Dexamethasone Rescues an Acute High-Fat Diet-Induced Decrease in Human Growth Hormone Gene Expression in Male Partially Humanized CD-1 Mice.

Obesity in puberty, already a time of insulin resistance, increases the risk of developing type 2 diabetes. Human (h) growth hormone (GH) levels also peak during puberty, where it contributes to growth and energy homeostasis through positive effects on maintaining pancreatic β cell mass. Thus, it is important to understand the effects of overeating and obesity on hGH production in puberty. Three days of overeating in young male adults or high-fat diet (HFD) in pubescent male transgenic () CD-1 mice containing the hGH gene () results in excess insulin and a decrease in hGH production. This reduction in these mice occurred during the light phase of the daily cycle, and was associated with decreased availability of the clock-related transcription factor Brain and Muscle ARNT-Like 1 (Bmal1). However, the HFD-induced decrease in expression was blocked by forced daily swim activity, which is expected to increase glucocorticoid (GC) levels. The aim of the study was to assess whether GCs, specifically daily injections with a pharmacological dose of dexamethasone (DEX) in the light or dark phase of the daily cycle, can limit the negative effect of HFD for 3 days on expression in male mice. DEX treatment increased or rescued RNA levels, and was associated with elevated Bmal1 transcripts when assessed 12 h after final treatment, and at a time when serum corticosterone levels were suppressed >90%. In addition, a diet-dependent effect on RNA levels was observed at 36 h after final treatment, but only in the light stage, presumably due to residual effects of DEX treatment and/or recovery of endogenous corticosterone levels. This is the first evidence for a direct effect of GCs on expression and the ability to potentially limit the negative effect of overeating/obesity on hGH production in puberty.