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Volume 8

Journal of Gastrointestinal & Digestive System

ISSN: 2161-069X

Gastro Congress 2018

August 20-21, 2018

August 20-21, 2018 | Rome, Italy

13

th

Euro-Global

Gastroenterology Conference

Childhood colitis aggravates gut barrier impairment via miR-196 when exposed to another episode

of inflammation in adult-life

Qingjie Li

1

, Xiaoying S Zhong

1

, Xiuju Luo

2

, John H Winston

1

, Syed Z Nayeem

1

, Kevin T Kline

1

, Roderick H Dashwood

3

, Tor C Savidge

4

, Yingzi Cong

1

and

Don W Powell

1

1

The University of Texas, USA

2

Central South University, P R China

3

Center for Epigenetics & Disease Prevention - TAMHSC, USA

4

Texas Children's Microbiome Center - BCM, USA

Background & Aims:

Mounting evidence suggests that adverse early-life events influence the perinatal programming and

maturation of the immune system, predisposing the host to complex diseases including inflammatory bowel diseases (IBD).

We hypothesized that neonatal colonic inflammation generates long range epigenetic memory that aggravates epithelial barrier

impairment when exposed to another episode of inflammation in adult-life.

Methods:

Neonatal inflammation (NI) was induced by intra rectal administration of trinitrobenzene sulfonic acid (TNBS, 130

mg/kg) on postnatal day 10. Another dose of TNBS (80 mg/kg) was applied to induce adult inflammation (AI) six weeks after

NI. All 4 groups of rats (Veh+Veh, NI+Veh, Veh+AI, and NI+AI) were euthanized 7 days later.

Results:

InNI+AI rats, we observed an aggravated epithelial damage, evidenced by exacerbated increase in colonic permeability,

when compared with the other three groups of rats (p<0.01). We also tested the double-hit injury strategy in adult 6-week old

rats given 130 mg/kg TNBS. After 6 weeks of remission, another episode of adult inflammation was induced with TNBS (AI+AI

rats). There was no heightened tissue injury in AI+AI vs Veh+Veh, AI+Veh, and Veh+AI rats; noticeably less permeability was

detected when compared to the NI model. Thus, aberrant epithelial damage occurs preferentially after colonic injury in the

neonates. Molecular studies revealed a marginal decrease in Cdh1 mRNA and a significant reduction in E-cadherin protein

in the colon mucosa of NI+AI rats, while Occludin, ZO-1, Claudin 1, Claudin 5, and Claudin 7 remained unchanged. To

investigate the epigenetic mechanism underlying the loss of E-cadherin, we carried out miRNA arrays. miR-139, 196, 547,

and 3596 were significantly upregulated whereas Let-7e, miR-19a, 96 and 101a were markedly repressed in NI+AI vs the other

three groups of rats. Importantly, miR-196 is significantly elevated in patients with Crohn’s disease or colon cancer, indicating

a human clinical correlation. Bioinformatics analysis predicted E-cadherin, a key adhesion molecule involved in gut epithelial

integrity, as a target of miR-196. To determine its role in regulating E-cadherin, we overexpressed miR-196 in HT29 colorectal

cancer cells and found a significant decrease in E-cadherin mRNA and protein (p<0.01). Thus, we postulated that a miR-

196 inhibitor might decrease NI-induced disease susceptibility and might ameliorate epithelial barrier injury in NI+AI rats.

Intervention study with miR-196 inhibitor is currently ongoing.

Conclusions:

Severe neonatal colonic inflammation renders the host susceptible to aggravated epithelial damage in part by

upregulating miR-196, which in turn downregulates E-cadherin, resulting in exacerbated increase in colonic permeability.

miR-196 could serve as a therapeutic target in IBD and colitis-associated colon cancer.

Biography

Qingjie Li, a Molecular Biologist, earned his MS Degree in Chemistry from the Department of Chemistry, Guangxi Normal University in 1991 and a PhD Degree in

Biochemistry and Molecular Biology from the Central South University ( P R China) in 2000. He worked as a Faculty Member at the same university from 1991 to 2000

and as a Postdoctoral Fellow at the Linus Pauling Institute, Oregon State University from 2000 to 2006. In 2007, as an Assistant Professor he joined the University of

Texas Medical Branch at Galveston. He was promoted to Associate Professor in 2018. He has several awards to his credit and has published more than 40 peer-reviewed

research articles, a book chapter, and several gene sequences in GenBank. He has served as a Reviewer for NIH, American Gastroenterological Association, and

numerous journals, including

Gastroenterology

, the most prominent journal in the field of gastrointestinal disease. His research interest include: pathogenesis, molecular

mechanisms, and chemoprevention of inflammatory bowel diseases (IBD) and its comorbidities, including colitis-associated cancer and IBD-associated cardiovascular

disorders.

quli@utmb.edu

Qingjie Li et al., J Gastrointest Dig Syst 2018, Volume 8

DOI: 10.4172/2161-069X-C5-076