Morphological and biochemical alterations in the jejunum following iodoacetamide-induced colitis in rats.

This study aims to describe the morphological alterations in the small and large intestines as well as the expression of some enterocyte enzymes and carriers in a rat model of iodoacetamide-induced colitis. Biopsies from the large and small intestines were taken at 1, 2, 4, 8, and 16 days postinduction and studied by light microscopy. The expressions of lactase, sucrase, aminopeptidase, and Glut-5 in the jejunum were studied by immunohistochemistry. Gene expressions of enterocyte lactase and sucrase were determined by RT-PCR using specific oligonucleotides. Microscopic examination of the large intestines revealed manifestations concordant with inflammation. Such alterations peaked at 2 days, were maintained to a lesser extent for 4 days, regressed by 8 days, and healed by 16 days. In the jejunum, the expression of lactase, sucrase, and aminopeptidase decreased 2 days after colitis induction, and recovered 2 days later. Similarly, Glut-5 expression decreased transiently with partial recovery by day 8. Compared with sham, gene expression of jejunal brush border enzymes sucrase and lactase showed a 4-fold increase in lactase and a 9-fold increase in sucrase after 4 days. We conclude that colitis can induce significant functional abnormalities in distant noninflamed small bowel regions.

[1]  M. Kedinger,et al.  Changing intestinal connective tissue interactions alters homeobox gene expression in epithelial cells. , 1997, Journal of cell science.

[2]  S. Henning,et al.  Development and tissue distribution of sucrase-isomaltase mRNA in rats. , 1990, The American journal of physiology.

[3]  N. Rayhorn,et al.  Inflammatory bowel disease: symptoms in the bowel and beyond. , 2002, The Nurse practitioner.

[4]  D. Nelson,et al.  Small-intestinal and Gastric Abnormalities in Ulcerative Colitis , 1965, British medical journal.

[5]  N. Jankey,et al.  Small intestinal histochemical and histological changes in ulcerative colitis. , 1969, Gut.

[6]  R. Willén,et al.  The effect of exogenous administration of Lactobacillus reuteri R2LC and oat fiber on acetic acid-induced colitis in the rat. , 1993, Scandinavian journal of gastroenterology.

[7]  J. Zittoun,et al.  [Functional, morphological and biochemical study of the jejunal mucosa in cryptogenetic colitis]. , 1984, Gastroentérologie Clinique et Biologique.

[8]  J. Levine,et al.  Extraintestinal considerations in inflammatory bowel disease. , 1995, Gastroenterology clinics of North America.

[9]  D. Bushinsky,et al.  Increased sensitivity to 1,25(OH)2D3 in bone from genetic hypercalciuric rats. , 1996, The American journal of physiology.

[10]  S. Szabó,et al.  Sulfhydryl compounds may mediate gastric cytoprotection. , 1981, Science.

[11]  J. Wallace,et al.  Hapten-induced model of chronic inflammation and ulceration in the rat colon. , 1989, Gastroenterology.

[12]  T. Ptak,et al.  Jejunal absorption of water and electrolytes in inflammatory bowel disease. , 1970, The Journal of laboratory and clinical medicine.

[13]  Xing,et al.  Altered myoelectrical activity in noninflamed ileum of rats with colitis induced by trinitrobenzene sulphonic acid , 1999, Neurogastroenterology and motility : the official journal of the European Gastrointestinal Motility Society.

[14]  T. Tanaka,et al.  Sucrase-isomaltase and hexose transporter gene expressions are coordinately enhanced by dietary fructose in rat jejunum. , 1999, The Journal of nutrition.

[15]  K. Mchugh,et al.  Experimental colitis alters myenteric nerve function at inflamed and noninflamed sites in the rat. , 1995, Gastroenterology.

[16]  R. Jagenburg,et al.  Absorption studies in patients with Crohn's disease and in patients with ulcerative colitis. , 2009, Acta medica Scandinavica.

[17]  C. Andrews,et al.  Sucrase-isomaltase expression in chronic ulcerative colitis and dysplasia. , 1992, Human pathology.

[18]  M. De Brabander,et al.  Measurement of in vivo rectal mucosal cytokine and eicosanoid production in ulcerative colitis using filter paper , 2000, Gut.

[19]  R. Riddell,et al.  Morphologic criteria applicable to biopsy specimens for effective distinction of inflammatory bowel disease from other forms of colitis and of Crohn's disease from ulcerative colitis. , 1999, Scandinavian journal of gastroenterology.

[20]  J. Schulzke,et al.  Altered tight junction structure contributes to the impaired epithelial barrier function in ulcerative colitis. , 1999, Gastroenterology.

[21]  N. Read,et al.  Studies on the mechanism of bowel disturbance in ulcerative colitis. , 1987, Gastroenterology.

[22]  K. Chakravarti,et al.  A study of intestinal function and morphology in nonspecific ulcerative colitis in acute phase and remission in India , 1973, The American Journal of Digestive Diseases.

[23]  K. Sharkey,et al.  c-Fos expression in the myenteric plexus, spinal cord and brainstem following injection of formalin in the rat colonic wall. , 1999, Journal of the autonomic nervous system.

[24]  K. Mchugh,et al.  The mechanism of altered neural function in a rat model of acute colitis. , 1997, Gastroenterology.

[25]  S. Szabó,et al.  New ulcerative colitis model induced by sulfhydryl blockers in rats and the effects of antiinflammatory drugs on the colitis. , 1997, Japanese journal of pharmacology.

[26]  L. Symons Epithelia cell mitosis and morphology in worm-free regions of the intestines of the rat infected by Nippostrongylus brasiliensis. , 1978, The Journal of parasitology.

[27]  M. Abreu The pathogenesis of inflammatory bowel disease: Translational implications for clinicians , 2002, Current gastroenterology reports.

[28]  R. Baldassano,et al.  Lamina propria and circulating interleukin-6 in newly diagnosed pediatric inflammatory bowel disease patients. , 2002 .

[29]  E. Richter,et al.  Biochemical and functional characterization of the GLUT5 fructose transporter in rat skeletal muscle. , 1998, The Biochemical journal.

[30]  C. Arvanitakis Abnormalities of jejunal mucosal enzymes in ulcerative colitis and Crohn's disease. , 1979, Digestion.

[31]  J. Hugot,et al.  Molecular cloning and characterization of a rat intestinal sucrase-isomaltase cDNA. Regulation of sucrase-isomaltase gene expression by sucrose feeding. , 1990, Biochimica et biophysica acta.

[32]  D. McGill,et al.  Incidence of lactase deficiency in ulcerative colitis. , 1967, Gastroenterology.

[33]  N. Saadé,et al.  Inhibitory effect of experimental colitis on fluid absorption in rat jejunum: role of the enteric nervous system, VIP, and nitric oxide. , 2006, American journal of physiology. Gastrointestinal and liver physiology.

[34]  I. Hirata,et al.  Immunohistological characterization of intraepithelial and lamina propria lymphocytes in control ileum and colon and in inflammatory bowel disease , 1986, Digestive Diseases and Sciences.

[35]  S. Szabó,et al.  Experimental colitis decreases rat jejunal amino acid absorption: role of capsaicin sensitive primary afferents. , 2001, Life sciences.

[36]  D. Perlmutter,et al.  Regulation of Sucrase-Isomaltase Gene Expression in Human Intestinal Epithelial Cells by Inflammatory Cytokines (*) , 1996, The Journal of Biological Chemistry.

[37]  C. Elson,et al.  Kinetics of cytokine expression during healing of acute colitis in mice. , 1996, The American journal of physiology.

[38]  M. Blennerhassett,et al.  Damage to the enteric nervous system in experimental colitis. , 1999, The American journal of pathology.

[39]  F. Raul,et al.  Separation and characterization of intestinal brush border enzymes in adult rats and in suckling rats under normal conditions and after hydrocortisone injections. , 1978, Enzyme.

[40]  L. Zetzel,et al.  II. Intestinal absorption of an amino-acid mixture in patients with chronic idiopathic ulcerative colitis and entero-colitis , 1942 .

[41]  E. Danielsen Post-translational suppression of expression of intestinal brush border enzymes by fructose. , 1989, The Journal of biological chemistry.

[42]  F. Dickey,et al.  Functional disturbance of the small intestine in chronic idiopathic ulcerative colitis , 1942 .

[43]  E. Montgomery,et al.  Histopathology of Ulcerative Colitis in Initial Rectal Biopsy in Children , 2002, The American journal of surgical pathology.

[44]  K. Karlinger,et al.  The epidemiology and the pathogenesis of inflammatory bowel disease. , 2000, European journal of radiology.

[45]  J. Reimund,et al.  Animal models of inflammatory bowel disease. , 2004, Journal of pharmacological and toxicological methods.

[46]  C. Foltzer-Jourdainne,et al.  Cytokine gene expression during postnatal small intestinal development: regulation by glucocorticoids , 2000, Gut.

[47]  E. Mazzon,et al.  Experimental colitis increases small intestine permeability in the rat. , 1999, Laboratory investigation; a journal of technical methods and pathology.

[48]  J. Grandis,et al.  Selective jejunal manipulation causes postoperative pan-enteric inflammation and dysmotility. , 2004, Gastroenterology.