Aberrant miR-29 is a predictive feature of severe phenotypes in pediatric Crohn’s disease
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
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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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 5

Upregulation of miR-29b is associated with loss of PMP22 in both mouse and human.

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Upregulation of miR-29b is associated with loss of PMP22 in both mouse a...
(A) Schematic of Dox-inducible miR-29b overexpressing (29OE) mouse model. (B) qPCR showing the relative quantitative value (RQV) of miR-29b in 29OE mice without Dox treatment (29OE/–Dox, n = 4) (left) and with Dox treatment (29OE/+Dox, n = 4) for IEC-1 and IEC-2 (right). IEC-1 and IEC-2 represent 2 independent intestinal epithelial fractions from the same mice. Dark blue represents the –Dox treatment, and pink represents the +Dox treatment. (C) Normalized counts of previously validated miR-29 target genes Ccnd1 and Slc16a1 in the transgenic mouse model. Dark blue represents the –Dox treatment (n = 3), and pink represents the +Dox treatment (n = 3). (D) Normalized counts of miR-29 predicted target gene, Pmp22, in the transgenic mouse model. Dark blue represents the –Dox treatment (n = 3), and pink represents the +Dox treatment (n = 3). (E) Normalized counts of miR-29 predicted target gene PMP22 in pediatric CD and NIBD in both tissue types. (F) Correlation of miR-29b (x axis) and PMP22 (y axis) in pediatric ileum samples. Data presented as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001; Student’s t test and Mann-Whitney U test.