Alteration of the pH dependence of coronavirus-induced cell fusion: effect of mutations in the spike glycoprotein.

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J Virol. 1991 April; 65(4): 1916-1928

Alteration of the pH dependence of coronavirus-induced cell fusion: effect of mutations in the spike glycoprotein.

T M Gallagher, C Escarmis and M J Buchmeier

Department of Neuropharmacology, Scripps Clinic and Research Foundation, La Jolla, California 92037.

ABSTRACT

Infection of susceptible murine cells with the coronavirus mousehepatitis virus type 4 (MHV4) results in extensive cell-cellfusion at pHs from 5.5 to 8.5. The endosomotropic weak baseschloroquine and ammonium chloride do not prevent MHV4 infection.In marked contrast, we have selected variants from a neuralcell line persistently infected with MHV4 which are entirelydependent on acid pH to fuse host cells and are strongly inhibitedby endosomotropic weak bases. Wild-type and variant viruseswere compared at the level of the fusion-active surface (S)glycoprotein gene. Cloning and sequencing of each 4,131-baseopen reading frame predicted a total of eight amino acid differenceswhich fell into three distinct clusters. Each S glycoprotein,when expressed from cDNA, was synthesized in equivalent amounts,and similar proportions were transported to the cell surface.Wild-type S induced cell-cell fusion at neutral pH, whereasvariant S required prolonged exposure to acidic pH to inducefusion. Expression of hybrid S genes prepared by exchange ofrestriction fragments between wild-type and variant cDNAs revealedthat elimination of neutral pH fusion was solely dependent onamino acid alterations at positions 1067 (Q to H), 1094 (Q toH), and 1114 (L to R). These changes lie within a predictedheptad repeat region of the transmembrane cleavage fragmentof S (S2). These findings demonstrate that the pH dependenceof coronavirus fusion is highly variable and that this variabilitycan be determined by as few as three amino acid residues.

J Virol. 1991 April; 65(4): 1916-1928

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