Expression of Rab5a correlates with tumor progression in pancreatic carcinoma.

Rab family protein Rab5a has been implicated in cancer progression. To date, its expression pattern in human pancreatic cancer has not been investigated. This study aims to examine clinical significance, biological role, and potential mechanism of action of mRab5a in human pancreatic cancer. We analyzed Rab5a protein in cancer tissue of 111 cases of pancreatic cancer using immunohistochemistry. The results show that Rab5a overexpression correlates with high T stage, positive nodal status, and advanced TNM stage. We performed knockdown of Rab5a through transfection of Rab5a-specific siRNA in the Capan-2 cell line, which shows high endogenous expression, and of Rab5a plasmid in the CFPAC-1 cell line, which shows low endogenous expression. Rab5a knockdown inhibited cell proliferation and invasion while its overexpression promoted cell proliferation and invasion. In addition, overexpression of Rab5a induced resistance to 5-FU and gemcitabine while its knockdown reduced resistance to 5-FU and gemcitabine. Furthermore, our results show that Rab5a overexpression upregulates Wnt signaling and expression of Wnt target genes including c-myc and MMP7. Blocking Wnt signaling abolished the effects of Rab5a on Wnt targets and on cancer cell proliferation. In summary, our results show that Rab5a is overexpressed in pancreatic cancer and promotes aggressive biological behavior through regulation of the Wnt/ß-catenin signaling pathway.

The Mannose Receptor Is Involved in the Phagocytosis of Mycobacteria-Induced Apoptotic Cells.

Upon Mycobacterium tuberculosis infection, macrophages may undergo apoptosis, which has been considered an innate immune response. The pathways underlying the removal of dead cells in homeostatic apoptosis have been extensively studied, but little is known regarding how cells that undergo apoptotic death during mycobacterial infection are removed. This study shows that macrophages induced to undergo apoptosis with mycobacteria cell wall proteins are engulfed by J-774A.1 monocytic cells through the mannose receptor. This demonstration was achieved through assays in which phagocytosis was inhibited with a blocking anti-mannose receptor antibody and with mannose receptor competitor sugars. Moreover, elimination of the mannose receptor by a specific siRNA significantly diminished the expression of the mannose receptor and the phagocytosis of apoptotic cells. As shown by immunofluorescence, engulfed apoptotic bodies are initially located in Rab5-positive phagosomes, which mature to express the phagolysosome marker LAMP1. The phagocytosis of dead cells triggered an anti-inflammatory response with the production of TGF-ß and IL-10 but not of the proinflammatory cytokines IL-12 and TNF-α. This study documents the previously unreported participation of the mannose receptor in the removal of apoptotic cells in the setting of tuberculosis (TB) infection. The results challenge the idea that apoptotic cell phagocytosis in TB has an immunogenic effect.

Increased expression of Rab5A predicts metastasis and poor prognosis in colorectal cancer patients.

Rab5A is reported to correlate with cancer development and progression. The purpose of this study is to explore the association between Rab5A expression and the clinical characteristics of colorectal cancer (CRC). Data containing three independent investigations from Oncomine database demonstrated that Rab5A is overexpression in CRC compared with normal tissue, similar result was also found in 32 matched CRC tissue samples by qPCR. The protein expression of Rab5A was examined in 390 CRC specimens and the results showed that high expression of Rab5A was significantly correlated with tumor size (P = 0.008), serum CEA (P = 0.002), liver metastasis (P = 0.014) and clinical stage (P = 0.010). Kaplan-Meier method suggested that overexpression of Rab5A protein expression had shorter overall survival times in CRC patients (P < 0.001). Multivariate Cox regression analysis confirmed Rab5A expression, tumor size and clinical stage as independent prognostic factor in CRC. In conclusion, the data indicated that higher expression of Rab5A was observed in CRC tissues and Rab5A may be identified as a useful predictor of metastasis and prognosis for CRC.

The fungal pathogen Cryptococcus neoformans manipulates macrophage phagosome maturation.

Phagocytosis by cells of the innate immune system, such as macrophages, and the subsequent successful maturation of the phagosome, is key for the clearance of pathogens. The fungal pathogen Cryptococcus neoformans is known to overcome killing by host phagocytes and both replicate within these cells and also escape via a non-lytic process termed vomocytosis. Here we demonstrate that, during intracellular growth, cryptococci modify phagolysosome maturation. Live cryptococci, but not heat-killed pathogens or inert targets, induce the premature removal of the early phagosome markers Rab5 and Rab11. In addition, significant acidification of the phagosome, calcium flux and protease activity is hindered, thus rendering the phagosome permissive for cryptococcal proliferation. Interestingly, several attenuated cryptococcal mutants retain this ability to subvert phagosomal maturation, suggesting that hitherto unidentified pathogen mechanisms regulate this process.

Dynamic imaging of the hepatitis C virus NS5A protein during a productive infection.

UNLABELLED: Hepatitis C virus (HCV) NS5A is essential for viral genome replication within cytoplasmic replication complexes and virus assembly at the lipid droplet (LD) surface, although its definitive functions are poorly understood. We developed approaches to investigate NS5A dynamics during a productive infection. We report here that NS5A motility and efficient HCV RNA replication require the microtubule network and the cytoplasmic motor dynein and demonstrate that both motile and relatively static NS5A-positive foci are enriched with host factors VAP-A and Rab5A. Pulse-chase imaging revealed that newly synthesized NS5A foci are small and distinct from aged foci, while further studies using a unique dual fluorescently tagged infectious HCV chimera showed a relatively stable association of NS5A foci with core-capped LDs. These results reveal new details about the dynamics and maturation of NS5A and the nature of potential sites of convergence of HCV replication and assembly pathways. IMPORTANCE: Hepatitis C virus (HCV) is a major cause of serious liver disease worldwide. An improved understanding of the HCV replication cycle will enable development of novel and improved antiviral strategies. Here we have developed complementary fluorescent labeling and imaging approaches to investigate the localization, traffic and interactions of the HCV NS5A protein in living, virus-producing cells. These studies reveal new details as to the traffic, composition and biogenesis of NS5A foci and the nature of their association with putative sites of virus assembly.

Rab20 regulates phagosome maturation in RAW264 macrophages during Fc gamma receptor-mediated phagocytosis.

Rab20, a member of the Rab GTPase family, is known to be involved in membrane trafficking, however its implication in FcγR-mediated phagocytosis is unclear. We examined the spatiotemporal localization of Rab20 during phagocytosis of IgG-opsonized erythrocytes (IgG-Es) in RAW264 macrophages. By the live-cell imaging of fluorescent protein-fused Rab20, it was shown that Rab20 was transiently associated with the phagosomal membranes. During the early stage of phagosome formation, Rab20 was not localized on the membranes of phagocytic cups, but was gradually recruited to the newly formed phagosomes. Although Rab20 was colocalized with Rab5 to some extent, the association of Rab20 with the phagosomes persisted even after the loss of Rab5 from the phagosomal membranes. Then, Rab20 was colocalized with Rab7 and Lamp1, late endosomal/lysosomal markers, on the internalized phagosomes. Moreover, our analysis of Rab20 mutant expression revealed that the maturation of phagosomes was significantly delayed in cells expressing the GDP-bound mutant Rab20-T19N. These data suggest that Rab20 is an important component of phagosome and regulates the phagosome maturation during FcγR-mediated phagocytosis.

Real-time imaging of Rab5 activity using a prequenched biosensor.

A key regulator of receptor-mediated endocytosis, Rab5, plays a pivotal role in cargo receptor internalization, endosomal maturation, and transduction and degradation of internalized signaling molecules and recycling cargo receptor. Stressful conditions within cells lead to increased Rab5 activation, and increasing evidence correlates Rab5 activity abnormalities with certain diseases. Current antibody-based imaging methods cannot distinguish active Rab5 from total Rab5 population and provide dynamic information on magnitude and duration of Rab5 activation in cellular events and pathogenesis. We report here novel molecular imaging probes that specifically target GTP-bound Rab5 associated with the early endosome membrane in live cells and fixed mouse brain tissues. Our Rab5 activity fluorescent biosensor (RAFB) contains the Rab5 binding domain of the Rab5 effector Rabaptin 5, a fluorophore (a quantum dot or fluorescent dye) and a cell-penetrating peptide for live-cell delivery. The quantum dot conjugated RAFB was able to image the elevated Rab5 activity in both the cortex and hippocampi tissues of a Ts65Dn mouse. A prequenched RAFB based on fluorescence resonance energy transfer (FRET) can image cytosolic active Rab5 in single live cells. This novel method should enable imaging of the biological process in which Rab5 activity is regulated in various cellular systems.

VAV2 regulates epidermal growth factor receptor endocytosis and degradation.

Vav proteins are guanine nucleotide exchange factors for Rho GTPases that regulate cell adhesion, motility, spreading and proliferation in response to growth factor signalling. In this work, we show that Vav2 expression delayed epidermal growth factor receptor (EGFR) internalization and degradation, and enhanced EGFR, ERK and Akt phosphorylations. This effect of Vav2 on EGFR degradation is dependent on its guanine nucleotide exchange function. Knockdown of Vav2 in HeLa cells enhanced EGFR degradation and reduced cell proliferation. epidermal growth factor stimulation led to co-localization of Vav2 with EGFR and Rab5 in endosomes. We further show that the effect of Vav2 on EGFR stability is modulated by its interaction with two endosome-associated proteins and require RhoA function. Thus, in this work, we report for the first time that Vav2 can regulate growth factors receptor signalling by slowing receptor internalization and degradation through its interaction with endosome-associated proteins.

IL4/PGE2 induction of an enlarged early endosomal compartment in mouse macrophages is Rab5-dependent.

The endosomal compartment and the plasma membrane form a complex partnership that controls signal transduction and trafficking of different molecules. The specificity and functionality of the early endocytic pathway are regulated by a growing number of Rab GTPases, particularly Rab5. In this study, we demonstrate that IL4 (a Th-2 cytokine) and prostaglandin E2 (PGE2) synergistically induce Rab5 and several Rab effector proteins, including Rin1 and EEA1, and promote the formation of an enlarged early endocytic (EEE) compartment. Endosome enlargement is linked to a substantial induction of the mannose receptor (MR), a well-characterized macrophage endocytic receptor. Both MR levels and MR-mediated endocytosis are enhanced approximately 7-fold. Fluid-phase endocytosis is also elevated in treated cells. Light microscopy and fractionation studies reveal that MR colocalizes predominantly with Rab5a and partially with Rab11, an endosomal recycling pathway marker. Using retroviral expression of Rab5a:S34N, a dominant negative mutant, and siRNA Rab5a silencing, we demonstrate that Rab5a is essential for the large endosome phenotype and for localization of MR in these structures. We speculate that the EEE is maintained by activated Rab5, and that the EEE phenotype is part of some macrophage developmental program such as cell fusion, a characteristic of IL4-stimulated cells.

Endosomal trafficking of the Menkes copper ATPase ATP7A is mediated by vesicles containing the Rab7 and Rab5 GTPase proteins.

The Cu-ATPase ATP7A (MNK) is localized in the trans-Golgi network (TGN) and relocalizes in the plasma membrane via vesicle-mediated traffic following exposure of the cells to high concentrations of copper. Rab proteins are organelle-specific GTPases, markers of different endosomal compartments; their role has been recently reviewed (Trends Cell Biol. 11(2001) 487). In this article we analyze the endosomal pathway of trafficking of the MNK protein in stably transfected clones of CHO cells, expressing chimeric Rab5-myc or Rab7-myc proteins, markers of early or late endosome compartments, respectively. We demonstrate by immunofluorescence and confocal and electron microscopy techniques that the increase in the concentration of copper in the medium (189 microM) rapidly induces a redistribution of the MNK protein from early sorting endosomes, positive for Rab5-myc protein, to late endosomes, containing the Rab7-myc protein. Cell fractionation experiments confirm these results; i.e., the MNK protein is recruited to the endosomal fraction on copper stimulation and colocalizes with Rab5 and Rab7 proteins. These findings allow the first characterization of the vesicles involved in the intracellular routing of the MNK protein from the TGN to the plasma membrane, a key mechanism allowing appropriate efflux of copper in cells grown in high concentrations of the metal.

Phosphatidylinositol 3-phosphate is found in microdomains of early endosomes.

Phosphatidylinositol 3-phosphate [PI(3)P] is a phosphatidylinositol 3-kinase product whose localisation is restricted to the limiting membranes of early endosomes and to the internal vesicles of multivesicular bodies. In this study the intracellular distribution of PI(3)P was compared with those of another phosphoinositide and a number of endosomal proteins. Using a 2xFYVE probe specific for PI(3)P we found that PI(3)P is present in microdomains within the endosome membrane, whereas a phosphoinositide required for clathrin-mediated endocytosis, PI(4,5)P2, was only detected at the plasma membrane. The small GTPase Rab5 as well as the PI(3)P-binding proteins EEA1, SARA and CISK were found to be abundant within PI(3)P-containing endosomal microdomains. In contrast, another PI(3)P-binding protein, Hrs, was found concentrated in clathrin-coated endosomal microdomains with low levels of PI(3)P. While PI(3)P-containing microdomains could be readily distinguished on enlarged endosomes in cells transfected with a constitutively active Rab5 mutant, such domains could also be detected in endosomes of non-transfected cells. We conclude that the membranes of early endosomes consist of microdomains in which PI(3)P and specific proteins are concentrated. These microdomains may be necessary for the assembly of distinct multimolecular complexes that specify organelle identity, membrane trafficking and receptor signalling.

Mouse polyomavirus utilizes recycling endosomes for a traffic pathway independent of COPI vesicle transport.

Mouse polyomavirus enters host cells internalized, similar to simian virus 40 (SV40), in smooth monopinocytic vesicles, the movement of which is associated with transient actin disorganization. The major capsid protein (VP1) of the incoming polyomavirus accumulates on membranes around the cell nucleus. Here we show that unlike SV40, mouse polyomavirus infection is not substantially inhibited by brefeldin A, and colocalization of VP1 with beta-COP during early stages of polyomavirus infection in mouse fibroblasts was observed only rarely. Thus, these viruses obviously use different traffic routes from the plasma membrane toward the cell nucleus. At approximately 3 h postinfection, a part of VP1 colocalized with the endoplasmic reticulum marker BiP, and a subpopulation of virus was found in perinuclear areas associated with Rab11 GTPase and colocalized with transferrin, a marker of recycling endosomes. Earlier postinfection, a minor subpopulation of virions was found to be associated with Rab5, known to be connected with early endosomes, but the cell entry of virus was slower than that of transferrin or cholera toxin B-fragment. Neither Rab7, a marker of late endosomes, nor LAMP-2 lysosomal glycoprotein was found to colocalize with polyomavirus. In situ hybridization with polyomavirus genome-specific fluorescent probes clearly demonstrated that, regardless of the multiplicity of infection, only a few virions delivered their genomic DNA into the cell nucleus, while the majority of viral genomes (and VP1) moved back from the proximity of the nucleus to the cytosol, apparently for their degradation.

Differential regulation of CXCR2 trafficking by Rab GTPases.

Intracellular trafficking of chemokine receptors plays an important role in fine-tuning the functional responses of neutrophils and lymphocytes in the inflammatory process and HIV infection. Although many chemokine receptors internalize through clathrin-coated pits, regulation of the receptor trafficking is not fully understood. The present study demonstrated that CXCR2 was colocalized with transferrin and low-density lipoprotein (LDL) after agonist treatment for different periods of time, suggesting 2 intracellular trafficking pathways for this receptor. CXCR2 was colocalized with Rab5 and Rab11a, which are localized in early and recycling endosomes, respectively, in response to agonist stimulation for a short period of time, suggesting a recycling pathway for the receptor trafficking. However, overexpression of a dominant-negative Rab5-S34N mutant significantly attenuated CXCR2 sequestration. The internalized CXCR2 was recycled back to the cell surface after removal of the agonist and recovery of the cells, but receptor recycling was inhibited by overexpression of a dominant-negative Rab11a-S25N mutant. After prolonged (4-hour) agonist treatment, CXCR2 exhibited significantly increased colocalization with Rab7, which is localized in late endosomes. The colocalization of CXCR2 with LDL and LAMP-1 suggests that CXCR2 is targeted to lysosomes for degradation after prolonged ligand treatment. However, the colocalization of CXCR2 with Lamp1 was blocked by the overexpression of a dominant-negative Rab7-T22N mutant. In cells overexpressing Rab7-T22N, CXCR2 was retained in the Rab5- and Rab11a-positive endosomes after prolonged (4-hour) agonist treatment. Our data suggest that the intracellular trafficking of CXCR2 is differentially regulated by Rab proteins.

Multicompartmental distribution of the tuberous sclerosis gene products, hamartin and tuberin.

Mutations of the TSC1 and TSC2 genes give rise to the clinical disorder of tuberous sclerosis characterized by the development of hamartomas predominantly affecting the central nervous system, kidney, skin, lung, and heart. The function of the gene products, hamartin and tuberin, is not well understood but we have previously suggested a role in vesicular transport. To define the subcellular compartment(s) involved with these two proteins, biochemical characterization of hamartin and tuberin was performed in primary tissues and cell lines. Fractionation of cell lysates identified both proteins in the cytosolic, microsomal, and cytoskeletal compartments. In each of these fractions, hamartin and tuberin formed a stable complex in coimmunoprecipitation analyses. Further, they colocalized extensively in discrete, vesicular structures in the cytoplasm. Within the microsomal compartment, hamartin and tuberin behaved as peripheral membrane proteins that associate with the cytosolic leaflet of membranous domains. Immunoisolation of tuberin-bound vesicles using magnetic beads showed an enrichment of rap1, rab5, and caveolin-1, all of which have been found in specialized lipid microdomains, caveolae. Our data suggest that hamartin and tuberin are multicompartmental proteins that partially reside in caveolin-1-enriched structures and potentially affect their signaling.

[RAB5A, a gene possibly related to metastasis of human carcinoma of the lung and stomach].

OBJECTIVE: To study and isolate tumor metastasis-related genes, and to explore the molecular basis of metastasis of lung and gastric carcinoma. METHODS: Using mRNA differential display technique, cDNA cloning and sequencing, RT-PCR, Northern blot and immunocytochemical methods, genes differentially expressed between human lung adenocarcinoma cell lines AGZY83-a and Anip973 were detected. Anip973 was isolated from AGZY83-a with much higher metastatic potential than the parent line. RESULTS: There were significant differences in gene expression between the two cell lines. RAB5A was one of the genes differentially expressed in Anip973 cells. Its gene product is a GTP-binding protein. Paraffin sections of 33 lung carcinoma and 47 gastric carcinoma specimens were examined immunohistochemically. Expression of RAB5A was positive in 87.9% of NSCLC and 91.5% of gastric cancer specimens examined (P < 0.05), and correlated with their metastatic potential and differentiation degree of gastric carcinoma. CONCLUSION: RAB5A is possibly a metastasis-related gene.