Dexamethasone increases jejunal glutamine synthetase expression via translational regulation

Abstract Glutamine provides energy and precursors for nucleotide biosynthesis for the gut mucosa, and it is essential for intestinal metabolism and function. During stress states, glutamine uptake of circulating and luminal glutamine may be diminished, but the ability of the gut mucosa to synthesize glutamine de novo in response to this decreased delivery remains undefined. Since the glucocorticoids play an important role in regulating interorgan glutamine metabolism during catabolic states, we hypothesized that these hormones induce the expression of gut mucosal glutamine synthetase (GS), the enzyme that catalyzes the intracellular biosynthesis of glutamine. Adult rats were treated with dexamethasone (DEX, 0.5 mg/kg intraperitoneally) or saline (controls). At various times after treatment (4, 12, 24, 48, and 72 hours), jejunal mucosal GS-specific activity was assayed, and total RNA was extracted. GS transcripts were detected by Northern blot analysis, using a radiolabeled rat GS cDNA probe. Transcripts were quantitated by phospho-imaging and normalized to β-actin. An anti-GS polyclonal antibody was used to quantitate GS protein concentrations by Western blot analysis. The relative quantities of GS translated were measured using a cell-free protein-synthesizing system (reticulocyte lysate assay). Data were analyzed using analysis of variance and were considered statistically significant for p DEX increased GS activity by 45% 12 hours after administration. Western blot analysis revealed an increase in the concentration of the GS protein in the jejunum of DEX-treated animals. Northern blot analysis demonstrated no significant change in GS mRNA levels after DEX treatment, indicating the possibility of posttranscriptional regulation. In vitro translational experiments demonstrated that the quantity of GS translated was increased by 25% after the administration of DEX. These data suggest that glucocorticoids may increase jejunal mucosal GS levels by accelerating protein translation. This adaptive response could provide ghitamine for the gut mucosa during stress, when exogenous glutamine supplies may be rate limiting.