Decreased Expression of Enterocyte Nutrient Assimilation Genes and Proteins in the Small Intestine of Cystic Fibrosis Mouse

Abstract

Cystic fibrosis (CF) has major effects on the intestinal tract with potential consequences on nutrition, but these are not fully understood. I investigated the possibility of altered enterocyte maturation in CF, as suggested by decreased enterocyte nutrient assimilation gene expression in published transcriptome analysis of the small intestine of CF mouse. In CF and wild-type (WT) mice, enterocyte gene/protein expression was analyzed by quantitative realtime polymerase chain reaction (qRT-PCR), enzyme histochemistry, immunohistochemistry, and Western blot. One group of mice was maintained on a control liquid diet; to manipulate the gut microbiota, a second group was treated with oral antibiotics; to improve hydration of the gut lumen, a third group was given a laxative drinking solution. On the control diet in the CF intestine, there were decreased levels (67%-85% reduction of WT levels) of enterocyte genes/proteins. Antibiotics did not normalize the expression of enterocyte markers in the CF mouse. In contrast, the laxative treatment of CF mice significantly increased expression to near WT levels. These studies suggest that the environment of the CF intestinal lumen plays a role in reduced maturation of enterocytes. Because changing the gut lumen environment can affect enterocyte maturation, this is not a cell-autonomous effect of loss of CF transmembrane conductance regulator.