Affiliation:
1. Division of Infectious Diseases and Division of Pediatric Informatics, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio
Abstract
ABSTRACT
Noroviruses (NORs) are an important cause of acute gastroenteritis. Recent studies of NOR receptors showed that different NORs bind to different histo-blood group antigens (HBGAs), and at least four distinct binding patterns were observed. To determine the structure-function relationship for NORs and their receptors, two strains representing two of the four binding patterns were studied. Strain VA387 binds to HBGAs of A, B, and O secretors, whereas strain MOH binds to HBGAs of A and B secretors only. Using multiple sequence alignments, homology modeling, and structural analysis of NOR capsids, we identified a plausible “pocket” in the P2 domain that may be responsible for binding to HBGA receptors. This pocket consists of a conserved RGD/K motif surrounded by three strain-specific hot spots (N
302
, T
337
, and Q
375
for VA387 and N
302
, N
338
, and E
378
for MOH). Subsequent mutagenesis experiments demonstrated that all four sites played important roles in binding. A single amino acid mutation at T
337
(to A) in VA387 or a double amino acid mutation at RN
338
(to TT) in MOH abolished binding completely. Change of the entire RGD motif to SAS abolished binding in case of VA387, whereas single amino acid mutations in that motif did not have an apparent effect on binding to A and B antigens but decreased binding to H antigen. Multiple mutations at the RGK motif of MOH (SIRGK to TFRGD) completely knocked out the binding. Mutation of N
302
or Q
375
in VA387 affected binding to type O HBGA only, while switch mutants with three amino acid changes at either site from MOH to VA387 resulted in a weak binding to type O HBGAs. A further switch mutant with three amino acid changes at E
378
from MOH to VA387 diminished the binding to type A HBGA only. Taken together, our data indicate that the binding pocket likely exists on NOR capsids. Direct evidence of this hypothesis requires crystallography studies.
Publisher
American Society for Microbiology
Subject
Virology,Insect Science,Immunology,Microbiology
Reference46 articles.
1. Structural Requirements for the Assembly of Norwalk Virus-Like Particles
2. Blackwell, C. C., F. Z. Aly, V. S. James, D. M. Weir, A. Collier, A. W. Patrick, C. G. Cumming, D. Wray, and B. F. Clarke. 1989. Blood group, secretor status and oral carriage of yeasts among patients with diabetes mellitus. Diabetes Res.12:101-104.
3. Blackwell, C. C., S. J. May, R. P. Brettle, C. J. MacCallum, and D. M. Weir. 1987. Secretor state and immunoglobulin levels among women with recurrent urinary tract infections. J. Clin. Lab. Immunol.22:133-137.
4. Boren, T., P. Falk, K. A. Roth, G. Larson, and S. Normark. 1993. Attachment of Helicobacter pylori to human gastric epithelium mediated by blood group antigens. Science262:1892-1895.
5. Boren, T., S. Normark, and P. Falk. 1994. Helicobacter pylori: molecular basis for host recognition and bacterial adherence. Trends Microbiol.2:221-228.
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