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人类1-磷酸神经酰胺转运蛋白(ceramide-l-phosphate transfer protein,CPTP)能在细胞内膜间运输1-磷酸神经酰胺(ceramide-1-phosphate,C1P).为深入研究人类CPTP的功能,本研究通过STRING、Coexpedia、Metascape等在线生物信息学分析工具,分析人类CPTP蛋白的潜在相互作用蛋白、共表达蛋白及其在肿瘤发生发展中的作用.结果表明,人类CPTP蛋白可能参与磷酸酯水解酶活性、膜脂代谢及多种肿瘤发生发展等过程.ceRNA调控分析结果表明多种miRNA、lncRNA可相互作用并调控人类CPTP的表达.本研究结果为进一步研究人类CPTP的功能及调控机制提供了重要的参考. 相似文献
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胡萍萍 《国外医学:分子生物学分册》2007,4(2):181-184
多药耐药(multidrug resistenee,MDR)是肿瘤化疗失败的主要原因,多年来医学界一直致力于多药耐药机制的研究。神经酰胺信号系统在细胞凋亡中的作用逐渐引起人们的重视,神经酰胺是细胞凋亡过程中的第二信使,葡萄糖神经酰胺合成酶(glucosylceramide synthase,GCS)可以催化神经酰胺糖基化,使其转变为无细胞毒性的葡萄糖神经酰胺,进而促进鞘糖脂的合成,大量研究表明细胞内GCS水平的增高与MDR表型有关。 相似文献
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Na-K-Cl协同转运蛋白是一类膜蛋白,负责转运Na、K、Cl离子进出上皮细胞与非上皮细胞。Na-K-Cl介导的转运过程是电中性的,多数情况下是1Na:1K:2C1(乌贼轴突中是2Na:1K:3C1),其活性被布美他尼(bumetanide)和呋塞米(furosemide)所抑制。迄今为止,Na-K-Cl协同转运蛋白被鉴定出来两个同源异构体:NKCCl和NKCC2。NKCCl存在于多个组织中,合有NKCCl的上皮大多数属于分泌上皮,而且会有Na-K-Cl协同转运蛋白位于基底膜外侧;NKCC2只存在于肾脏,位于上皮细胞致密斑的顶膜上。Na-K-Cl协同转运蛋白的调控在不同的细胞和组织中是不同的。Na-K-Cl协同转运蛋白的活性会受激素刺激和细胞体积变化的影响;有些组织中,这种调控作用(尤其是NKCCl亚基)是通过特定的激酶使该转运蛋白自身发生氧化/硝化、磷酸化/去磷酸化来实现的;蛋白过表达在Na-K-Cl协同转运蛋白的激活中也起重要作用。 相似文献
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α-氨-3-羟基-5-甲基-4-异恶唑丙酸受体(α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid receptors,AMPA receptors)介导中枢神经系统(CNS)绝大多数快兴奋性突触传递,在学习、记忆和认知等方面具有重要功能. 突触AMPA受体的数量、分布和亚基组成是调节突触传递强度的一个主要机制,与AMPA受体转运密切相关. 最新研究显示,异常的AMPA受体转运与阿尔茨海默病(Alzheimer’s disease,AD)、脆性X综合征(fragile X syndrome, FXS)等神经疾病有关. 本文主要针对AMPA受体转运及其调控的分子机制做一综述,以期为AD、FXS等神经疾病提供新的治疗靶点和途径. 相似文献
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范俊梅 《现代生物医学进展》2008,8(3):583-586
GLUT4在胰岛素作用下的转运上膜是血糖调控的一个关键途径.其中包含了两个重要的过程-胰岛素信号转导以及GLUT4转运途径.在这两个过程中新的特异分子的发现以及它们功能特点的研究是发展有效的药物治疗糖尿病的关键因素.本文主要从GLUT4在胞内的循环途径,胰岛素调节的GLUT4的转运以及转运中的调控蛋白三个方面着手,综述了GLUT4的转运调控研究进展. 相似文献
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本研究探讨了外源性C2-神经酰胺诱导入结肠癌HT-29细胞凋亡中,线粒体膜间隙凋亡蛋白的释放机制.不同浓度C2-神经酰胺作用HT-29细胞,流式细胞仪检测线粒体膜电位(△ψm),线粒体/细胞液分离试剂盒分离亚细胞成分,聚丙烯酰胺凝胶电泳检测细胞色素C(Cytc)、高温必需蛋白A2(HtrA2)、线粒体源性半胱天冬氨酸蛋白酶第二活化因子(Smac)、凋亡抑制蛋白(XtAP)和半胱天冬氨酸蛋白酶-3(Caspase-3)蛋白表达水平.实验结果显示25和50μmol/L C2-神经酰胺作用细胞6h,△ψm即开始下降(P〈0.05),且环孢霉素能通过调节线粒体膜通透性转换孔抑制△ψm的下降.C2-神经酰胺对Cyt c,HtrA2和Smac总蛋白表达没有明显影响,但能诱导Cyt c,HtrA2和Smac从线粒体释放入细胞液中,并下调XIAP蛋白的表达及活化Caspase-3.在Caspase抑制剂存在下,C2-神经酰胺仍能诱导Cyt c和HtrA2从线粒体释放,但不能诱导Smac释放.因此认为C2-神经酰胺能通过线粒体凋亡通路诱导HT-29细胞凋亡,C2-神经酰胺诱导Cytc和HtrA2从线粒体的释放是Caspase非依赖性的,而Smac释放是Caspase依赖性的. 相似文献
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Kawano M Kumagai K Nishijima M Hanada K 《The Journal of biological chemistry》2006,281(40):30279-30288
Ceramide is synthesized at the endoplasmic reticulum (ER) and transported to the Golgi apparatus by CERT for its conversion to sphingomyelin in mammalian cells. CERT has a pleck-strin homology (PH) domain for Golgi targeting and a START domain catalyzing the intermembrane transfer of ceramide. The region between the two domains contains a short peptide motif designated FFAT, which is supposed to interact with the ER-resident proteins VAP-A and VAP-B. Both VAPs were actually co-immunoprecipitated with CERT, and the CERT/VAP interaction was abolished by mutations in the FFAT motif. These mutations did not affect the Golgi targeting activity of CERT. Whereas mutations of neither the FFAT motif nor the PH domain inhibited the ceramide transfer activity of CERT in a cell-free system, they impaired the ER-to-Golgi transport of ceramide in intact and in semi-intact cells at near endogenous expression levels. By contrast, when overexpressed, both the FFAT motif and the PH domain mutants of CERT substantially supported the transport of ceramide from the ER to the site where sphingomyelin is produced. These results suggest that the Golgi-targeting PH domain and ER-interacting FFAT motif of CERT spatially restrict the random ceramide transfer activity of the START domain in cells. 相似文献
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Kentaro Hanada Keigo KumagaiNario Tomishige Toshiyuki Yamaji 《Biochimica et Biophysica Acta (BBA)/Molecular and Cell Biology of Lipids》2009,1791(7):684-691
The transport and sorting of lipids from the sites of their synthesis to their appropriate destinations are fundamental for membrane biogenesis. In the synthesis of sphingolipids in mammalian cells, ceramide is newly produced at the endoplasmic reticulum (ER), and transported from the ER to the trans Golgi regions, where it is converted to sphingomyelin. CERT mediates the ER-to-Golgi trafficking of ceramide. CERT contains several functional domains and motifs including i) a START domain capable of catalyzing inter-membrane transfer of ceramide, ii) a pleckstrin homology domain, which serves to target the Golgi apparatus, iii) a FFAT motif which interacts with the ER-resident membrane protein VAP, and iv) a serine-repeat motif, of which hyperphosphorylation down-regulates CERT activity. It has been suggested that CERT extracts ceramide from the ER and carries it to the Golgi apparatus in a non-vesicular manner and that efficient CERT-mediated trafficking of ceramide occurs at membrane contact sites between the ER and the Golgi apparatus. 相似文献
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The transport and sorting of lipids from the sites of their synthesis to their appropriate destinations are fundamental for membrane biogenesis. In the synthesis of sphingolipids in mammalian cells, ceramide is newly produced at the endoplasmic reticulum (ER), and transported from the ER to the trans Golgi regions, where it is converted to sphingomyelin. CERT has been identified as a key factor for the ER-to-Golgi trafficking of ceramide. CERT contains several functional domains including (i) a START domain capable of catalyzing inter-membrane transfer of ceramide, (ii) a pleckstrin homology domain, which serves to target the Golgi apparatus by recognizing phosphatidylinositol 4-monophosphate, and (iii) a short peptide motif named FFAT motif which interacts with the ER-resident membrane protein VAP. CERT is preferentially distributed to the Golgi region in cells, and Golgi-targeted CERT appears to retain the activity to interact with VAP. On the basis of these results, it has been proposed that CERT extracts ceramide from the ER and carries it to the Golgi apparatus in a non-vesicular manner and that a particularly efficient cycle of CERT movement for trafficking of ceramide may proceed at membrane contact sites between the ER and the Golgi apparatus. 相似文献
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Recent discoveries of two sphingolipid transfer proteins, CERT and FAPP2, have brought the field of sphingolipid metabolism to a more dynamic stage. CERT transfers ceramide from the endoplasmic reticulum (ER) to the Golgi apparatus, a step crucial for sphingomyelin (SM) synthesis. The pleckstrin homology (PH) domain and the FFAT motif of CERT restrict the direction of transfer and destination of ceramide through binding to phosphatidylinositol 4-monophosphate (PI4P) at the Golgi and the ER resident proteins, VAPs, respectively. CERT is regulated by the phosphorylation and dephosphorylation of serine/threonine, in which protein kinase D, possibly casein kinase I, and PP2Cepsilon are involved. On the other hand, FAPP2 transfers glucosylceramide (GlcCer) to appropriate sites for the synthesis of complex glycosphingolipids. Like CERT, FAPP2 contains a PH domain, the binding of which to PI4P is required for its localization to the Golgi. These observations indicate that lipid transfer proteins, CERT and FAPP2, spatially regulate lipid metabolism on the cytosolic side. 相似文献
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De novo biosynthesis of sphingolipids begins in the endoplasmic reticulum (ER) and continues in the Golgi apparatus and plasma membrane. A crucial step in sphingolipid biosynthesis is the transport of ceramide by vesicular and non-vesicular mechanisms from its site of synthesis in the ER to the Golgi apparatus. The recent discovery of the ceramide transport protein CERT has revealed a novel pathway for the delivery of ceramide to the Golgi apparatus for sphingomyelin (SM) synthesis. In addition to a ceramide-binding START domain, CERT has FFAT (referring to two phenylalanines [FF] in an acidic tract) and pleckstrin homology (PH) domains that recognize the ER integral membrane protein VAMP-associated protein (VAP) and Golgi-associated PtdIns 4-phosphate, respectively. Mechanisms for vectorial transport involving dual-organellar targeting and sites of deposition of ceramide in the Golgi apparatus are proposed. Similar Golgi-ER targeting motifs are also present in the oxysterol-binding protein (OSBP), which regulates ceramide transport and SM synthesis in an oxysterol-dependent manner. Consequently, this emerges as a potential mechanism for integration of sphingolipid and cholesterol metabolism. The identification of organellar targeting motifs in other related lipid-binding/transport proteins indicate that concepts learned from the study of ceramide transport can be applied to other lipid transport processes. 相似文献
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Kumagai K Kawano M Shinkai-Ouchi F Nishijima M Hanada K 《The Journal of biological chemistry》2007,282(24):17758-17766
The synthesis and transport of lipids are essential events for membrane biogenesis. However, little is known about how intracellular trafficking of lipids is regulated. Ceramide is synthesized at the endoplasmic reticulum (ER) and transported by the ceramide transfer protein CERT to the Golgi apparatus, where it is converted to sphingomyelin. CERT has a phosphoinositide-binding pleckstrin homology (PH) domain for Golgi-targeting and a lipid transfer START domain for intermembrane transfer of ceramide. We here show that CERT receives multiple phosphorylations at a serine-repeat motif, a possibe site for casein kinase I, and that the phosphorylation down-regulates the ER-to-Golgi transport of ceramide. In vitro assays show that the phosphorylation induces an autoinhibitory interaction between the PH and START domains and consequently inactivates both the phosphoinositide binding and ceramide transfer activities of CERT. Loss of sphingomyelin and cholesterol from cells causes dephosphorylation of CERT to activate it. The cooperative control of functionally distinct domains of CERT is a novel molecular event to regulate the intracellular trafficking of ceramide. 相似文献
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Tóth B Balla A Ma H Knight ZA Shokat KM Balla T 《The Journal of biological chemistry》2006,281(47):36369-36377
The recently identified ceramide transfer protein, CERT, is responsible for the bulk of ceramide transport from the endoplasmic reticulum (ER) to the Golgi. CERT has a C-terminal START domain for ceramide binding and an N-terminal pleck-strin homology domain that binds phosphatidylinositol 4-phosphate suggesting that phosphatidylinositol (PI) 4-kinases are involved in the regulation of CERT-mediated ceramide transport. In the present study fluorescent analogues were used to follow the ER to Golgi transport of ceramide to determine which of the four mammalian PI 4-kinases are involved in this process. Overexpression of pleckstrin homology domains that bind phosphatidylinositol 4-phosphate strongly inhibited the transport of C5-BODIPY-ceramide to the Golgi. A newly identified PI 3-kinase inhibitor, PIK93 that selectively inhibits the type III PI 4-kinase beta enzyme, and small interfering RNA-mediated down-regulation of the individual PI 4-kinase enzymes, revealed that PI 4-kinase beta has a dominant role in ceramide transport between the ER and Golgi. Accordingly, inhibition of PI 4-kinase III beta either by wortmannin or PIK93 inhibited the conversion of [3H]serine-labeled endogenous ceramide to sphingomyelin. Therefore, PI 4-kinase beta is a key enzyme in the control of spingomyelin synthesis by controlling the flow of ceramide from the ER to the Golgi compartment. 相似文献
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The mammalian Golgi apparatus is composed of multiple stacks of cisternal membranes organized laterally into a ribbon-like structure, with close apposition of trans Golgi regions with specialized endoplasmic reticulum (ER) membranes. These contacts may be the site of ceramide transfer from its site of synthesis (ER) to sphingomyelin (SM) synthase through ceramide transfer protein (CERT). CERT extracts ceramide from the ER and transfers it to Golgi membranes but the role of overall Golgi structure in this process is unknown. We show here that localization of CERT in puncta around the Golgi complex requires both ER- and Golgi-binding domains of CERT. To examine how Golgi structure contributes to SM synthesis, we treated cells with Golgi-perturbing drugs and measured newly synthesized SM. Interestingly, disruption of Golgi morphology with nocodazole, but not ilimaquinone inhibited SM synthesis. Decreased localization of CERT with a Golgi marker correlated with decreased SM synthesis. We propose that some Golgi structural perturbations interfere with efficient ceramide trafficking through CERT, and thus SM synthesis. The organization of the mammalian Golgi ribbon together with CERT may promote specific ER-Golgi interactions for efficient delivery of ceramide for SM synthesis. 相似文献
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Ceramide transfer protein (CERT) is responsible for the nonvesicular trafficking of ceramide from the endoplasmic reticulum (ER) to the trans Golgi network where it is converted to sphingomyelin (SM). The N-terminal pleckstrin homology (PH) domain is required for Golgi targeting of CERT by recognizing the phosphatidylinositol 4-phosphate (PtdIns(4)P) enriched in the Golgi membrane. We report a crystal structure of the CERT PH domain. This structure contains a sulfate that is hydrogen bonded with residues in the canonical ligand-binding pocket of PH domains. Our nuclear magnetic resonance (NMR) chemical shift perturbation (CSP) analyses show sulfate association with CERT PH protein resembles that of PtdIns(4)P, suggesting that the sulfate bound structure likely mimics the holo form of CERT PH protein. Comparison of the sulfate bound structure with the apo form solution structure shows structural rearrangements likely occur upon ligand binding, suggesting conformational flexibility in the ligand-binding pocket. This structural flexibility likely explains CERT PH domain’s low affinity for PtdIns(4)P, a property that is distinct from many other PH domains that bind to their phosphoinositide ligands tightly. This unique structural feature of CERT PH domain is probably tailored towards the transfer activity of CERT protein where it needs to shuttle between ER and Golgi and therefore requires short resident time on ER and Golgi membranes. 相似文献
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Toshihiko Sugiki Koh Takeuchi Toshiyuki Yamaji Toshiaki Takano Yuji Tokunaga Keigo Kumagai Kentaro Hanada Hideo Takahashi Ichio Shimada 《The Journal of biological chemistry》2012,287(40):33706-33718
Ceramide transport from the endoplasmic reticulum to the Golgi apparatus is crucial in sphingolipid biosynthesis, and the process relies on the ceramide trafficking protein (CERT), which contains pleckstrin homology (PH) and StAR-related lipid transfer domains. The CERT PH domain specifically recognizes phosphatidylinositol 4-monophosphate (PtdIns(4)P), a characteristic phosphoinositide in the Golgi membrane, and is indispensable for the endoplasmic reticulum-to-Golgi transport of ceramide by CERT. In this study, we determined the three-dimensional structure of the CERT PH domain by using solution NMR techniques. The structure revealed the presence of a characteristic basic groove near the canonical PtdIns(4)P recognition site. An extensive interaction study using NMR and other biophysical techniques revealed that the basic groove coordinates the CERT PH domain for efficient PtdIns(4)P recognition and localization in the Golgi apparatus. The notion was also supported by Golgi mislocalization of the CERT mutants in living cells. The distinctive binding modes reflect the functions of PH domains, as the basic groove is conserved only in the PH domains involved with the PtdIns(4)P-dependent lipid transport activity but not in those with the signal transduction activity. 相似文献