A1 Refereed original research article in a scientific journal
MOLECULAR MIMICRY BETWEEN HLA B27 AND YERSINIA, SALMONELLA, SHIGELLA AND KLEBSIELLA WITHIN THE SAME REGION OF HLA ALPHA-1-HELIX
Authors: LAHESMAA R, SKURNIK M, VAARA M, LEIRISALOREPO M, NISSILA M, GRANFORS K, TOIVANEN P
Publisher: BLACKWELL SCIENCE LTD
Publication year: 1991
Journal: Clinical and Experimental Immunology
Journal name in source: CLINICAL AND EXPERIMENTAL IMMUNOLOGY
Journal acronym: CLIN EXP IMMUNOL
Volume: 86
Issue: 3
First page : 399
Last page: 404
Number of pages: 6
ISSN: 0009-9104
Abstract
Two new examples of amino acid homology between HLA B27 and microbes triggering HLA B27-associated diseases are described. An outer membrane protein YadA (Yersinia adhesin, previously called Yop1) of Yersinia enterocolitica and Y. pseudotuberculosis shares a linear tetrapeptide with HLA B27. A cationic outer membrane protein OmpH of Salmonella typhimurium shares homology with five amino acids of HLA B27 in a non-linear fashion. The four amino acids of YadA are also notably included in the hexapeptide identical between Klebsiella pneumoniae nitrogenase and HLA B27, and three of them occur in the pentapeptide shared by a Shigella flexneri protein and HLA B27. Antibodies against synthetic peptides including HLA B27 homologous sequences of YadA and OmpH were observed in one-third of the patients with HLA B27 associated diseases. Antibodies were directed against a flanking sequence next to the amino acid sequences shared by arthritis-triggering microbes and HLA B27. The area of identity in each example of this molecular mimicry (Yersinia, Salmonella, Shigella and Klebsiella) is located in the same place on the HLA B27 molecule: between amino acids 70 to 78 in the variable region of alpha-1-helix. This area of HLA B27 molecule includes sites predicted to be important for binding processed antigens.
Two new examples of amino acid homology between HLA B27 and microbes triggering HLA B27-associated diseases are described. An outer membrane protein YadA (Yersinia adhesin, previously called Yop1) of Yersinia enterocolitica and Y. pseudotuberculosis shares a linear tetrapeptide with HLA B27. A cationic outer membrane protein OmpH of Salmonella typhimurium shares homology with five amino acids of HLA B27 in a non-linear fashion. The four amino acids of YadA are also notably included in the hexapeptide identical between Klebsiella pneumoniae nitrogenase and HLA B27, and three of them occur in the pentapeptide shared by a Shigella flexneri protein and HLA B27. Antibodies against synthetic peptides including HLA B27 homologous sequences of YadA and OmpH were observed in one-third of the patients with HLA B27 associated diseases. Antibodies were directed against a flanking sequence next to the amino acid sequences shared by arthritis-triggering microbes and HLA B27. The area of identity in each example of this molecular mimicry (Yersinia, Salmonella, Shigella and Klebsiella) is located in the same place on the HLA B27 molecule: between amino acids 70 to 78 in the variable region of alpha-1-helix. This area of HLA B27 molecule includes sites predicted to be important for binding processed antigens.
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