Lipid-specific protein oligomerization is regulated by two interfaces in Marburg virus matrix protein VP40 [article]

Souad Amiar, Monica L Husby, Kaveesha J Wijesinghe, Stephanie Angel, Nisha Bhattarai, Bernard S Gerstman, Prem P Chapagain, Sheng Li, Robert V Stahelin
2020 bioRxiv   pre-print
Marburg virus major matrix protein (mVP40) dimers associate with anionic lipids at the plasma membrane and undergo a dynamic and extensive self-oligomerization into the structural matrix layer which confers the virion shape and stability. Using a myriad of in vitro and cellular techniques, we present a mVP40 assembly model highlighting two distinct oligomerization interfaces (N-terminal domain (NTD) and C-terminal domain (CTD)) in mVP40. Cellular studies of NTD and CTD oligomerization interface
more » ... mutants demonstrated the importance of each interface in the mVP40 matrix assembly through protein trafficking to the plasma membrane and homo-multimerization that induced protein enrichment, plasma membrane fluidity changes and elongations at the plasma membrane. A novel APEX-TEM method was employed to closely assess the ultrastructural localization of and formation of viral particles for wild type and mutants. Taken together, these studies present a mechanistic model of mVP40 oligomerization and assembly at the plasma membrane during virion assembly.
doi:10.1101/2020.11.13.381350 fatcat:ebyg72tqn5he7cdw6srjrnaley