Anti-flagellin (CBir1) phenotypic and genetic Crohn's disease associations

Academic Article

Abstract

  • Background: Antibody reactivity to microbial antigens correlates with distinct Crohn's disease (CD) phenotypes such as fistulizing or fibrostenosing disease. We examined the association between anti-CBir1 and clinical phenotypes and NOD2 variants in a large cohort of adult CD patients. Methods: Sera and genomic DNA were collected from 731 patients with CD and tested for immune responses to I2, CBir1, oligomannan, and outer membrane porin C (OmpC) and the 3 most common CD-associated NOD2 variants. Results: Anti-CBir1 reactivity was significantly associated with fibrostenosis (FS), internal penetrating (IP) disease phenotypes, small bowel (SB) involvement, and SB surgery but negatively associated with ulcerative colitis (UC)-like CD. Multivariate logistic regression analysts showed that anti-CBir1 was independently associated with FS and UC-like CD irrespective of the antibody reactivity to 12, oligomannan, or OmpC, but not with SB involvement or SB surgery. The magnitude of anti-CBir1 reactivity, when added to the quantitative response toward the other 3 CD-associated antigens, enhances the discrimination of FS, IP, UC-like CD, and SB involvement, but not SB surgery. Finally, although the frequency of anti-CBir1 was similar in patients with none versus at least 1 NOD2 variant, the quantitative response to CBir1 flagellin was significantly higher in patients with CD carrying at least 1 NOD2 variant versus those carrying no variants (median anti-CBir1 titer 33.39 versus 28.36, respectively; P = 0.01). Conclusions: Anti-CBir1 serum reactivity in CD patients is independently associated with FS and complicated SB CD. Quantitative, but not qualitative, response to CBir1 is also significantly associated with the CD-associated NOD2 variants. Copyright © 2007 Crohn's & Colitis Foundation of America, Inc.
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    Digital Object Identifier (doi)

    Author List

  • Papadakis KA; Yang H; Ippoliti A; Mei L; Elson CO; Hershberg RM; Vasiliauskas EA; Fleshner PR; Abreu MT; Taylor K
  • Start Page

  • 524
  • End Page

  • 530
  • Volume

  • 13
  • Issue

  • 5