Transcriptional control of the murine polymeric IgA receptor promoter by glucocorticoids

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Transcriptional control of the murine polymeric IgA receptor promoter by glucocorticoids

Tony W. H. Li¹, Jiafang Wang¹, Jason T. Lam², Edgar M. Gutierrez¹, R. Sergio Solorzano-Vargus³, Hugh V. Tsai¹, and Martín G. Martín¹

¹ Department of Pediatrics, Division of Gastroenterology and Nutrition, and ² Department of Physiology, University of California Los Angeles School of Medicine, Los Angeles 90095-1752; and ³ Department of Biology, California State University, Northridge, California 91330

Glucocorticoids have been implicated as an important regulator of intestinal epithelial cell ontogeny. The polymeric IgA receptor(pIgR) is expressed in the intestinal epithelial layer and isregulated by several mediators, including glucocorticoids. Themechanism of how corticosteroids alter the transcriptional regulationof pIgR expression has not been defined. In this study, we demonstratedthat glucocorticoids upregulate steady-state pIgR mRNA levelsin the proximal intestine of suckling rats and in the IEC-6 intestinalcell line. We performed functional analysis of the 5'-flankingregion in the presence of glucocorticoids and its receptor usingthe intestinal cell line Caco-2. We screened 4.7 kb of the upstreamregion of the murine gene and identified the most potent steroidresponse element to reside between nt $-$ 215 and $-$ 163 relative tothe start of transcription. Substitution mutation analysis ofthis region identified the location of the putative steroid responseelement to be between nt $-$ 195 and $-$ 176. In vitro DNase I footprintanalysis using the recombinant glucocorticoid receptor DNA bindingdomain confirmed a single area of protection that spans the ntidentified by mutagenesis analysis. Electrophoretic mobility shiftassays of the putative element confirmed the binding of both recombinantand cell synthesized glucocorticoid receptor in a specific manner.In summary, we report the identification and characterizationof the glucocorticoid-DNA response element located in the immediate5'-upstream region of the murine pIgRgene.

ontogeny; secretory component; immunoglobulin A; mucosa; intestine

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