Structural changes in HIV maturation Nascent HIV particles assemble at the plasma membrane of an infected cell and bud into a membrane-enveloped, immature virion. Assembly and budding are driven by… Click to show full abstract
Structural changes in HIV maturation Nascent HIV particles assemble at the plasma membrane of an infected cell and bud into a membrane-enveloped, immature virion. Assembly and budding are driven by a polyprotein called Gag, which consists of a matrix domain (MA) that is recruited to the plasma membrane, a capsid domain (CA) responsible for self-assembly, and a nucleocapsid domain (NC) that recruits the viral RNA genome. Gag cleavage results in a structural rearrangement that produces the mature virion. Qu et al. imaged mature and immature HIV particles by electron tomography and focused in on the MA domain (see the Perspective by Hikichi and Freed). They found that MA rearranges between two distinct hexameric lattices, and mature MA modulates the viral membrane by binding to a membrane lipid. This finding suggests that MA may play functional roles in the mature virion. Science, abe6821, this issue p. 700; see also abj9075, p. 621 The structure of the HIV-1 matrix domain differs between immature and mature virions, affecting the structure of the viral lipid membrane. Gag, the primary structural protein of HIV-1, is recruited to the plasma membrane for virus assembly by its matrix (MA) domain. Gag is subsequently cleaved into its component domains, causing structural maturation to repurpose the virion for cell entry. We determined the structure and arrangement of MA within immature and mature HIV-1 through cryo–electron tomography. We found that MA rearranges between two different hexameric lattices upon maturation. In mature HIV-1, a lipid extends out of the membrane to bind with a pocket in MA. Our data suggest that proteolytic maturation of HIV-1 not only assembles the viral capsid surrounding the genome but also repurposes the membrane-bound MA lattice for an entry or postentry function and results in the partial removal of up to 2500 lipids from the viral membrane.
               
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