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J Virol . Sphingomyelin-Sequestered Cholesterol Domain Recruits Formin-Binding Protein 17 for Constricting Clathrin-Coated Pits in Influenza Virus Entry

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  • J Virol . Sphingomyelin-Sequestered Cholesterol Domain Recruits Formin-Binding Protein 17 for Constricting Clathrin-Coated Pits in Influenza Virus Entry


    J Virol


    . 2022 Jan 12;JVI0181321.
    doi: 10.1128/JVI.01813-21. Online ahead of print.
    Sphingomyelin-Sequestered Cholesterol Domain Recruits Formin-Binding Protein 17 for Constricting Clathrin-Coated Pits in Influenza Virus Entry


    Bo Tang 1 , En-Ze Sun 1 , Zhi-Ling Zhang 1 , Shu-Lin Liu 2 , Jia Liu 3 4 , Akihiro Kusumi 5 , Zhi-Hong Hu 3 , Tao Zeng 1 , Ya-Feng Kang 1 , Hong-Wu Tang 1 , Dai-Wen Pang 1 2



    Affiliations

    Abstract

    Influenza A virus (IAV) is a global health threat. The cellular endocytic machineries harnessed by IAV remain elusive. Here, by tracking single IAV particles and quantifying the internalized IAV, we found that the sphingomyelin (SM)-sequestered cholesterol, but not the accessible cholesterol, is essential for the clathrin-mediated endocytosis (CME) of IAV. The clathrin-independent endocytosis of IAV is cholesterol-independent. Whereas, the CME of transferrin depends on SM-sequestered cholesterol and accessible cholesterol. Furthermore, three-color single-virus tracking and electron microscopy showed that the SM-cholesterol complex nanodomain is recruited to the IAV-containing clathrin-coated structure (CCS) and facilitates neck constriction of the IAV-containing CCS. Meanwhile, formin-binding protein 17 (FBP17), a membrane-bending protein which activates actin nucleation, is recruited to IAV-CCS complex in a manner dependent on the SM-cholesterol complex. We propose that the SM-cholesterol nanodomain at the neck of CCS recruits FBP17 to induce neck constriction by activating actin assembly. These results unequivocally show the physiological importance of the SM-cholesterol complex in IAV entry. Importance: IAV infects the cells by harnessing cellular endocytic machineries. Better understanding of the cellular machineries used for its entry might lead to the development of antiviral strategies, and would also provide important insights into physiological endocytic processes. This work demonstrated that a special pool of cholesterol in plasma membrane, SM-sequestered cholesterol, recruits FBP17 for the constriction of clathrin-coated pits in IAV entry. Meanwhile, the clathrin-independent cell entry of IAV is cholesterol-independent. The internalization of transferrin, the gold-standard cargo endocytosed solely via CME, is much less dependent on the SM-cholesterol complex. These results would provide new insights into IAV infection and pathway/cargo-specific involvement of cholesterol pool(s).


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