Browsing by Author "Hasan, Mahmudul"

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    Domain-based Bioinformatics Analysis and Molecular Insights for the Autoregulatory Mechanism of Phafin2
    Hasan, Mahmudul (Virginia Tech, 2024-08-19)
    Phafin2, an adaptor protein, is involved in various cellular processes, such as apoptosis, autophagy, endosomal cargo transportation, and macropinocytosis. Two domains, namely, PH and FYVE, contribute to Phafin2's cell membrane binding. Phafin2 also contains a poly aspartic acid (polyD) motif in its C-terminal region that can specifically autoinhibit the PH domain binding to membrane phosphatidylinositol 3-phosphate (PtdIns3P). Firstly, the study investigated the domain-based evolutionary pattern of PH, FYVE, and polyD motif of Phafin2 among its orthologs and Phafin2- like proteins. Using different bioinformatics tools and resources, it was concluded that the polyD motif only evolved in Phafin2 and PH- or both PH-FYVE-containing proteins of animals, highlighting the association in cellular functions that might have evolved uniquely in animals. Moreover, PH domain-free FYVE-containing proteins lack polyD motifs. Secondly, intramolecular autoregulatory and membrane binding properties of Phafin2 were studied by employing liposome co-sedimentation assay, isothermal titration calorimetry, and nuclear magnetic resonance spectroscopy. The residues Gly38, Lys45, Leu45, Lys51, Ala52, and Arg53 of the PH domain form a positively charged binding pocket that can bind the negatively charged polyD motif. The mutated Phafin2 PH domain (K51A/R53C and R53C) was unable to bind to synthetic polyD peptides, establishing the significance of those residues for the interaction between the PH domain and polyD motif. Moreover, the study also concluded that Phafin2-mediated membrane binding is not curvature-dependent.
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    The PH Domain and C-Terminal polyD Motif of Phafin2 Exhibit a Unique Concurrence in Animals
    Hasan, Mahmudul; Capelluto, Daniel G. S. (MDPI, 2022-07-07)
    Phafin2, a member of the Phafin family of proteins, contributes to a plethora of cellular activities including autophagy, endosomal cargo transportation, and macropinocytosis. The PH and FYVE domains of Phafin2 play key roles in membrane binding, whereas the C-terminal poly aspartic acid (polyD) motif specifically autoinhibits the PH domain binding to the membrane phosphatidylinositol 3-phosphate (PtdIns3P). Since the Phafin2 FYVE domain also binds PtdIns3P, the role of the polyD motif remains unclear. In this study, bioinformatics tools and resources were employed to determine the concurrence of the PH-FYVE module with the polyD motif among Phafin2 and PH-, FYVE-, or polyD-containing proteins from bacteria to humans. FYVE was found to be an ancient domain of Phafin2 and is related to proteins that are present in both prokaryotes and eukaryotes. Interestingly, the polyD motif only evolved in Phafin2 and PH- or both PH-FYVE-containing proteins in animals. PolyD motifs are absent in PH domain-free FYVE-containing proteins, which usually display cellular trafficking or autophagic functions. Moreover, the prediction of the Phafin2-interacting network indicates that Phafin2 primarily cross-talks with proteins involved in autophagy, protein trafficking, and neuronal function. Taken together, the concurrence of the polyD motif with the PH domain may be associated with complex cellular functions that evolved specifically in animals.
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    Phafins Are More Than Phosphoinositide-Binding Proteins
    Tang, Tuoxian; Hasan, Mahmudul; Capelluto, Daniel G. S. (MDPI, 2023-04-30)
    Phafins are PH (Pleckstrin Homology) and FYVE (Fab1, YOTB, Vac1, and EEA1) domain-containing proteins. The Phafin protein family is classified into two groups based on their sequence homology and functional similarity: Phafin1 and Phafin2. This protein family is unique because both the PH and FYVE domains bind to phosphatidylinositol 3-phosphate [PtdIns(3)P], a phosphoinositide primarily found in endosomal and lysosomal membranes. Phafin proteins act as PtdIns(3)P effectors in apoptosis, endocytic cargo trafficking, and autophagy. Additionally, Phafin2 is recruited to macropinocytic compartments through coincidence detection of PtdIns(3)P and PtdIns(4)P. Membrane-associated Phafins serve as adaptor proteins that recruit other binding partners. In addition to the phosphoinositide-binding domains, Phafin proteins present a poly aspartic acid motif that regulates membrane binding specificity. In this review, we summarize the involvement of Phafins in several cellular pathways and their potential physiological functions while highlighting the similarities and differences between Phafin1 and Phafin2. Besides, we discuss research perspectives for Phafins.