TY - JOUR
T1 - Metabolomics reveal distinct molecular pathways associated with future risk of Crohn’s Disease
AU - on behalf of the Crohn’s and Colitis Canada Genetics Environment Microbial Project Research Consortium
AU - Xue, Mingyue
AU - Lee, Sun Ho
AU - Shao, Jingchen
AU - Leibovitzh, Haim
AU - Huynh, Hien Q.
AU - Griffiths, Anne M.
AU - Turner, Dan
AU - Madsen, Karen L.
AU - Moayyedi, Paul
AU - Steinhart, A. Hillary
AU - Silverberg, Mark S.
AU - Deslandres, Colette
AU - Bitton, Alain
AU - Mack, David R.
AU - Jacobson, Kevan
AU - Ropeleski, Mark J.
AU - Cino, Maria
AU - Aumais, Guy
AU - Bernstein, Charles N.
AU - Panaccione, Remo
AU - Bressler, Brian
AU - Espin-Garcia, Osvaldo
AU - Xu, Wei
AU - Turpin, Williams
AU - Croitoru, Kenneth
N1 - Publisher Copyright:
© 2025 The Author(s). Published with license by Taylor & Francis Group, LLC.
PY - 2025
Y1 - 2025
N2 - Host–microbiome interactions are central to Crohn’sdisease (CD) pathogenesis; yet the early metabolic alterations that precededisease onset remain poorly defined. To explore preclinical metabolicsignatures of CD, we analyzed baseline serum metabolomic profiles in a nestedcase-control study within the Crohn’s and Colitis Canada–Genetics, Environment, Microbiome (CCC-GEM) Project, a prospective cohort of 5,122 healthyfirst-degree relatives (FDRs) of CD patients. We included 78 individuals wholater developed CD and 311 matched FDRs who remained disease-free. In an untargetedassessment of metabolomic data, we identified 63 metabolites significantlyassociated with future CD risk. Integrative analyses further identifiedmultiple associations between CD-related metabolites and proteomic markers, gutmicrobiome composition, antimicrobial antibody, fecal calprotectin andC-reactive protein. Quinolinate, a tryptophan catabolite, was elevated inindividuals who later developed CD and showed strong positive correlations withC-reactive protein, fecal calprotectin, and C-X-C motif chemokine ligand 9 (CXCL9).In contrast, higher levels of ascorbate and isocitrate were associated withreduced CD risk and were negatively correlated with C-reactive protein and CD-associated proteins.These findings identify several distinct molecular pathways that contribute toCD pathogenesis.
AB - Host–microbiome interactions are central to Crohn’sdisease (CD) pathogenesis; yet the early metabolic alterations that precededisease onset remain poorly defined. To explore preclinical metabolicsignatures of CD, we analyzed baseline serum metabolomic profiles in a nestedcase-control study within the Crohn’s and Colitis Canada–Genetics, Environment, Microbiome (CCC-GEM) Project, a prospective cohort of 5,122 healthyfirst-degree relatives (FDRs) of CD patients. We included 78 individuals wholater developed CD and 311 matched FDRs who remained disease-free. In an untargetedassessment of metabolomic data, we identified 63 metabolites significantlyassociated with future CD risk. Integrative analyses further identifiedmultiple associations between CD-related metabolites and proteomic markers, gutmicrobiome composition, antimicrobial antibody, fecal calprotectin andC-reactive protein. Quinolinate, a tryptophan catabolite, was elevated inindividuals who later developed CD and showed strong positive correlations withC-reactive protein, fecal calprotectin, and C-X-C motif chemokine ligand 9 (CXCL9).In contrast, higher levels of ascorbate and isocitrate were associated withreduced CD risk and were negatively correlated with C-reactive protein and CD-associated proteins.These findings identify several distinct molecular pathways that contribute toCD pathogenesis.
KW - Inflammatory bowel disease
KW - Ruminococcus torques
KW - gut barrier function
KW - risk biomarkers
UR - https://www.scopus.com/pages/publications/105015401301
U2 - 10.1080/19490976.2025.2546998
DO - 10.1080/19490976.2025.2546998
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C2 - 40910526
AN - SCOPUS:105015401301
SN - 1949-0976
VL - 17
JO - Gut Microbes
JF - Gut Microbes
IS - 1
M1 - 2546998
ER -