Gisela Marrero Cofino scite author profile

Inflammatory bowel diseases (IBDs) are characterized by abnormal, non-antigen specific chronic inflammation of unknown etiology. Genome-wide association studies show that many IBD genetic susceptibility loci map to immune function genes and compelling evidence indicate that environmental factors play a critical role in IBD pathogenesis. Clinical and experimental evidence implicate the pro-inflammatory cytokine IL-15 in the pathogenesis of IBD. IL-15 and IL-15α expression is increased in the inflamed mucosa of IBD patients. IL-15 contributes to the maintenance of different cell subsets in the intestinal mucosa. However, very few studies have addressed the role of IL-15 in pre-clinical models of colitis. In this study, we use three well-characterized models of experimental colitis to determine the contribution of IL-15 to pathological intestinal inflammation.

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A194 Impact of Suppressor of Cytokine Signaling 1 (Socs1) Expression in Intestinal Epithelial Cells on the Gut Microbiota

Leon¹,

Cofino²,

Delannoy³

et al. 2023

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Intra- and inter-species interactions drive early phases of invasion in mice gut microbiota

Gencel

Cofino

Hui

et al. 2022

Preprint

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The stability and dynamics of ecological communities are dictated by interaction networks typically quantified at the level of species. But how such networks are influenced by intra-species variation (ISV) is poorly understood. Here, we use ~500,000 chromosomal barcodes to track high-resolution intra-species clonal lineages of Escherichia coli invading mice gut with the increasing complexity of gut microbiome: germ-free, antibiotic-perturbed, and innate microbiota. By co-clustering the dynamics of intra-species clonal lineages and those of gut bacteria from 16S rRNA profiling, we show the emergence of complex time-dependent interactions between E. coli clones and resident gut bacteria. With a new approach, dynamic covariance mapping (DCM), we differentiate three phases of invasion in susceptible communities: 1) initial loss of community stability as E. coli enters; 2) recolonization of some gut bacteria; and 3) recovery of stability with E. coli coexisting with resident bacteria in a quasi-steady state. Comparison of the dynamics, stability and fitness from experimental replicates and different cohorts suggest that phase 1 is driven by mutations in E. coli before colonization, while phase 3 is by de novo mutations. Our results highlight the transient nature of interaction networks in microbiomes driven by the persistent coupling of ecological and evolutionary dynamics.

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A46 Loss of BMP-Signaling in Mesenchymal Telocytes Triggers Modification of the Glycosylation Profile of Colonic Mucins.

Reyes-Nicolas

Pomerleau

Gómez

et al. 2021

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