Role of Conserved Cysteines in the Alphavirus E3 Protein

Author:

Parrott Megan M.1,Sitarski Sarah A.1,Arnold Randy J.2,Picton Lora K.3,Hill R. Blake3,Mukhopadhyay Suchetana1

Affiliation:

1. Department of Biology

2. Department of Chemistry, Indiana University, 212 S. Hawthorne Drive, Bloomington, Indiana 47405

3. Department of Biology, The Johns Hopkins University, 3400 N. Charles St., Baltimore, Maryland 21218

Abstract

ABSTRACT Alphavirus particles are covered by 80 glycoprotein spikes that are essential for viral entry. Spikes consist of the E2 receptor binding protein and the E1 fusion protein. Spike assembly occurs in the endoplasmic reticulum, where E1 associates with pE2, a precursor containing E3 and E2 proteins. E3 is a small, cysteine-rich, extracellular glycoprotein that mediates proper folding of pE2 and its subsequent association with E1. In addition, cleavage of E3 from the assembled spike is required to make the virus particles efficiently fusion competent. We have found that the E3 protein in Sindbis virus contains one disulfide bond between residues Cys19 and Cys25. Replacing either of these two critical cysteines resulted in mutants with attenuated titers. Replacing both cysteines with either alanine or serine resulted in double mutants that were lethal. Insertion of additional cysteines based on E3 proteins from other alphaviruses resulted in either sequential or nested disulfide bond patterns. E3 sequences that formed sequential disulfides yielded virus with near-wild-type titers, while those that contained nested disulfide bonds had attenuated activity. Our data indicate that the role of the cysteine residues in E3 is not primarily structural. We hypothesize that E3 has an enzymatic or functional role in virus assembly, and these possibilities are further discussed.

Publisher

American Society for Microbiology

Subject

Virology,Insect Science,Immunology,Microbiology

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