Morphopoietic Determinants of HIV-1 Gag Particles Assembled in Baculovirus-Infected Cells

Abstract

The determinants for HIV-1 particle morphology were investigated using various deletion and insertion mutants of the Gag precursor protein (Gag) expressed in baculovirus-infected cells and ultrastructural analysis of membrane-enveloped Gag particles under the electron microscope. Five discrete regions were found to influence the size, the variability in dimension, and the sphericity of the particles: (i) the matrix (MA) N-terminal domain, within residues 10–21, the junctions of (ii) MA–CA (capsid), (iii) CA-spacer peptide SP1 and (iv) nucleocapsid (NC)–SP2, and (v) the p6gagC-terminus. Internal regions (ii), (iii), and (iv) contained HIV-1 protease cleavage sites separating major structural domains. No particle assembly was observed foramb276, a MA–CA polyprotein mutant lacking the C-terminal third of the CA domain. However, MA–CA domains including the MHR (residues 277–306), or downstream sequence to CA residue 357, resulted in the assembly into tubular or filamentous structures, suggesting a helical symmetry of Gag packing. Mutantamb374, derived fromamb357 by further addition of the heptadecapeptide motif358HKARVLAEAMSQVTNSA374, overlapping the CA–SP1 junction and the SP1 domain, showed a drastic change in the pattern of Gag assembly, compared toamb357, with formation of spherical particles. These data suggested a novel function for the spacer domain SP1, acting as a spherical shape determinant of the Gag particle which would negatively affect the helical symmetry of assembly of the Gag precursor molecules conferred by the MHR and the downsteam CA sequence, within residues 307–357.