to identify significant Hippo pathway-related genes in NALM6 cells.Results Patients with ALL showing high YAP1 expression and low YAP1-Ser127 phosphorylation levels had worse prognoses than those with low YAP1 protein expression and high YAP1-Ser127 phosphorylation levels.YAP1-Ser127 phosphorylation levels were lower in NALM6 cells than in MOLT-4 and control cells;YAP1 was distributed in the nuclei in NALM6 cells.Knockdown of YAP1 inhibited MOLT-4 and NALM6 cell proliferation and arrested the NALM6 cell cycle in the G0/G1 phase.Before and after VP treatment,the expression of the upstream gene LATS1 was upregulated;its overexpression promoted YAP1-Ser127 phosphorylation.Further,YAP1 was distributed in the plasma.Conclusion LATS1 may downregulate YAP1-Ser127 phosphorylation and maintain B-ALL cell function;thus,VP,which targets this axis,may serve as a new therapeutic method for improving the outcomes for B-ALL patients.
基金supported by the Natural Science Foundation of Guangdong Province,No.2020A1515010090(to ZLZ)the Science and Technology Project Foundation of Guangzhou City,No.202002030004(to HZ).
文摘Astrocytes and microglia play an orchestrated role following spinal cord injury;however,the molecular mechanisms through which microglia regulate astrocytes after spinal cord injury are not yet fully understood.Herein,microglia were pharmacologically depleted and the effects on the astrocytic response were examined.We further explored the potential mechanisms involving the signal transducers and activators of transcription 3(STAT3)pathway.For in vivo experiments,we constructed a contusion spinal cord injury model in C57BL/6 mice.To deplete microglia,all mice were treated with colony-stimulating factor 1 receptor inhibitor PLX3397,starting 2 weeks prior to surgery until they were sacrificed.Cell proliferation was examined by 5-ethynyl-2-deoxyuridine(EdU)and three pivotal inflammatory cytokines were detected by a specific Bio-Plex Pro^(TM) Reagent Kit.Locomotor function,neuroinflammation,astrocyte activation and phosphorylated STAT3(pSTAT3,a maker of activation of STAT3 signaling)levels were determined.For in vitro experiments,a microglia and astrocyte coculture system was established,and the small molecule STA21,which blocks STAT3 activation,was applied to investigate whether STAT3 signaling is involved in mediating astrocyte proliferation induced by microglia.PLX3397 administration disrupted glial scar formation,increased inflammatory spillover,induced diffuse tissue damage and impaired functional recovery after spinal cord injury.Microglial depletion markedly reduced EdU+proliferating cells,especially proliferating astrocytes at 7 days after spinal cord injury.RNA sequencing analysis showed that the JAK/STAT3 pathway was downregulated in mice treated with PLX3397.Double immunofluorescence staining confirmed that PLX3397 significantly decreased STAT3 expression in astrocytes.Importantly,in vitro coculture of astrocytes and microglia showed that microglia-induced astrocyte proliferation was abolished by STA21 administration.These findings suggest that microglial depletion impaired astrocyte proliferation and astrocytic scar formation,and induced inflammatory diffusion partly by inhibiting STAT3 phosphorylation in astrocytes following spinal cord injury.
文摘分析对神经病理性疼痛大鼠Raf-1/ERK/CREB信号通路予以枢经推拿的效果。方法 对60只SD大鼠随机分为正常组、假手术组、CCI组、假推拿组、推拿组,每组各12只。CCI组、假推拿组、推拿组大鼠经7天预饲养后建立坐骨神经慢性压迫(chronic constriction injury of the sciatic nerve,CCI)模型模拟神经病理性疼痛,正常组不予处理,假手术组模拟CCI造模但只暴露脊神经,不予接扎。在造模后第7天开始对推拿组每天进行推拿干预,假推拿组每天进行抚摸大鼠。检测造模后第3、7、14、21天这4个时间点各组大鼠的机械痛阈值和热痛阈值以明确推拿镇痛效果;分别在造模后第14、21天对各组大鼠随机各取6只大鼠进行处死取材;采用PCR检测各组大鼠脊髓背角及大脑灰质顶叶区的Raf-1、ERK、CREB的基因表达情况,采用Westernblot法检测各组大鼠Raf-1、ERK、CREB的蛋白表达情况。结果:在大鼠脊髓背角上,术后14天CCI组大鼠的Raf-1、ERK、CREB、均高于正常组和假手术组;推拿干预后推拿组的Raf-1、ERK、CREB均低于CCI组和假推拿组;但在造模后第21天,各组大鼠间的Raf-1、ERK、CREB差异无统计学意义。在大鼠大脑灰质顶叶区,造模后第14、21天的各组大鼠间的Raf-1、ERK、CREB、P38差异无统计学意义。结论 1、CCI模型可致神经病理性疼痛大鼠热痛阈、机械痛阈降低,推拿可提高CCI模型大鼠的热痛阈、机械痛阈。2、Raf-1/ERK/CREB信号通路参与了慢性神经病理性疼痛过程,推拿镇痛的机制可能与其下调脊髓背角中Raf-1/ERK/CREB信号通路基因和蛋白的表达有关。
基金the National Natural Science Foundation of China,No.81679154,No.81871547.
文摘BACKGROUND Intestinal ischemia reperfusion(I/R)occurs in various diseases,such as trauma and intestinal transplantation.Excessive reactive oxygen species(ROS)accumulation and subsequent apoptotic cell death in intestinal epithelia are important causes of I/R injury.PTEN-induced putative kinase 1(PINK1)and phosphorylation of dynamin-related protein 1(DRP1)are critical regulators of ROS and apoptosis.However,the correlation of PINK1 and DRP1 and their function in intestinal I/R injury have not been investigated.Thus,examining the PINK1/DRP1 pathway may help to identify a protective strategy and improve the patient prognosis.AIM To clarify the mechanism of the PINK1/DRP1 pathway in intestinal I/R injury.METHODS Male C57BL/6 mice were used to generate an intestinal I/R model via superior mesenteric artery occlusion followed by reperfusion.Chiu’s score was used to evaluate intestinal mucosa damage.The mitochondrial fission inhibitor mdivi-1 was administered by intraperitoneal injection.Caco-2 cells were incubated in vitro in hypoxia/reoxygenation conditions.Small interfering RNAs and overexpression plasmids were transfected to regulate PINK1 expression.The protein expression levels of PINK1,DRP1,p-DRP1 and cleaved caspase 3 were measured by Western blotting.Cell viability was evaluated using a Cell Counting Kit-8 assay and cell apoptosis was analyzed by TUNEL staining.Mitochondrial fission and ROS were tested by MitoTracker and MitoSOX respectively.RESULTS Intestinal I/R and Caco-2 cell hypoxia/reoxygenation decreased the expression of PINK1 and p-DRP1 Ser637.Pretreatment with mdivi-1 inhibited mitochondrial fission,ROS generation,and apoptosis and ameliorated cell injury in intestinal I/R.Upon PINK1 knockdown or overexpression in vitro,we found that p-DRP1 Ser637 expression and DRP1 recruitment to the mitochondria were associated with PINK1.Furthermore,we verified the physical combination of PINK1 and p-DRP1 Ser637.CONCLUSION PINK1 is correlated with mitochondrial fission and apoptosis by regulating DRP1 phosphorylation in intestinal I/R.These results suggest that the PINK1/DRP1 pathway is involved in intestinal I/R injury,and provide a new approach for prevention and treatment.
基金Supported by the Science and Technology Support Program of Sichuan Province,No.2021YFS0144 and No.2021YFS0021China Postdoctoral Science Foundation,No.2021M692289National Natural Science Foundation of China,No.81971571。
文摘BACKGROUND The phosphorylation status ofβ-arrestin1 influences its function as a signal strongly related to sorafenib resistance.This retrospective study aimed to develop and validate radiomics-based models for predictingβ-arrestin1 phosphorylation in hepatocellular carcinoma(HCC)using whole-lesion radiomics and visual imaging features on preoperative contrast-enhanced computed tomography(CT)images.AIM To develop and validate radiomics-based models for predictingβ-arrestin1 phosphorylation in HCC using radiomics with contrast-enhanced CT.METHODS Ninety-nine HCC patients(training cohort:n=69;validation cohort:n=30)receiving systemic sorafenib treatment after surgery were enrolled in this retrospective study.Three-dimensional whole-lesion regions of interest were manually delineated along the tumor margins on portal venous CT images.Radiomics features were generated and selected to build a radiomics score using logistic regression analysis.Imaging features were evaluated by two radiologists independently.All these features were combined to establish clinico-radiological(CR)and clinico-radiological-radiomics(CRR)models by using multivariable logistic regression analysis.The diagnostic performance and clinical usefulness of the models were measured by receiver operating characteristic and decision curves,and the area under the curve(AUC)was determined.Their association with prognosis was evaluated using the Kaplan-Meier method.RESULTS Four radiomics features were selected to construct the radiomics score.In the multivariate analysis,alanine aminotransferase level,tumor size and tumor margin on portal venous phase images were found to be significant independent factors for predictingβ-arrestin1 phosphorylation-positive HCC and were included in the CR model.The CRR model integrating the radiomics score with clinico-radiological risk factors showed better discriminative performance(AUC=0.898,95%CI,0.820 to 0.977)than the CR model(AUC=0.794,95%CI,0.686 to 0.901;P=0.011),with increased clinical usefulness confirmed in both the training and validation cohorts using decision curve analysis.The risk ofβ-arrestin1 phosphorylation predicted by the CRR model was significantly associated with overall survival in the training and validation cohorts(log-rank test,P<0.05).CONCLUSION The radiomics signature is a reliable tool for evaluatingβ-arrestin1 phosphorylation which has prognostic significance for HCC patients,providing the potential to better identify patients who would benefit from sorafenib treatment.
基金National Natural Science Foundation of China (39925018, 90508002 , 30121001) Chinese Academy of Science (KSCX 1-R65 and RSCX2-H10)+2 种基金 National Basic Research Program of China (973 project, 2002CB713700) American Cancer Society (RPG-99-173-01) a Gcc Breast Cancer Research award and National Institutes of Health grants DK56292 and CA89019 to XY (a GCC Eminent Scholar) and NS36194 (JW).
文摘AMMECR1 is a critical gene in the pathogenesis of AMME syndrome. But, little is known about how AMMECR1 is regulated. Here, we showed that many human cell lines expressed AMMECR1. With Phos-tag SDS PAGE analysis, we demonstrated that AMMECR1 was constitutively phosphorylated at Ser16. AMMECR1 was localized in the nucleus. Mutation of Ser16 to alanine did not affect its nuclear localization. The homologs of AMMECR1, PAC688.03c and MTH857, were also nuclear proteins, but they were not phosphorylated when tested in HeLa cells. Therefore, AMMECR1 and its homologs might have atypical nuclear localization sequences.
文摘目的:观察电针对脑缺血大鼠前扣带皮质高迁移率族蛋白1(high mobility group protein 1,HMGB1)和磷酸化的c-Jun氨基酸末端激酶(phosphorylated c-Jun N-terminal kinase,p-JNK)的表达影响,探讨电针对脑缺血大鼠前扣带皮质的保护作用及机制。方法:将24只雄性SD大鼠随机分为假手术组、模型组、电针组和假电针组,6只/组。采用右侧大脑中动脉栓塞法制备脑缺血大鼠模型,电针组选取“百会”穴、左侧“足三里”穴进行电针刺激,1次/d,30 min/次,持续14 d;假电针组仅浅刺入两穴位皮下,接电针仪但不通电。采用Longa评分评估各组大鼠神经功能损伤情况;Nissl染色观察右侧前扣带皮质神经元的形态与分布情况;免疫组化检测右侧前扣带皮质HMGB1和p-JNK蛋白的表达情况。结果:与假手术组相比,模型组和假电针组大鼠神经功能缺损评分升高(P<0.01),右侧前扣带皮质区Nissl阳性神经元数量减少(P<0.01),HMGB1和p-JNK蛋白表达增加(P<0.01);与模型组相比,电针组大鼠在脑缺血第7天、14天时神经功能缺损评分降低(P<0.05),Nissl阳性神经元数量增加(P<0.01),HMGB1和p-JNK蛋白表达降低(P<0.01)。结论:电针可能通过抑制脑缺血后HMGB1和p-JNK的过表达,减轻前扣带皮质的损伤。
基金Supported by National Natural Science Foundation of China(81673856,81573865)China Postdoctoral Science Foundation(2016M592319,2017T100542)+1 种基金Youth Project of Hubei University of Traditional Chinese Medicine(Zhong Yi Xiao Zi2015182)PhD Research Foundation of Hubei University of Traditional Chinese Medicine(Zhong Yi Dang Zi201425)
文摘[Objectives] To study the effects and mechanism of notoginsenoside Rg1 on the spatial learning and memory and phosphorylated tau protein in the AD( Alzheimer's Disease) model rat. [Methods]The AD model rat was replicated by injection of Aβ_(25-35) in the left lateral ventricles of SD rats. The low dose( 25 mg/kg),middle dose( 50 mg/kg) and high dose( 100 mg/kg) notoginsenoside Rg1 was used for intragastric administration,respectively,two times every day. After 4 weeks,the Morris water maze test was done to detect the learning and memory capacity,and the immunoblotting,immunohistochemical methods were used to detect the changes in the phosphorylation level and distribution of tau protein in hippocampus of the rats. [Results] After the intracerebroventricular injection of Aβ_(25-35),the learning and memory capacity of the model rats was significantly lower than the learning and memory capacity of the normal control rats. The immunoblotting test results showed that the phosphorylation level of tau protein threonine 231 site( Thr231) in hippocampus was significantly increased,and the nonphosphorylation level was significantly decreased. The morphological testing results showed that the phosphorylation level of tau protein Thr231 of AD model rats was increased markedly in region of DG,CA1 and CA3 of the hippocampus. The intervention of the middle dose notoginsenoside Rg1 could significantly improve the learning and memory capacity of the model rats in Morris water maze. The notoginsenoside Rg1 in three different doses could all reduce the phosphorylation level of tau protein Thr231 in the hippocampal DG,CA1,CA3 regions,and there were no significant differences among the three doses. [Conclusions]The notoginsenoside Rg1 could improve Aβ_(25-35)-induced spatial learning and memory impairment of the AD model rats,and decreased the phosphorylation level of tau protein in hippocampus.
文摘Cohesin is an evolutionary conserved complex that controls chromosome segregation during mitosis. Here we show that, in response to DNA damage, Saccharomyces cerevisiae Scc3, one of the major regulatory subunits of the Smc1-Smc3-Scc1 cohesin ring, is phosphorylated on S/T-Q residues. This event depended on the Mec1 checkpoint kinase as well as on cell cycle arrest triggered by the DNA damage checkpoint network. This phosphorylation event also took place during mitosis of an unperturbed cell cycle. The present finding that S. cerevisiae Scc3 is phosphorylated during mitosis represents a potentially important new regulatory step in cohesin’s mitotic functions.
文摘The TRPV4 cation channel is expressed in a broad range of tissues and participates in the generation of a Ca<sup>2+</sup> signal and/or depolarization of membrane potential. Here, human phosphoglucomutase- 1 (PGM1), an enzyme that converts glucose-6 phosphate to glucose-1 phosphate in the glycolysis pathway, as the first auxiliary protein of TRPV4 Ca<sup>2+</sup> channels, is identified with yeast two hybrid system, coimmunoprecipitation, confocal microscopy, and GST pull-down assays. TRPV4 forms a complex with PGM1 through its C-terminal cytoplasmic domain. Because it is demonstrated that TRPV4 serine residue 824 (S824) is phosphorylated by serum/glucocorticoid regulated kinase 1, we elucidate the effect of TRPV4 S824 phosphorylation on TRPV association with PGM1. Even an inactivated mutant version of TRPV4, S824A, exhibited a decreased ability to bind PGM1, an activated phosphomimetic mutant version of TRPV4, S824D, exhibited enhanced binding to PGM1. Thus, formation of the TRPV4/PGM1 complex and localization of this complex to the plasma membrane appear to be regulated by the phosphorylation status of residue S824 in TRPV4. The newly identified interactor of TRPV4 may help the molecular pathways modulating transport activity or glucose metabolism, respectively.
基金supported by the Canadian Institutes of Health Research.
文摘Background: Tropomyosin 1 alpha chain (Tm1) is an actin-binding protein that regulates the endothelial cell response to oxidative stress following its phosphorylation at Serine 283 (S283). Tm1 is also a major tumor suppressor in breast cancer. In the present study, we investigated the role of phosphorylation of Tm1 in regulating its tumor suppressor properties. Methods: MDA MB231 breast cancer cells stably overexpressing wild type form of Tm1 or Tm1 mutants (S283A and S283E) were generated. Proliferation and cell viability were assayed by means of the enzymatic cleavage of the tetrazolium salt WST-1 to formazan dye by cellular mitochondrial dehydrogenases. Adhesion assays were performed at various periods of time on cells grown on plastic. Cell migration was evaluated by using the wound-healing assay and by measuring transendothelial migration of cancer cells. Malignant transformation in vitro was determined by using the anchorage-independent growth assay on soft agar. Results: We found that cells expressing the phosphomimetic form of Tm1 S283E/Tm1 are characterized by an increased adhesion to the substratum. Moreover, the migration of MDA-MB231/S283E/Tm1 cells in a wound closure assay is reduced compared to parental cells or those expressing the non-phosphorylatable form of Tm1 (S283A). Similarly, the transendothelial migration of MDA-MB231/S283E/Tm1 cells is also reduced as compared to the other cell lines. Moreover, we found that the cells expressing the S283A mutants form more colonies in soft agar that those expressing the S283E mutants. Conclusion: Phosphorylation of Tm1 at Ser283 contributes to its anti-tumor properties, and this effect results mainly from an increase in cell adhesion associated with a decrease in their migratory and invasive potentials.