Aberrant miR-29 is a predictive feature of severe phenotypes in pediatric Crohn’s disease
Alexandria J. Shumway, … , Shehzad Z. Sheikh, Praveen Sethupathy
Alexandria J. Shumway, … , Shehzad Z. Sheikh, Praveen Sethupathy
Published February 22, 2024
Citation Information: JCI Insight. 2024;9(4):e168800. https://doi.org/10.1172/jci.insight.168800.
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Research Article Gastroenterology Genetics

Aberrant miR-29 is a predictive feature of severe phenotypes in pediatric Crohn’s disease

Abstract

Crohn’s disease (CD) is a chronic inflammatory gut disorder. Molecular mechanisms underlying the clinical heterogeneity of CD remain poorly understood. MicroRNAs (miRNAs) are important regulators of gut physiology, and several have been implicated in the pathogenesis of adult CD. However, there is a dearth of large-scale miRNA studies for pediatric CD. We hypothesized that specific miRNAs uniquely mark pediatric CD. We performed small RNA-Seq of patient-matched colon and ileum biopsies from treatment-naive pediatric patients with CD (n = 169) and a control cohort (n = 108). Comprehensive miRNA analysis revealed 58 miRNAs altered in pediatric CD. Notably, multinomial logistic regression analysis revealed that index levels of ileal miR-29 are strongly predictive of severe inflammation and stricturing. Transcriptomic analyses of transgenic mice overexpressing miR-29 show a significant reduction of the tight junction protein gene Pmp22 and classic Paneth cell markers. The dramatic loss of Paneth cells was confirmed by histologic assays. Moreover, we found that pediatric patients with CD with elevated miR-29 exhibit significantly lower Paneth cell counts, increased inflammation scores, and reduced levels of PMP22. These findings strongly indicate that miR-29 upregulation is a distinguishing feature of pediatric CD, highly predictive of severe phenotypes, and associated with inflammation and Paneth cell loss.

Authors

Alexandria J. Shumway, Michael T. Shanahan, Emilie Hollville, Kevin Chen, Caroline Beasley, Jonathan W. Villanueva, Sara Albert, Grace Lian, Moises R. Cure, Matthew Schaner, Lee-Ching Zhu, Surekha Bantumilli, Mohanish Deshmukh, Terrence S. Furey, Shehzad Z. Sheikh, Praveen Sethupathy

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Figure 1

Ileal and colonic microRNA profiles stratify by disease status.

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Ileal and colonic microRNA profiles stratify by disease status. (A) Work...
(A) Workflow for smRNA-Seq analysis. (B) Principal component analysis (PCA) of variance stabilizing transformation (VST) normalized counts for all (n = 245) CD and NIBD samples accounting for the covariates of small RNA integrity metric (SIM), grouped ages (VEO ≤ 6; child = 7–12; teen = 13–17), and sex. The samples are colored in blue and green for CD and NIBD, respectively. The 2 tissue types are represented as circles for colon samples and triangles for ileal samples. The percent of variation explained is indicated for principal component 1 along the x axis and principal component 2 along the y axis. (C) Unsupervised hierarchical clustering of the Euclidean distances among all (n = 245) pediatric samples was calculated based on VST normalized counts accounting for the covariates of SIM, grouped ages, and sex. The CD and NIBD samples are indicated by peach and pink boxes, respectively. Other covariates are represented as the colors indicated by the legend. (D) PCA of pediatric miRNA profiles in colonic (n = 127) (left) and ileal (n = 118) (right) tissue accounting for the covariates of SIM, grouped ages, and sex. (E) PCA plots for colon (left) and ileum (right) in which the grouped patient age and sex phenotype information are overlaid. The colors green, red, and blue represent the VEO, child, and teen grouped ages, respectively. Female and male patients are indicated by red and blue, respectively. Disease status is specified by shape.