1. M-Sec facilitates intercellular transmission of HIV-1 through multiple mechanisms.
- Author
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Lotfi, Sameh, Nasser, Hesham, Noyori, Osamu, Hiyoshi, Masateru, Takeuchi, Hiroaki, Koyanagi, Yoshio, and Suzu, Shinya
- Subjects
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NEGATIVE regulatory factor , *VIRAL transmission , *CELL motility , *CELL lines , *MACROPHAGES - Abstract
Background: HIV-1 promotes the formation of tunneling nanotubes (TNTs) that connect distant cells, aiding cell-to-cell viral transmission between macrophages. Our recent study suggests that the cellular protein M-Sec plays a role in these processes. However, the timing, mechanism, and to what extent M-Sec contributes to HIV-1 transmission is not fully understood, and the lack of a cell line model that mimics macrophages has hindered in-depth analysis. Results: We found that HIV-1 increased the number, length and thickness of TNTs in a manner dependent on its pathogenic protein Nef and M-Sec in U87 cells, as observed in macrophages. In addition, we found that M-Sec was required not only for TNT formation but also motility of U87 cells, both of which are beneficial for viral transmission. In fact, M-Sec knockdown in U87 cells led to a significantly delayed viral production in both cellular and extracellular fractions. This inhibition was observed for wild-type virus, but not for a mutant virus lacking Nef, which is known to promote not only TNT formation but also migration of infected macrophages. Conclusions: By taking advantage of useful features of U87 cells, we provided evidence that M-Sec mediates a rapid and efficient cell–cell transmission of HIV-1 at an early phase of infection by enhancing both TNT formation and cell motility. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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