CHMP6 (charged multivesicular body protein 6) is a human orthologue of yeast Vps (vacuolar protein sorting) 20, a component of ESCRT (endosomal sorting complex required for transport)-III. Various CHMP6 orthologues in organisms ranging from yeast to humans contain the N-myristoylation consensus sequence at each N-terminus. Metabolic labelling of HEK-293 (human embryonic kidney) cells showed the incorporation of [3H]myristate into CHMP6 fused C-terminally to GFP (green fluorescent protein) (CHMP6–GFP). Interactions of CHMP6 with another ESCRT-III component CHMP4b/Shax [Snf7 (sucrose non-fermenting 7) homologue associated with Alix] 1, one of three paralogues of human Vps32/Snf7, and with EAP20 (ELL-associated protein 20), a human counterpart of yeast Vps25 and component of ESCRT-II, were observed by co-immunoprecipitation of epitope-tagged proteins expressed in HEK-293 cells. The in vitro pull-down assays using their recombinant proteins purified from Escherichia coli demonstrated direct physical interactions which were mediated by the N-terminal basic half of CHMP6. Overexpressed CHMP6-GFP in HeLa cells exhibited a punctate distribution throughout the cytoplasm especially in the perinuclear area, as revealed by fluorescence microscopic analysis. Accumulation of LBPA (lysobisphosphatidic acid), a major phospholipid in internal vesicles of an MVB (multivesicular body), was observed in the CHMP6–GFP-localizing area. FLAG-tagged EAP20 distributed diffusely, but exhibited a punctate distribution on co-expression with CHMP6–GFP. Overexpression of CHMP6–GFP caused reduction of transferrin receptors on the plasma membrane surface, but caused their accumulation in the cytoplasm. Ubiquitinated proteins and endocytosed EGF continuously accumulated in CHMP6–GFP-expressing cells. These results suggest that CHMP6 acts as an acceptor for ESCRT-II on endosomal membranes and regulates cargo sorting
ALG-2 is a Ca(2+)-binding protein that belongs to the penta-EF-hand protein family and associates with several proteins, including annexin VII, annexin XI, and Alix/AIP1, in a Ca(2+)-dependent manner. The yeast two-hybrid system and a biotin-tagged ALG-2 overlay assay were carried out to characterize the interaction between ALG-2 and Alix. The region corresponding to amino acid residues 794 to 827 in the carboxy-terminal proline-rich region of Alix was sufficient to confer the ability to interact directly with ALG-2. This region includes four-tandem PxY repeats. Alanine substitutions indicated that seven proline residues in this region, four in the PxY repeats, and four tyrosine residues in the PxY repeats are crucial for the binding affinity with ALG-2. Endogenous ALG-2 was co-immunoprecipitated in the presence of Ca(2+) with FLAG-tagged Alix or FLAG-tagged Alix Delta EBS, a deletion mutant lacking the endophilin binding consensus sequence, but not with FLAG-tagged Alix Delta ABS, another mutant lacking the region comprising amino acids 798-841, from the lysates of HEK293 cells transfected with each FLAG-tagged protein expression construct. FLAG-tagged ALG-2 overexpressed in HEK293 cells was also co-immunoprecipitated with Alix in a Ca(2+)-dependent fashion, whereas FLAG-tagged ALG-2(E47A/E114A), a Ca(2+)-binding deficient mutant of ALG-2, was not detected in the immunoprecipitates of Alix even in the presence of Ca(2+). Fluorescent microscopic analyses using the carboxy-terminal half of Alix fused with green fluorescent protein (GFP-AlixCT) revealed that endogenous ALG-2 in HeLa cells exhibits a dot-like pattern overlapping with exogenously expressed GFP-AlixCT, and the distribution of GFP-AlixCT Delta ABS is observed diffusely in the cytoplasm. These results indicate the requirement of ABS in Alix for the efficient accumulation of AlixCT and raise the possibility that ALG-2 participates in membrane trafficking through a Ca(2+)-dependent interaction with Alix.
All CHMPs (charged multivesicular body proteins) reported to date have common features: they all contain approx. 200 amino acid residues, have coiled-coil regions and have a biased distribution of charged residues (basic N-terminal and acidic C-terminal halves). Yeast orthologues of CHMPs, including an ESCRT-III component Snf7, are required for the sorting of cargo proteins to intraluminal vesicles of multivesicular bodies. We have characterized a novel human ESCRT-III-related protein, designated CHMP7, which consists of 453 amino acid residues. CHMP7 contains an SNF7 domain and a distantly SNF7-related domain in its C-terminal half and N-terminal half respectively. Among the ten CHMP proteins classified previously in six subfamilies (CHMP1-CHMP6), the C-terminal SNF7 domain of CHMP7 is most similar to the SNF7 domain of CHMP6, which associates with CHMP4 proteins and EAP20, a component of ESCRT-II. Pull-down assays using lysates of HEK-293T (human embryonic kidney) cells that overexpressed Strep-tagged CHMP7 and GFP (green fluorescent protein)-fused CHMP4b (also named Shax1) revealed a positive interaction between the C-terminal half of CHMP7 and CHMP4b. However, interaction was not observed between CHMP7 and EAP20. Confocal fluorescence microscopic analyses revealed that FLAG-CHMP7 is distributed in HeLa cells diffusely throughout the cytoplasm, but with some accumulation, especially in the perinuclear area. The distribution of FLAG-CHMP7 was altered to a cytoplasmic punctate pattern by overexpression of either CHMP4b-GFP or GFP-Vps4B(E235Q), a dominant-negative mutant of the AAA (ATPase associated with various cellular activities) Vps4B, and partially co-localized with them. Ubiquitinated proteins and endocytosed EGF accumulated in GFP-CHMP7-expressing cells. A dominant-negative effect of overexpressed GFP-CHMP7 was also observed in the release of virus-like particles from HEK-293T cells that transiently expressed the MLV (murine leukaemia virus) Gag protein. These results suggest that CHMP7, a novel CHMP4-associated ESCRT-III-related protein, functions in the endosomal sorting pathway.
Calpain 7 (also known as PalBH) is a mammalian homologue of the Aspergillus, atypical calpain PalB. Knowledge of the biochemical properties of calpain 7 is limited and its function is not yet known. In this study, we investigated the interactions of calpain 7 with all 11 ESCRT-III-related proteins, named charged multivesicular body proteins (CHMPs), and the subcellular localization of calpain 7. Pulldown assays using stable HEK293T transfectants of Strep-tagged calpain 7 revealed interactions of calpain 7 with a subset of FLAG-tagged CHMPs, among which CHMP1B was selected for further analyses. The N-terminal region containing a tandem repeat of MIT domains of calpain 7 was found to be necessary and sufficient for interaction with CHMP1B. Direct interaction was confirmed by a pulldown assay using recombinant proteins. Fluorescence microscopic analysis using HeLa cells revealed that overexpression of GFP-fused CHMPs or a dominant-negative construct of SKD1/Vps4B caused accumulation of epitope-tagged calpain 7 in a punctate pattern in the perinuclear area. Subcellular fractionation revealed that the most of endogenous calpain 7 is present in the cytosol but a small portion is present in particulate fractions. Punctate fluorescence signals of monomeric GFP-fused calpain 7 partly merged with those of endocytosed tetramethylrhodamine-labelled EGF. These results suggest that calpain 7 plays roles in the endosomal pathway by interacting with a subset of ESCRT-III-related proteins.
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