Original Article
Copyright ©2012 Baishideng Publishing Group Co., Limited. All rights reserved.
World J Gastroenterol. Jun 7, 2012; 18(21): 2619-2629
Published online Jun 7, 2012. doi: 10.3748/wjg.v18.i21.2619
Juvenile ferric iron prevents microbiota dysbiosis and colitis in adult rodents
Chourouk Ettreiki, Pascale Gadonna-Widehem, Irène Mangin, Moïse Coëffier, Carine Delayre-Orthez, Pauline M Anton
Chourouk Ettreiki, Pascale Gadonna-Widehem, Carine Delayre-Orthez, Pauline M Anton, Egeal Unit, LaSalle Beauvais Polytechnic Institute, 60026 Beauvais, France
Irène Mangin, Biology Lab, National Conservatory of Arts and Crafts, 75003 Paris, France
Moïse Coëffier, INSERM UMR 1073, School of Medicine, Rouen University, 76183 Rouen, France
Author contributions: Ettreiki C carried out research; Gadonna-Widehem P and Mangin I both carried out the microbiota experiments; Delayre-Orthez C designed the experiments; Anton PM supervised the study, designed the experiments; all authors analysed data, and prepared, read and approved the final manuscript.
Supported by Institut Polytechnique LaSalle Beauvais
Correspondence to: Pauline M Anton, Associate Professor, EGEAL Unit, LaSalle Beauvais Polytechnic Institute, 19 rue Pierre Waguet, BP 30313, 60026 Beauvais, France. pauline.anton@lasalle-beauvais.fr
Telephone: +33-3-44063868 Fax: +33-3-44062526
Received: January 25, 2012
Revised: March 25, 2012
Accepted: April 9, 2012
Published online: June 7, 2012
Abstract

AIM: To assess whether juvenile chronic ferric iron ingestion limit colitis and dysbiosis at adulthood in rats and mice.

METHODS: Two sets of experiments were designed. In the first set, recently weaned mice were either orally administered ferrous (Fe2+) iron salt or ferric (Fe3+) microencapsulated iron for 6 wk. The last week of experiments trinitrobenzene sulfonic acid (TNBS) colitis was induced. In the second set, juvenile rats received the microencapsulated ferric iron for 6 wk and were also submitted to TNBS colitis during the last week of experiments. In both sets of experiments, animals were sacrificed 7 d after TNBS instillation. Severity of the inflammation was assessed by scoring macroscopic lesions and quantifying colonic myeloperoxidase (MPO) activity. Alteration of the microflora profile was estimated using quantitative polymerase chain reaction (qPCR) by measuring the evolution of total caecal microflora, Bacteroidetes, Firmicutes and enterobacteria.

RESULTS: Neither ferrous nor ferric iron daily exposures at the juvenile period result in any effect in control animals at adulthood although ferrous iron repeated administration in infancy limited weight gain. Ferrous iron was unable to limit the experimental colitis (1.71 ± 0.27 MPO U/mg protein vs 2.47 ± 0.22 MPO U/mg protein in colitic mice). In contrast, ferric iron significantly prevented the increase of MPO activity (1.64 ± 0.14 MPO U/mg protein) in TNBS-induced colitis. Moreover, this positive effect was observed at both the doses of ferric iron used (75 and 150 mg/kg per day po - 6 wk). In the study we also compared, in both rats and mice, the consequences of chronic repeated low level exposure to ferric iron (75 mg/kg per day po - 6 wk) on TNBS-induced colitis and its related dysbiosis. We confirmed that ferric iron limited the TNBS-induced increase of MPO activity in both the rodent species. Furthermore, we assessed the ferric iron incidence on TNBS-induced intestinal microbiota dysbiosis. At first, we needed to optimize the isolation and quantify DNA copy numbers using standard curves to perform by qPCR this interspecies comparison. Using this approach, we determined that total microflora was similar in control rats and mice and was mainly composed of Firmicutes and Bacteroidetes at a ratio of 10/1. Ferric juvenile administration did not modify the microflora profile in control animals. Total microflora numbers remained unchanged whichever experimental conditions studied. Following TNBS-induced colitis, the Firmicutes/Bacteroidetes ratio was altered resulting in a decrease of the Firmicutes numbers and an increase of the Bacteroidetes numbers typical of a gut inflammatory reaction. In parallel, the subdominant population, the enterobacteria was also increased. However, ferric iron supplementation for the juvenile period prevented the increase of Bacteroidetes and of enterobacteria numbers consecutive to the colitis in both the studied species at adulthood.

CONCLUSION: Rats and mice juvenile chronic ferric iron ingestion prevents colitis and dysbiosis at adulthood as assessed by the first interspecies comparison.

Keywords: Chronic ferric iron supplementation; Experimental colitis; Microflora dysbiosis; Rat; Mice