Objective: To investigated whether epigenetic mechanisms contribute to the variable expression of variable protease nexin1(PN-1) encoded by the SERPINE2 gene in different cell types. Methods: Working with 5 human ...Objective: To investigated whether epigenetic mechanisms contribute to the variable expression of variable protease nexin1(PN-1) encoded by the SERPINE2 gene in different cell types. Methods: Working with 5 human cell lines, we determined the CpG methylation status within two CpG islands in the SERPINE2 gene by bisulphate sequencing and the PN-1 mRNA level by Q-RT PCR. Results: A CpG island spanning the transcription initiation site showed little methylation in 3 of the cell lines and substantial methylation in 2 of the cell lines. A CpG island covering the translation starting site showed full methylation in all investigated cell lines. Methylation within the CpG island was not randomly distributed, but showed accumulation at specific sites. However, we were not able to distinguish any patterns which related the methylation frequency to the gene expression level. Inhibition of CpG methylation with 5-aza-2’-deoxycytidine led to a several fold increase in PN-1 mRNA levels, but based on the results on CpG methylation in the CpG island spanning the transcript, the effect is most likely indirect. Conclusion: We have carefully mapped the CpG methylation pattern in two CpG islands in the 5’ part of the SERPINE2 gene without finding any obvious inverse correlation between methylation frequency and expression level.展开更多
Retromer and sorting nexins(SNXs)transport cargoes from endosomes to the trans-Golgi network or plasma membrane.Recent studies have unveiled the emerging roles for retromer and SNXs in the life cycle of viruses,includ...Retromer and sorting nexins(SNXs)transport cargoes from endosomes to the trans-Golgi network or plasma membrane.Recent studies have unveiled the emerging roles for retromer and SNXs in the life cycle of viruses,including members of Coronaviridae,Flaviviridae and Retroviridae.Key components of retromer/SNXs,such as Vps35,Vps26,SNX5 and SNX27,can affect multiple steps of the viral life cycle,including facilitating the entry of viruses into cells,participating in viral replication,and promoting the assembly of virions.Here we present a comprehensive updated review on the interplay between retromer/SNXs and virus,which will shed mechanistic insights into controlling virus infection.展开更多
AIM TO detect significant clusters of co-expressed genes associated with tumorigenesis that might help to predict stomach adenocarcinoma (SA) prognosis.METHODS The Cancer Genome Atlas database was used to obtain RNA...AIM TO detect significant clusters of co-expressed genes associated with tumorigenesis that might help to predict stomach adenocarcinoma (SA) prognosis.METHODS The Cancer Genome Atlas database was used to obtain RNA sequences as well as complete clinical data of SA and adjacent normal tissues from patients. Weighted gene co-expression network analysis (WGCNA) was used to investigate the meaningful module along with hub genes. Expression of hub genes was analyzed in 362 paraffin-embedded SA biopsy tissues by immunohistochemical staining. Patients were classified into two groups (according to expression of hub genes): Weak expression and over-expression groups. Correlation of biomarkers with clinicopathological factors indicated patient survival.RESULTS Whole genome expression level screening identified 6,231 differentially expressed genes. Twenty-four co- expressed gene modules were identified using WGCNA. Pearson's correlation analysis showed that the tan module was the most relevant to tumor stage (r = 0.24, P = 7 × 10 -6). In addition, we detected sorting nexin (SNX)10 as the hub gene of the tan module. SNX10 expression was linked to T category (P = 0.042, x2= 8.708), N category (P = 0.000, x2= 18.778), TNM stage (P = 0.001, x2 = 16.744) as well as tumor differentiation (P = 0.000,x2= 251.930). Patients with high SNX10 expression tended to have longer diseasefree survival (DFS; 44.97 mo vs 33.85 mo, P = 0.000) as well as overall survival (OS; 49.95 vs 40.84 mo, P = 0.000) in univariate analysis. Multivariate analysis showed that dismal prognosis could be precisely predicted clinicopathologically using SNX10 [DFS: P = 0.014, hazard ratio (HR) = 0.698, 95% confidence interval (CI): 0.524-0.930, OS: P = 0.017, HR = 0.704, 95%CI: 0.528-0.940].CONCLUSION This study provides a new technique for screening prognostic biomarkers of SA. Weak expression of SNX10 is linked to poor prognosis, and is a suitable prognostic biomarker of SA.展开更多
Nexine is a conserved layer of the pollen wall. We previously reported that the nexine layer is absent in the knockout mutant of Arabidopsis TRANSPOSABLE ELEMENT SILENCING VIA AT-HOOK (TEK) gene. In this study, we i...Nexine is a conserved layer of the pollen wall. We previously reported that the nexine layer is absent in the knockout mutant of Arabidopsis TRANSPOSABLE ELEMENT SILENCING VIA AT-HOOK (TEK) gene. In this study, we investigated the molecular regulatory functions of TEK in pollen development and identified the genes encoding Arabinogalactan proteins (AGPs) as direct targets of TEK, which are essential for nexine formation. Phenotypic similarity between tek and the TEK-SRDX transgenic lines suggest that TEK plays a role in transcriptional activation in anther development. Microarray analysis identified a total of 661 genes downregulated in tek, including four genes encoding AGPs, AGP6, AGP11, AGP23, and AGP40. Electrophoretic mobility shift assays showed that TEK could directly bind the nuclear matrix attachment region (MAR) and the promoter of AGP6. Chromatin immunoprecipitation followed by PCR analysis demonstrated that TEK is enriched in the promoters of the four AGP genes. Expression of AGP6 driven by the TEK promoter in tek partially rescued both nexine formation and plant fertility. These results indicate that TEK directly reg- ulates AGP expression in the anther to control nexine layer formation. We also proposed that glycoproteins might be essential components of the nexine laver in the oollen wall.展开更多
The ongoing coronavirus epidemic,including the novel coronavirus(SARS-CoV-2),continues to pose a significant threat to global public health.Host targets address multiple stages of the viral life cycle and provide dive...The ongoing coronavirus epidemic,including the novel coronavirus(SARS-CoV-2),continues to pose a significant threat to global public health.Host targets address multiple stages of the viral life cycle and provide diverse opportunities for therapeutic interventions.This study identified sorting nexin 10(SNX10)as a facilitator of replication of human coronavirus OC43(HCoV-OC43),underscoring its potential as a novel antiviral target.The knockout of SNX10 significantly suppressed HCoV-OC43 replication both in vivo and in vitro.Immunoprecipitation-mass spectrometry(IP-MS)analysis identified the adaptor protein complex 2 subunitμ1(AP2M1)as a direct interactor of SNX10.Specifically,SNX10 facilitates phosphorylation of the AP2M1,thereby enhancing clathrin-mediated viral endocytosis.Furthermore,subsequent binding and internalization assays revealed that SNX10 knockout significantly inhibits viral entry into host cells.Conversely,the reconstitution of SNX10 fully restored viral entry,thereby confirming the critical and indispensable role of SNX10 in pathogen internalization.Simultaneously,SNX10 was identified as a key factor that promotes endosomal acidification by modulating pH levels,which in turn facilitated the release of the viral genome.Notably,the ablation of SNX10 was found to trigger autophagy activation during infection,thereby maintaining intracellular homeostasis.Additionally,it exerted autonomous antiviral effects through lysosomal degradation pathways.Collectively,these findings demonstrate SNX10 serves as a pivotal regulator of the viral life cycle and underscore its therapeutic potential as a multi-faceted antiviral candidate target capable of simultaneously inhibiting viral internalization,viral genomic release,and hostpathogen equilibrium.展开更多
The neuro-glial interface extends far beyond mechanical support alone and includes interactions through coagulation cascade proteins. Here, we systematically review the evidence indicating that synaptic and node of Ra...The neuro-glial interface extends far beyond mechanical support alone and includes interactions through coagulation cascade proteins. Here, we systematically review the evidence indicating that synaptic and node of Ranvier glia cell components modulate synaptic transmission and axonal conduction by a coagulation cascade protein system, leading us to propose the concept of the neuro-glial coagulonome. In the peripheral nervous system, the main thrombin receptor protease activated receptor 1 (PAR1) is located on the Schwann microvilli at the node of Ranvier and at the neuromuscular junction. PAR1 activation effects can be both neuroprotective or harmful, depending on thrombin activity levels. Low physiological levels of thrombin induce neuroprotective effects in the Schwann cells which are mediated by the endothelial protein C receptor. High levels of thrombin induce conduction deficits, as found in experimental autoimmune neuritis, the animal model for Guillaine-Barre syndrome. In the central nervous system, PAR1 is located on the peri-synaptic astrocyte end-feet. Its activation by high thrombin levels is involved in the pathology of primary inflammatory brain diseases such as multiple sclerosis, as well as in other central nervous system insults, including trauma, neoplasms, epilepsy and vascular injury. Following activation of PAR1 by high thrombin levels the seizure threshold is lowered. On the other hand, PAR1 activation by lower levels of thrombin in the central nervous system protects against a future ischemic insult. This review presents the known structure and function of the neuro-glial coagulonome, focusing on coagulation, thrombin and PAR1 in a pathway which may be either physiological (neuroprotective) or detrimental in peripheral nervous system and central nervous system diseases. Understanding the neuro-glial coagulonome may open opportunities for novel pharmacological interventions in neurological diseases.展开更多
The retromer is a protein complex that mediates retrograde transport of transmembrane cargoes from endosomes to the trans-Golgi network (TGN). It is comprised of a cargo-selection subcomplex of Vps26, Vps29 and Vps3...The retromer is a protein complex that mediates retrograde transport of transmembrane cargoes from endosomes to the trans-Golgi network (TGN). It is comprised of a cargo-selection subcomplex of Vps26, Vps29 and Vps35 and a membrane-binding coat subcomplex of sorting nexins (SNXs). Previous studies identified SNX1/2 as one of the components of the SNX subcomplex, and SNX5/6 as candidates for the second SNX. How the retromer-associated cargoes are recognized and transported by molecular motors are largely unknown. In this study, we found that one of SNX1/2's dimerization partners, SNX6, interacts with the p150Gued subunit of the dynein/dynactin motor complex. We present evidence that SNX6 is a component of the retromer, and that recruitment of the motor complex to the membrane-associated retromer requires the SNX6-pl50Gued interaction. Disruption of the SNX6-pl50Glued interaction causes failure in formation and detachment of the tubulovesicular sorting structures from endosomes and results in block of CI-MPR retrieval from endosomes to the TGN. These observations indicate that in addition to SNX1/2, SNX6 in association with the dynein/dynactin complex drives the formation and movement of tubular retrograde intermediates.展开更多
Severe fever with thrombocytopenia syndrome virus(SFTSV)is a highly pathogenic tick-borne bunyavirus that causes lethal infectious disease and severe fever with thrombocytopenia syndrome(SFTS)in humans.The molecular m...Severe fever with thrombocytopenia syndrome virus(SFTSV)is a highly pathogenic tick-borne bunyavirus that causes lethal infectious disease and severe fever with thrombocytopenia syndrome(SFTS)in humans.The molecular mechanisms and host cellular factors required for SFTSV infection remain uncharacterized.Using a genome-wide CRISPR-based screening strategy,we identified a host cellular protein,sorting nexin 11(SNX11)which is involved in the intracellular endosomal trafficking pathway,as an essential cell factor for SFTSV infection.An SNX11-KO HeLa cell line was established,and SFTSV replication was significantly reduced.The glycoproteins of SFTSV were detected and remained in later endosomal compartments but were not detectable in the endoplasmic reticulum(ER)or Golgi apparatus.pH values in the endosomal compartments of the SNX11-KO cells increased compared with the pH of normal HeLa cells,and lysosomal-associated membrane protein 1(LAMP1)expression was significantly elevated in the SNX11-KO cells.Overall,these results indicated that penetration of SFTSV from the endolysosomes into the cytoplasm of host cells was blocked in the cells lacking SNX11.Our study for the first time provides insight into the important role of the SNX11 as an essential host factor in the intracellular trafficking and penetrating process of SFTSV infection via potential regulation of viral protein sorting,membrane fusion,and other endocytic machinery.展开更多
Retromer is an evolutionarily conserved multimeric protein complex that mediates intracellular transport of various vesicular cargoes and functions in a wide variety of cellular processes including polarized trafficki...Retromer is an evolutionarily conserved multimeric protein complex that mediates intracellular transport of various vesicular cargoes and functions in a wide variety of cellular processes including polarized trafficking,developmental signaling and lysosome biogenesis.Through its interaction with the Rab GTPases and their effectors,membrane lipids,molecular motors,the endocytic machinery and actin nucleation promoting factors,retromer regulates sorting and trafficking of transmembrane proteins from endosomes to the trans-Golgi network(TGN) and the plasma membrane.In this review.I highlight recent progress in the understanding of relromer-medialed protein sorting and vesicle trafficking and discuss how retromer contributes to a diverse set of developmental,physiological and pathological processes.展开更多
基金supported by the Danish National Research Foundation (26-331-6)the Danish Cancer Society (DP 07043, DP 08001)Grosserer Alfred Nielsen and Hustrus Fond
文摘Objective: To investigated whether epigenetic mechanisms contribute to the variable expression of variable protease nexin1(PN-1) encoded by the SERPINE2 gene in different cell types. Methods: Working with 5 human cell lines, we determined the CpG methylation status within two CpG islands in the SERPINE2 gene by bisulphate sequencing and the PN-1 mRNA level by Q-RT PCR. Results: A CpG island spanning the transcription initiation site showed little methylation in 3 of the cell lines and substantial methylation in 2 of the cell lines. A CpG island covering the translation starting site showed full methylation in all investigated cell lines. Methylation within the CpG island was not randomly distributed, but showed accumulation at specific sites. However, we were not able to distinguish any patterns which related the methylation frequency to the gene expression level. Inhibition of CpG methylation with 5-aza-2’-deoxycytidine led to a several fold increase in PN-1 mRNA levels, but based on the results on CpG methylation in the CpG island spanning the transcript, the effect is most likely indirect. Conclusion: We have carefully mapped the CpG methylation pattern in two CpG islands in the 5’ part of the SERPINE2 gene without finding any obvious inverse correlation between methylation frequency and expression level.
基金supported by grants from National Natural Science Foundation of China(81871663 and 82072270)Undergraduate Science and Technology Innovation Plan of International Class of Clinical Medicine in Shandong First Medical University(ZYKC2019-016)Academic promotion programme of Shandong First Medical University(2019LJ001)。
文摘Retromer and sorting nexins(SNXs)transport cargoes from endosomes to the trans-Golgi network or plasma membrane.Recent studies have unveiled the emerging roles for retromer and SNXs in the life cycle of viruses,including members of Coronaviridae,Flaviviridae and Retroviridae.Key components of retromer/SNXs,such as Vps35,Vps26,SNX5 and SNX27,can affect multiple steps of the viral life cycle,including facilitating the entry of viruses into cells,participating in viral replication,and promoting the assembly of virions.Here we present a comprehensive updated review on the interplay between retromer/SNXs and virus,which will shed mechanistic insights into controlling virus infection.
文摘AIM TO detect significant clusters of co-expressed genes associated with tumorigenesis that might help to predict stomach adenocarcinoma (SA) prognosis.METHODS The Cancer Genome Atlas database was used to obtain RNA sequences as well as complete clinical data of SA and adjacent normal tissues from patients. Weighted gene co-expression network analysis (WGCNA) was used to investigate the meaningful module along with hub genes. Expression of hub genes was analyzed in 362 paraffin-embedded SA biopsy tissues by immunohistochemical staining. Patients were classified into two groups (according to expression of hub genes): Weak expression and over-expression groups. Correlation of biomarkers with clinicopathological factors indicated patient survival.RESULTS Whole genome expression level screening identified 6,231 differentially expressed genes. Twenty-four co- expressed gene modules were identified using WGCNA. Pearson's correlation analysis showed that the tan module was the most relevant to tumor stage (r = 0.24, P = 7 × 10 -6). In addition, we detected sorting nexin (SNX)10 as the hub gene of the tan module. SNX10 expression was linked to T category (P = 0.042, x2= 8.708), N category (P = 0.000, x2= 18.778), TNM stage (P = 0.001, x2 = 16.744) as well as tumor differentiation (P = 0.000,x2= 251.930). Patients with high SNX10 expression tended to have longer diseasefree survival (DFS; 44.97 mo vs 33.85 mo, P = 0.000) as well as overall survival (OS; 49.95 vs 40.84 mo, P = 0.000) in univariate analysis. Multivariate analysis showed that dismal prognosis could be precisely predicted clinicopathologically using SNX10 [DFS: P = 0.014, hazard ratio (HR) = 0.698, 95% confidence interval (CI): 0.524-0.930, OS: P = 0.017, HR = 0.704, 95%CI: 0.528-0.940].CONCLUSION This study provides a new technique for screening prognostic biomarkers of SA. Weak expression of SNX10 is linked to poor prognosis, and is a suitable prognostic biomarker of SA.
文摘Nexine is a conserved layer of the pollen wall. We previously reported that the nexine layer is absent in the knockout mutant of Arabidopsis TRANSPOSABLE ELEMENT SILENCING VIA AT-HOOK (TEK) gene. In this study, we investigated the molecular regulatory functions of TEK in pollen development and identified the genes encoding Arabinogalactan proteins (AGPs) as direct targets of TEK, which are essential for nexine formation. Phenotypic similarity between tek and the TEK-SRDX transgenic lines suggest that TEK plays a role in transcriptional activation in anther development. Microarray analysis identified a total of 661 genes downregulated in tek, including four genes encoding AGPs, AGP6, AGP11, AGP23, and AGP40. Electrophoretic mobility shift assays showed that TEK could directly bind the nuclear matrix attachment region (MAR) and the promoter of AGP6. Chromatin immunoprecipitation followed by PCR analysis demonstrated that TEK is enriched in the promoters of the four AGP genes. Expression of AGP6 driven by the TEK promoter in tek partially rescued both nexine formation and plant fertility. These results indicate that TEK directly reg- ulates AGP expression in the anther to control nexine layer formation. We also proposed that glycoproteins might be essential components of the nexine laver in the oollen wall.
基金supported by the National Natural Science Foundation(82130101)the Major Scientific and Technological Projects of Guangdong Province(2023B1111050008)the Post Scientist Fund awarded by the Chinese Academy of Traditional Chinese Medicine(ZZ13035-02)to Shuwen Liu.Regional Joint Foundation of Basic and Applied Basic Research in Guangdong Province(2023A1515111165)to Chan Yang.
文摘The ongoing coronavirus epidemic,including the novel coronavirus(SARS-CoV-2),continues to pose a significant threat to global public health.Host targets address multiple stages of the viral life cycle and provide diverse opportunities for therapeutic interventions.This study identified sorting nexin 10(SNX10)as a facilitator of replication of human coronavirus OC43(HCoV-OC43),underscoring its potential as a novel antiviral target.The knockout of SNX10 significantly suppressed HCoV-OC43 replication both in vivo and in vitro.Immunoprecipitation-mass spectrometry(IP-MS)analysis identified the adaptor protein complex 2 subunitμ1(AP2M1)as a direct interactor of SNX10.Specifically,SNX10 facilitates phosphorylation of the AP2M1,thereby enhancing clathrin-mediated viral endocytosis.Furthermore,subsequent binding and internalization assays revealed that SNX10 knockout significantly inhibits viral entry into host cells.Conversely,the reconstitution of SNX10 fully restored viral entry,thereby confirming the critical and indispensable role of SNX10 in pathogen internalization.Simultaneously,SNX10 was identified as a key factor that promotes endosomal acidification by modulating pH levels,which in turn facilitated the release of the viral genome.Notably,the ablation of SNX10 was found to trigger autophagy activation during infection,thereby maintaining intracellular homeostasis.Additionally,it exerted autonomous antiviral effects through lysosomal degradation pathways.Collectively,these findings demonstrate SNX10 serves as a pivotal regulator of the viral life cycle and underscore its therapeutic potential as a multi-faceted antiviral candidate target capable of simultaneously inhibiting viral internalization,viral genomic release,and hostpathogen equilibrium.
文摘The neuro-glial interface extends far beyond mechanical support alone and includes interactions through coagulation cascade proteins. Here, we systematically review the evidence indicating that synaptic and node of Ranvier glia cell components modulate synaptic transmission and axonal conduction by a coagulation cascade protein system, leading us to propose the concept of the neuro-glial coagulonome. In the peripheral nervous system, the main thrombin receptor protease activated receptor 1 (PAR1) is located on the Schwann microvilli at the node of Ranvier and at the neuromuscular junction. PAR1 activation effects can be both neuroprotective or harmful, depending on thrombin activity levels. Low physiological levels of thrombin induce neuroprotective effects in the Schwann cells which are mediated by the endothelial protein C receptor. High levels of thrombin induce conduction deficits, as found in experimental autoimmune neuritis, the animal model for Guillaine-Barre syndrome. In the central nervous system, PAR1 is located on the peri-synaptic astrocyte end-feet. Its activation by high thrombin levels is involved in the pathology of primary inflammatory brain diseases such as multiple sclerosis, as well as in other central nervous system insults, including trauma, neoplasms, epilepsy and vascular injury. Following activation of PAR1 by high thrombin levels the seizure threshold is lowered. On the other hand, PAR1 activation by lower levels of thrombin in the central nervous system protects against a future ischemic insult. This review presents the known structure and function of the neuro-glial coagulonome, focusing on coagulation, thrombin and PAR1 in a pathway which may be either physiological (neuroprotective) or detrimental in peripheral nervous system and central nervous system diseases. Understanding the neuro-glial coagulonome may open opportunities for novel pharmacological interventions in neurological diseases.
基金We thank Yingfang Liu (Institute of Biophysics, Chinese Acad- emy of Sciences) for advice on PX domain structure and SNX6 mutations. We are particularly grateful to Yanmin Yang (Stanford University, USA) for insightful discussions and the Flag-MAP1B LC construct. We also thank Juan S Bonifacino (NIH, USA) for the rabbit anti-CI-MPR antibody, Hiroyoshi Ariga (Hokkaido University, Japan) for Flag- and HA-tagged human SNX6 overexpression constructs, and Li Yu (Tsinghua University, China) for the YFP-EEA1 expression construct. We thank Chonglin Yang (Institute of Genetics and Developmental Biology, Chinese Academy of Sciences), Dahua Chen (Institute of Zoology, Chinese Academy of Sciences) and Li Yu for critical reading of the manuscript. This work was supported by grants from the National Natural Science Foundation of China (30770675) and Chinese Academy of Sciences (KSCX1-YW-R-37). J-J Liu is supported by the CAS 100-Tal- ents Program.
文摘The retromer is a protein complex that mediates retrograde transport of transmembrane cargoes from endosomes to the trans-Golgi network (TGN). It is comprised of a cargo-selection subcomplex of Vps26, Vps29 and Vps35 and a membrane-binding coat subcomplex of sorting nexins (SNXs). Previous studies identified SNX1/2 as one of the components of the SNX subcomplex, and SNX5/6 as candidates for the second SNX. How the retromer-associated cargoes are recognized and transported by molecular motors are largely unknown. In this study, we found that one of SNX1/2's dimerization partners, SNX6, interacts with the p150Gued subunit of the dynein/dynactin motor complex. We present evidence that SNX6 is a component of the retromer, and that recruitment of the motor complex to the membrane-associated retromer requires the SNX6-pl50Gued interaction. Disruption of the SNX6-pl50Glued interaction causes failure in formation and detachment of the tubulovesicular sorting structures from endosomes and results in block of CI-MPR retrieval from endosomes to the TGN. These observations indicate that in addition to SNX1/2, SNX6 in association with the dynein/dynactin complex drives the formation and movement of tubular retrograde intermediates.
基金supported by the National Key Project for Infectious Disease from the Ministry of Science and Technology (Grant No. 2018ZX10711-001)
文摘Severe fever with thrombocytopenia syndrome virus(SFTSV)is a highly pathogenic tick-borne bunyavirus that causes lethal infectious disease and severe fever with thrombocytopenia syndrome(SFTS)in humans.The molecular mechanisms and host cellular factors required for SFTSV infection remain uncharacterized.Using a genome-wide CRISPR-based screening strategy,we identified a host cellular protein,sorting nexin 11(SNX11)which is involved in the intracellular endosomal trafficking pathway,as an essential cell factor for SFTSV infection.An SNX11-KO HeLa cell line was established,and SFTSV replication was significantly reduced.The glycoproteins of SFTSV were detected and remained in later endosomal compartments but were not detectable in the endoplasmic reticulum(ER)or Golgi apparatus.pH values in the endosomal compartments of the SNX11-KO cells increased compared with the pH of normal HeLa cells,and lysosomal-associated membrane protein 1(LAMP1)expression was significantly elevated in the SNX11-KO cells.Overall,these results indicated that penetration of SFTSV from the endolysosomes into the cytoplasm of host cells was blocked in the cells lacking SNX11.Our study for the first time provides insight into the important role of the SNX11 as an essential host factor in the intracellular trafficking and penetrating process of SFTSV infection via potential regulation of viral protein sorting,membrane fusion,and other endocytic machinery.
基金supported by the National Natural Science Foundation of China(Nos.31325017,31471334 and 31530039)the National Basic Research Program(No.2014CB942802)
文摘Retromer is an evolutionarily conserved multimeric protein complex that mediates intracellular transport of various vesicular cargoes and functions in a wide variety of cellular processes including polarized trafficking,developmental signaling and lysosome biogenesis.Through its interaction with the Rab GTPases and their effectors,membrane lipids,molecular motors,the endocytic machinery and actin nucleation promoting factors,retromer regulates sorting and trafficking of transmembrane proteins from endosomes to the trans-Golgi network(TGN) and the plasma membrane.In this review.I highlight recent progress in the understanding of relromer-medialed protein sorting and vesicle trafficking and discuss how retromer contributes to a diverse set of developmental,physiological and pathological processes.
