Membrane and protein interactions of a soluble form of the Semliki Forest virus fusion protein.

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J Virol. 1994 November; 68(11): 6940-6946

Membrane and protein interactions of a soluble form of the Semliki Forest virus fusion protein.

M R Klimjack, S Jeffrey and M Kielian

Department of Cell Biology, Albert Einstein College of Medicine, Bronx, New York 10461.

ABSTRACT

Semliki Forest virus is an enveloped alphavirus that infectscells by a membrane fusion reaction triggered by the low pHpresent in endocytic vacuoles. Fusion is mediated by the E1spike protein subunit. During fusion, several conformationalchanges occur in E1 and E2, the two transmembrane subunits ofthe spike protein. These changes include dissociation of theE1-E2 dimer, alteration of the trypsin sensitivity and monoclonalantibody binding patterns of E1, and formation of a sodium dodecylsulfate (SDS)-resistant E1 homotrimer. A critical characteristicof Semliki Forest virus fusion is also its dependence on thepresence of both cholesterol and sphingomyelin in the targetmembrane. We have here examined the conformational changes inducedby low pH treatment of E1*, the water-soluble, proteolyticallytruncated ectodomain of the E1 subunit. Following low pH treatment,E1* was shown to bind efficiently to artificial liposomes. Similarto virus fusion, optimal E1*-liposome binding required low pH,cholesterol, and sphingomyelin. The E1 ectodomain, althoughmonomeric in its neutral pH form, assembled into an SDS-resistantoligomer following treatment at low pH. This low pH-inducedoligomerization required target membranes containing both cholesteroland sphingomyelin. Our results demonstrate that the E1 ectodomainresponds to low pH similarly to the full-length E1 subunit.The ectodomain facilitates the characterization of conformationalchanges and membrane binding in the absence of virus fusionor other virus components.

J Virol. 1994 November; 68(11): 6940-6946

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