HPIP and RUFY3 are noncanonical guanine nucleotide exchange factors of Rab5 to regulate endocytosis-coupled focal adhesion turnover.
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2023-11
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While the role of endocytosis in focal adhesion turnover-coupled cell migration has been established in addition to its conventional role in cellular functions, the molecular regulators and precise molecular mechanisms that underlie this process remain largely unknown. In this study, we report that proto-oncoprotein hematopoietic PBX-interacting protein (HPIP) localizes to focal adhesions as well as endosomal compartments along with RUN FYVE domain-containing protein 3 (RUFY3) and Rab5, an early endosomal protein. HPIP contains two coiled-coil domains (CC1 and CC2) that are necessary for its association with Rab5 and RUFY3 as CC domain double mutant, that is, mtHPIPΔCC1-2 failed to support it. Furthermore, we show that HPIP and RUFY3 activate Rab5 by serving as noncanonical guanine nucleotide exchange factors of Rab5. In support of this, either deletion of coiled-coil domains or silencing of HPIP or RUFY3 impairs Rab5 activation and Rab5-dependent cell migration. Mechanistic studies further revealed that loss of HPIP or RUFY3 expression severely impairs Rab5-mediated focal adhesion disassembly, FAK activation, fibronectin-associated-β1 integrin trafficking, and thus cell migration. Together, this study underscores the importance of HPIP and RUFY3 as noncanonical guanine nucleotide exchange factors of Rab5 and in integrin trafficking and focal adhesion turnover, which implicates in cell migration.
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Khumukcham, Saratchandra Singh, Vasudevarao Penugurti, Suresh Bugide, Anju Dwivedi, Anita Kumari, PS Kesavan, Sruchytha Kalali, Yasaswi Gayatri Mishra, et al. (2023). HPIP and RUFY3 are noncanonical guanine nucleotide exchange factors of Rab5 to regulate endocytosis-coupled focal adhesion turnover. The Journal of biological chemistry, 299(11). p. 105311. 10.1016/j.jbc.2023.105311 Retrieved from https://hdl.handle.net/10161/30389.
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Vasudevarao PENUGURTI
My research has focused on cancer cell metabolism and the molecular pathways that regulate posttranslational modifications. In addition, we explore cancer initiation, cell survival, progression, and metastasis using a variety of in vitro, ex vivo, and in vivo genetical approaches, including gene knockdown, CRISPR/Cas9 knockout, molecular biology techniques, biochemical approaches, and genetically engineered mouse and Nude mice models, to characterize molecular mechanisms regulated by metabolic pathways and develop potential metabolic strategies for cancer therapy.
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