Expression and intracellular localization of TBC1D9, a Rab GTPase-accelerating protein,in mouse testes

Membrane trafficking in male germ cells contributes to their development via cell morphological changes and acrosome formation. TBC family proteins work as Rab GTPase accelerating proteins (GAPs), which negatively regulate Rab proteins, to mediate membrane trafficking. In this study, we analyzed the expression of a Rab GAP, TBC1D9, in mouse organs and the intracellular localization of the gene products. Tbc1d9 showed abundant expression in adult mice testis. We found that the Tbc1d9 mRNA was expressed in primary and secondary spermatocytes, and that the TBC1D9 protein was expressed in spermatocytes and round spermatids. In 293T cells, TBC1D9-GFP proteins were localized in the endosome and Golgi apparatus. Compartments that were positive for the constitutive active mutants of Rab7 and Rab9 were also positive for TBC1D9 isoform 1. In addition, TBC1D9 proteins were associated with Rab7 and Rab9, respectively. These results indicate that TBC1D9 is expressed mainly in spermatocytes, and suggest that TBC1D9 regulates membrane trafficking pathways related to Rab9- or Rab7-positive vesicles.     

游仆虫Rab蛋白基因的克隆表达与纯化

为对单细胞原生动物纤毛虫中Rab蛋白的功能进行研究 ,进而探讨以胞吞和胞吐为主要物质交换途径的纤毛虫中囊泡定向运输的机理 .利用PCR技术从游仆虫大核DNA及cDNA中扩增出rab基因 ,并进行了序列分析 ,该基因全长为 783bp ,两端为端粒序列 ,编码框为 6 2 4bp ,编码 2 0 7个氨基酸 ,开放读框中有 3个TGA ,在此编码半胱氨酸 .利用定点突变将rab基因中 3个TGA突变为通用半胱氨酸密码子TGC .将游仆虫Rab蛋白基因构建于原核表达载体pGEX 4T 2中 ,得到的重组质粒pGEX Eorab1转化至大肠杆菌BL2 1(DE3)中 ,IPTG诱导表达 .表达产物与抗GST抗体在 4 9kD处有很强的交叉反应 .融合蛋白GST EoRab1通过亲和层析柱纯化和凝血酶的切割 ,再经两步纯化得到电泳纯的游仆虫Rab蛋白 .     

一个新的人Rb26基因cDNA的克隆、表达及其增强细胞吞噬功能研究

Rab GTPase家族成员基因及其调节囊泡膜运输途径功能已有许多报道,但Rab26蛋白分子的结构和功能仍不清晰.通过生物信息学分析,并在人脑cDNA文库中克隆了一个新的Rab26基因全长cDNA序列,长1 656bp,与已发表的基因序列相比,在48～50位插入了GCC,在956位T被C取代,而在1 197位G被A取代.该序列包含一个771 bp完整的开放阅读框(ORE),编码256个氨基酸残基的Rab26蛋白,分子质量为27.9 ku(GenBank登录号No.AY646153),而非如以往报告的190个氨基酸残基.GFP荧光标记全长Rb26在哺乳动物细胞中表达显示,Rab26主要呈现在细胞膜状结构相联系的分布,发现该基因高表达能显著增强PE标记的红色异源蛋白质的吞噬.还应用逆转录.聚合酶链反应对多种人肿瘤细胞Rb26表达进行了研究,结果显示,Rab26在Acc2、SPC-A1,K562以及HeLa等肿瘤细胞株呈高表达,而在SMMOL/LC-7721、HepG2、Caco2等肝和肠上皮细胞株中则不表达,值得进一步深入研究.     

Rab11的结构特征、效应因子与功能

Rab11是Rab小分子GTP酶家族的成员.在细胞内膜泡再循环途径中,Rab11作为重要调节因子,介导膜泡从内体向质膜的运输.近年来随着对Rab11研究的深入,人们发现该蛋白质在多种细胞生命活动中发挥着关键作用.现对Rab11的结构、效应蛋白及功能等方面进行了综述.     

Rab5a研究进展

Rab5a是Rab蛋白家族成员之一,属于小GTP酶。Rab5a是早期胞吞途径中一个重要的限速成分,主要负责调控胞吞中胞吞泡与早期内体的融合。近年来国内外对其研究非常活跃。现对Rab5a的结构、相互作用蛋白及功能的最新研究进展进行综述。     

Structure,regulation and cellular functions of Rab geranylgeranyl transferase and its cellular partner Rab Escort Protein

Abstract

Rab geranylgeranyl transferase is an enzyme responsible for double geranylgeranylation of Rab proteins in all eukaryotic cells. In the present article we would like to focus on new findings concerning the holoenzyme structure and mechanism of catalytic activity, its mode of regulation and consequences of RGGT deficiency in different eucaryotic model organisms and patients.     

The Rab-interacting lysosomal protein, a Rab7 and Rab34 effector, is capable of self-interaction

Rab-interacting lysosomal protein (RILP) has been identified as an interacting partner of the small GTPases Rab7 and Rab34. Active Rab7 recruits RILP on the late endosomal/lysosomal membrane and RILP then functions as a Rab7 effector controlling transport to degradative compartments. Indeed, RILP induces recruitment of dynein-dynactin motor complexes to Rab7-containing late endosomes and lysosomes. Recently, Rab7 and RILP have been found to be key proteins also for the biogenesis of phagolysosomes. Therefore, RILP represents probably an important factor for all endocytic routes to lysosomes. In this study, we show, using the yeast two-hybrid system, that RILP is able to interact with itself. The data obtained with the two-hybrid system were confirmed using co-immunoprecipitation in HeLa cells. The data together indicate that RILP, as already demonstrated for several other Rab effector proteins, is capable of self-association, thus probably forming a homo-dimer.     

TBC domain family, member 15 is a novel mammalian Rab GTPase-activating protein with substrate preference for Rab7

Ypt/Rabs are Ras-related GTPases that function as key regulators of intracellular vesicular trafficking. Their slow intrinsic rates of GTP hydrolysis are catalyzed by GTPase-activating proteins (GAPs). Ypt/Rab-GAPs constitute a family of proteins that contain a TBC (Tre-2/Bub2/Cdc16) domain. Only three of the 51 family members predicted in the human genome are confirmed Ypt/Rab-GAPs. Here, we report the identification and characterization of a novel mammalian Ypt/Rab-GAP, TBC domain family, member 15 (TBC1D15). TBC1D15 is ubiquitously expressed and localized predominantly to the cytosol. The TBC domain of TBC1D15 exhibits relatively high homology with that of Gyp7p, a yeast Ypt/Rab-GAP. Furthermore, TBC1D15 stimulates the intrinsic GTPase activity of Rab7, and to a lesser extent Rab11, but is essentially inactive towards Rab4 or Rab6. These data increase the number of mammalian TBC domain family members with demonstrated Rab-GAP activity to four, and suggest that TBC1D15 may be involved in Rab7-mediated late endosomal trafficking.     

Regulation of endocytic recycling by C. elegans Rab35 and its regulator RME-4, a coated-pit protein

Using Caenorhabditis elegans genetic screens, we identified receptor-mediated endocytosis (RME)-4 and RME-5/RAB-35 as important regulators of yolk endocytosis in vivo. In rme-4 and rab-35 mutants, yolk receptors do not accumulate on the plasma membrane as would be expected in an internalization mutant, rather the receptors are lost from cortical endosomes and accumulate in dispersed small vesicles, suggesting a defect in receptor recycling. Consistent with this, genetic tests indicate the RME-4 and RAB-35 function downstream of clathrin, upstream of RAB-7, and act synergistically with recycling regulators RAB-11 and RME-1. We find that RME-4 is a conserved DENN domain protein that binds to RAB-35 in its GDP-loaded conformation. GFP-RME-4 also physically interacts with AP-2, is enriched on clathrin-coated pits, and requires clathrin but not RAB-5 for cortical association. GFP-RAB-35 localizes to the plasma membrane and early endocytic compartments but is lost from endosomes in rme-4 mutants. We propose that RME-4 functions on coated pits and/or vesicles to recruit RAB-35, which in turn functions in the endosome to promote receptor recycling.     

Rab11b resides in a vesicular compartment distinct from Rab11a in parietal cells and other epithelial cells

The Rab11 family of small GTPases is composed of three members, Rab11a, Rab11b, and Rab25. While recent work on Rab11a and Rab25 has yielded some insights into their function, Rab11b has received little attention. Therefore, we sought to examine the distribution of endogenous Rab11b in epithelial cells. In rabbit gastric parietal cells, unlike Rab11a, Rab11b did not colocalize or coisolate with H(+)/K(+)-ATPase. In MDCK cells, endogenous Rab11b localized to an apical pericentrisomal region distinct from Rab11a. The microtubule agents nocodazole and taxol dramatically alter Rab11a's localization in the cell, while effects on Rab11b's distribution were less apparent. These results indicate that in contrast to Rab11a, the Rab11b compartment in the apical region is not as dependent upon microtubules. While Rab11a is known to regulate transferrin trafficking in nonpolarized cells and IgA trafficking in polarized cells, Rab11b exhibited little colocalization with either of these cargoes. Thus, while Rab11a and Rab11b share high sequence homology, they appear to reside within distinct vesicle compartments.     

Rab27a in pancreatic beta-cells, a busy protein in membrane trafficking

The small GTPases have the ‘active’ GTP-bound and ‘inactive’ GDP-bound states, and thereby act as a molecular switch in cells. Rab27a is a member of this family and exists in T-lymphocytes, melanocytes and pancreatic beta-cells. Rab27a regulates secretion of cytolytic granules from cytotoxic T-lymphocytes and intracellular transport of melanosomes in melanocytes. In pancreatic beta-cells, Rab27a controls pre-exocytotic stages of insulin secretion. A few GTP-dependent Rab27a effectors are known to mediate these cellular functions. We recently found that Rab27a also possesses the GDP-dependent effector coronin 3. Coronin 3 regulates endocytosis in pancreatic beta-cells through its interaction with GDP-Rab27a. These results imply that GTP- and GDP-Rab27a actively regulate distinct stages in the insulin secretory pathway. In this review, we provide an overview of the roles of both GTP- and GDP-Rab27a in pancreatic beta-cells.     

Rab5-activating protein 6, a novel endosomal protein with a role in endocytosis

Rab GTPases are regulators of membrane trafficking that cycle between active (GTP-bound) and inactive (GDP-bound) states. In this study, we report the identification of a new human Rab5 guanine nucleotide exchange factor (GEF), which we have named RAP6 (Rab5-activating protein 6). RAP6 contains a Rab5 GEF and a Ras GAP domain. We show that the Vps9 domain is sufficient for the interaction of RAP6 with GDP-bound Rab5 and that RAP6 stimulates Rab5 guanine nucleotide exchange. We also find that the Ras GAP domain of RAP6 shows GAP activity for Ras. Immunofluorescence experiments reveal that RAP6 is associated with plasma membrane and small intracellular vesicles that also contain Rab5. Additionally, the overexpression of RAP6 affects both fluid phase and receptor-mediated endocytosis. This study is the first to show that RAP6 is a novel regulator of endocytosis that exhibits GEF activity specific for Rab5 and GAP activity specific for Ras.     

Distinct roles of Rab3B and Rab13 in the polarized transport of apical,basolateral, and tight junctional membrane proteins to the plasma membrane

Regulated transport of proteins to distinct plasma membrane domains is essential for the establishment and maintenance of cell polarity in all eukaryotic cells. The Rab family small G proteins play a crucial role in determining the specificity of vesicular transport pathways. Rab3B and Rab13 localize to tight junction in polarized epithelial cells and cytoplasmic vesicular structures in non-polarized fibroblasts, but their functions are poorly understood. Here we examined their roles in regulating the cell-surface transport of apical p75 neurotrophin receptor (p75NTR), basolateral low-density lipoprotein receptor (LDLR), and tight junctional Claudin-1 using transport assay in non-polarized fibroblasts. Overexpression of Rab3B mutants inhibited the cell-surface transport of LDLR, but not p75NTR and Claudin-1. In contrast, overexpression of Rab13 mutants impaired the transport of Claudin-1, but not LDLR and p75NTR. These results suggest that Rab3B and Rab13 direct the cell-surface transport of LDLR and Claudin-1, respectively, and may contribute to epithelial polarization.     

A novel membrane targeting domain mediates the endosomal or Golgi localization specificity of small GTPases Rab22 and Rab31

Rab22 and Rab31 belong to the Rab5 subfamily of GTPases that regulates endocytic traffic and endosomal sorting. Rab22 and Rab31 (a.k.a. Rab22b) are closely related and share 87% amino acid sequence similarity, but they show distinct intracellular localization and function in the cell. Rab22 is localized to early endosomes and regulates early endosomal recycling, while Rab31 is mostly localized to the Golgi complex with only a small fraction in the endosomes at steady state. The specific determinants that affect this differential localization, however, are unclear. In this study, we identify a novel membrane targeting domain (MTD) consisting of the C-terminal hypervariable domain (HVD), interswitch loop (ISL), and N-terminal domain as a major determinant of endosomal localization for Rab22 and Rab31, as well as Rab5. Rab22 and Rab31 share the same N-terminal domain, but we find Rab22 chimeras with Rab31 HVD exhibit phenotypic Rab31 localization to the Golgi complex, while Rab31 chimeras with the Rab22 HVD localize to early endosomes, similar to wildtype Rab22. We also find that the Rab22 HVD favors interaction with the early endosomal effector protein Rabenosyn-5, which may stabilize the Rab localization to the endosomes. The importance of effector interaction in endosomal localization is further demonstrated by the disruption of Rab22 endosomal localization in Rabenosyn-5 knockout cells and by the shift of Rab31 to the endosomes in Rabenosyn-5-overexpressing cells. Taken together, we have identified a novel MTD that mediates localization of Rab5 subfamily members to early endosomes via interaction with an effector such as Rabenosyn-5.     

Crucial roles of Rab22a in endosomal cargo recycling

Endosomal cargo recycling lies at the heart of subcellular trafficking processes under the management of several Ras-related GTP-binding proteins (Rabs) which are coordinated by their upstream regulators and require their downstream effectors to display their functions. In this regard, several Rabs have been well-reviewed except Rab22a. Rab22a is a crucial regulator of vesicle trafficking, early endosome and recycling endosome formation. Notably, recent studies demonstrated the immunological roles of Rab22a, which are closely associated with cancers, infection and autoimmune disorders. This review provides an overview of the regulators and effectors of Rab22a. Also, we highlight the current knowledge of the role of Rab22a in endosomal cargo recycling, including the biogenesis of recycling tubules with the help of a complex with Rab22a at its core, and how different internalized cargo chooses different recycling routes thanks to the cooperation of Rab22a, its effectors and its regulators. Of note, contradictions and speculation related to endosomal cargo recycling that Rab22a brings impacts on are also discussed. Finally, this review endeavors to briefly introduce the various events impacted by Rab22a, particularly focusing on the commandeered Rab22a-associated endosomal maturation and endosomal cargo recycling, in addition to the extensively investigated oncogenic role of Rab22a.     

One-step expression and purification of single-chain variable antibody fragment using an improved hexahistidine tag phagemid vector

The guanine nucleotide binding protein Rab8A controls the final steps of exocytosis in mammalian cells. It has been implicated in the regulation of apical protein localization in intestinal epithelial cells and ciliary biogenesis. The in vitro structural and biochemical characterization of Rab8A and its interaction with regulator and effector molecules has been hampered by its insolubility in Escherichia coli expression systems. The conventional refolding procedure is laborious and yields only minute amounts of C-terminally truncated Rab8A (Rab8A_1-183: amino acids 1–183), not the full-length protein. Here, we report a method of expressing soluble, hexahistidine-tagged full-length human Rab8A from E. coli. The Rab8A gene was codon-optimized and coexpressed with bacterial GroEL and GroES chaperones. After two-step purification by Ni²⁺ affinity chromatography and gel filtration, Rab8A was obtained at a yield of 4 mg protein per 1 L of bacterial cell culture and a purity of >95%. The resultant protein was functionally active, as determined by GTPase activity and its interaction with the nucleotide exchange factor MSS4.     

囊泡转运中的Rab小G蛋白与马达分子

Rab是小分子GTP结合蛋白Ras超家族中最大的亚家族,在囊泡运输的不同阶段发挥着调节作用.在与GTP结合后,Rab可募集特异的效应蛋白到膜上.近来发现,许多Rab可募集与微管和肌动蛋白相关的马达分子到靶膜,从而调节相应囊泡的转运.Rab所具有的分子开关特性,使其可在空间和时间上对囊泡转运进行调控.     

Recycling of the human prostacyclin receptor is regulated through a direct interaction with Rab11a GTPase

The human prostacyclin receptor (hIP) undergoes agonist-induced internalization but the mechanisms regulating its intracellular trafficking and/or recycling to the plasma membrane are poorly understood. Herein, we conducted a yeast-two-hybrid screen to identify proteins interacting with the carboxyl-terminal (C)-tail domain of the hIP and discovered a novel interaction with Rab11a. This interaction was confirmed by co-immunoprecipitations in mammalian HEK293 and was augmented by cicaprost stimulation. The hIP co-localized to Rab11-containing recycling endosomes in both HEK293 and endothelial EA.hy 926 cells in a time-dependent manner following cicaprost stimulation. Moreover, over-expression of Rab11a significantly increased recycling of the hIP, while the dominant negative Rab11^S25N impaired that recycling. Conversely, while the hIP co-localized to Rab4-positive endosomes in response to cicaprost, ectopic expression of Rab4a did not substantially affect overall recycling nor did Rab4a directly interact with the hIP. The specific interaction between the hIP and Rab11a was dependent on a 22 amino acid (Val²⁹⁹–Gln³²⁰) sequence within its C-tail domain and was independent of isoprenylation of the hIP. This study elucidates a critical role for Rab11a in regulating trafficking of the hIP and has identified a novel Rab11 binding domain (RBD) within its C-tail domain that is both necessary and sufficient to mediate interaction with Rab11a.     

Rab39, a novel Golgi-associated Rab GTPase from human dendritic cells involved in cellular endocytosis

Rab GTPases are Ras-like small molecular weight GTP binding proteins that are involved in various steps along the exocytic and endocytic pathways. Here we report that Rab39, a novel Rab protein, is a Golgi-associated protein involved in endocytosis of HeLa cells. Full-length cDNA of Rab39 contains 1251bp with an open reading frame (ORF) of 636bp, which is predicted to encode a 211 aa protein. By blast analysis of Rab39 cDNA and protein sequence with homologues, we find that Rab39 may be a short variant of Rab34. Rab39 contains conserved motifs involved in phosphate/guanosine binding and a microbody C-terminal targeting signal. RT-PCR analysis indicates that Rab39 is mainly detected in epithelial cell lines, and Northern blot analysis shows that Rab39 is expressed ubiquitously in human tissues. By using FITC-BSA as an endocytic tracer, we show that Rab39 can facilitate endocytosis in HeLa cells when expressed either transiently or stably. Confocal microscopy examination of Rab39 subcellular localization suggests that Rab39 is associated with Golgi-associated organelles. Our findings demonstrate that Rab39 is a novel Rab GTPase involved in cellular endocytosis.     

Global Ablation of the Mouse Rab11a Gene Impairs Early Embryogenesis and Matrix Metalloproteinase Secretion

Rab11a has been conceived as a prominent regulatory component of the recycling endosome, which acts as a nexus in the endo- and exocytotic networks. The precise in vivo role of Rab11a in mouse embryonic development is unknown. We globally ablated Rab11a and examined the phenotypic and molecular outcomes in Rab11a^null blastocysts and mouse embryonic fibroblasts. Using multiple trafficking assays and complementation analyses, we determined, among multiple important membrane-associated and soluble cargos, the critical contribution of Rab11a vesicular traffic to the secretion of multiple soluble MMPs. Rab11a^null embryos were able to properly form normal blastocysts but died at peri-implantation stages. Our data suggest that Rab11a critically controls mouse blastocyst development and soluble matrix metalloproteinase secretion.