<scp>Rab7D</scp> small <scp>GTPase</scp> is involved in phago‐, trogocytosis and cytoskeletal reorganization in the enteric protozoan <scp> <i>Entamoeba histolytica</i> </scp>
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- Yumiko Saito‐Nakano
- Department of Parasitology National Institute of Infectious Diseases Tokyo Japan
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- Ratna Wahyuni
- Department of Biomedical Chemistry, Graduate School of Medicine The University of Tokyo Tokyo Japan
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- Kumiko Nakada‐Tsukui
- Department of Parasitology National Institute of Infectious Diseases Tokyo Japan
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- Kentaro Tomii
- Artificial Intelligence Research Center (AIRC) and Real World Big‐Data Computation Open Innovation Laboratory (RWBC‐OIL) National Institute of Advance Industrial Science and Technology (AIST) Tokyo Japan
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- Tomoyoshi Nozaki
- Department of Biomedical Chemistry, Graduate School of Medicine The University of Tokyo Tokyo Japan
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説明
Rab small GTPases regulate membrane traffic between distinct cellular compartments of all eukaryotes in a tempo-spatially specific fashion. Rab small GTPases are also involved in the regulation of cytoskeleton and signalling. Membrane traffic and cytoskeletal regulation play pivotal role in the pathogenesis of Entamoeba histolytica, which is a protozoan parasite responsible for human amebiasis. E. histolytica is unique in that its genome encodes over 100 Rab proteins, containing multiple isotypes of conserved members (e.g., Rab7) and Entamoeba-specific subgroups (e.g., RabA, B, and X). Among them, E. histolytica Rab7 is the most diversified group consisting of nine isotypes. While it was previously demonstrated that EhRab7A and EhRab7B are involved in lysosome and phagosome biogenesis, the individual roles of other Rab7 members and their coordination remain elusive. In this study, we characterised the third member of Rab7, Rab7D, to better understand the significance of the multiplicity of Rab7 isotypes in E. histolytica. Overexpression of EhRab7D caused reduction in phagocytosis of erythrocytes, trogocytosis (meaning nibbling or chewing of a portion) of live mammalian cells, and phagosome acidification and maturation. Conversely, transcriptional gene silencing of EhRab7D gene caused opposite phenotypes in phago/trogocytosis and phagosome maturation. Furthermore, EhRab7D gene silencing caused reduction in the attachment to and the motility on the collagen-coated surface. Image analysis showed that EhRab7D was occasionally associated with lysosomes and prephagosomal vacuoles, but not with mature phagosomes and trogosomes. Finally, in silico prediction of structural organisation of EhRab7 isotypes identified unique amino acid changes on the effector binding surface of EhRab7D. Taken together, our data suggest that EhRab7D plays coordinated counteracting roles: a inhibitory role in phago/trogocytosis and lyso/phago/trogosome biogenesis, and an stimulatory role in adherence and motility, presumably via interaction with unique effectors. Finally, we propose the model in which three EhRab7 isotypes are sequentially involved in phago/trogocytosis.
収録刊行物
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- Cellular Microbiology
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Cellular Microbiology 23 (1), 1-, 2020-11
Hindawi Limited
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キーワード
- Protozoan Proteins
- CHO Cells
- GTP Phosphohydrolases
- Cricetulus
- Phagocytosis
- Phagosomes
- Animals
- Humans
- Amino Acid Sequence
- Gene Silencing
- Research Articles
- Cytoskeleton
- Membranes
- Entamoebiasis
- Virulence
- Entamoeba histolytica
- rab7 GTP-Binding Proteins
- rab GTP-Binding Proteins
- Vacuoles
- Lysosomes
- Transcriptome
詳細情報 詳細情報について
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- CRID
- 1360572092721441152
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- ISSN
- 14625822
- 14625814
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- PubMed
- 32975360
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- 資料種別
- journal article
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- データソース種別
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- Crossref
- KAKEN
- OpenAIRE