| First Author | Cady G | Year | 2017 |
| Journal | Mol Metab | Volume | 6 |
| Issue | 5 | Pages | 393-405 |
| PubMed ID | 28462074 | Mgi Jnum | J:310279 |
| Mgi Id | MGI:6761646 | Doi | 10.1016/j.molmet.2017.03.001 |
| Citation | Cady G, et al. (2017) Hypothalamic growth hormone receptor (GHR) controls hepatic glucose production in nutrient-sensing leptin receptor (LepRb) expressing neurons. Mol Metab 6(5):393-405 |
| abstractText | OBJECTIVE: The GH/IGF-1 axis has important roles in growth and metabolism. GH and GH receptor (GHR) are active in the central nervous system (CNS) and are crucial in regulating several aspects of metabolism. In the hypothalamus, there is a high abundance of GH-responsive cells, but the role of GH signaling in hypothalamic neurons is unknown. Previous work has demonstrated that the Ghr gene is highly expressed in LepRb neurons. Given that leptin is a key regulator of energy balance by acting on leptin receptor (LepRb)-expressing neurons, we tested the hypothesis that LepRb neurons represent an important site for GHR signaling to control body homeostasis. METHODS: To determine the importance of GHR signaling in LepRb neurons, we utilized Cre/loxP technology to ablate GHR expression in LepRb neurons (Lepr(EYFPDeltaGHR)). The mice were generated by crossing the Lepr(cre) on the cre-inducible ROSA26-EYFP mice to GHR(L/L) mice. Parameters of body composition and glucose homeostasis were evaluated. RESULTS: Our results demonstrate that the sites with GHR and LepRb co-expression include ARH, DMH, and LHA neurons. Leptin action was not altered in Lepr(EYFPDeltaGHR) mice; however, GH-induced pStat5-IR in LepRb neurons was significantly reduced in these mice. Serum IGF-1 and GH levels were unaltered, and we found no evidence that GHR signaling regulates food intake and body weight in LepRb neurons. In contrast, diminished GHR signaling in LepRb neurons impaired hepatic insulin sensitivity and peripheral lipid metabolism. This was paralleled with a failure to suppress expression of the gluconeogenic genes and impaired hepatic insulin signaling in Lepr(EYFPDeltaGHR) mice. CONCLUSION: These findings suggest the existence of GHR-leptin neurocircuitry that plays an important role in the GHR-mediated regulation of glucose metabolism irrespective of feeding. |
