Abstract
In vitro experiments using rodent skeletal muscle cells suggest that neuregulin 1 (NRG1) is involved in glucose metabolism regulation, although no study has evaluated the role of NRG1 in systemic glucose homeostasis. The purpose of this study was to investigate the effect of chronic and acute NRG1 treatment on glucose homeostasis in db/db mice. To this aim, glucose tolerance tests were performed in 8-week-old male db/db mice after treatment with NRG1 (50μg.kg-1) or saline 3 times per week for 8 weeks. In other experiments, glucose tolerance and pyruvate tolerance tests were performed in db/db mice 15 minutes after a single NRG1 (50μg.kg-1) or saline injection. Liver, adipose tissue, hypothalamus and skeletal muscle were also collected 30 minutes after acute NRG1 (50μg.kg-1) or saline treatment, and the phosphorylation status of the ERBB receptors, AKT (on Ser473) and FOXO1 (on Ser256) was assessed by western blotting. Chronic treatment (8 weeks) with NRG1 improved glucose tolerance in db/db mice. Acute treatment also lowered glycemia and insulinemia during glucose or pyruvate tolerance tests. NRG1 acute injection induced activation of ERBB3 receptors and phosphorylation of AKT and FOXO1 only in liver. Altogether, this study shows that acute and chronic NRG1 treatments improve glucose tolerance in db/db mice. This effect could be mediated through inhibition of hepatic gluconeogenesis.
Highlights
Neuregulins belong to the large epidermal growth factors (EGF) family of proteins
At the end of the treatment period, our results showed that chronic treatment did not affect body weight (VHL: 46.6 ± 1.3g and neuregulin 1 (NRG1): 45.8 ± 1.9g) and food intake (VHL: 42.8 ± 3.3g.week-1 and NRG1: 42.3 ± 1.9g.week-1)
We show that acute injection of NRG1 improves glucose tolerance in db/db mice
Summary
Neuregulins belong to the large epidermal growth factors (EGF) family of proteins. They are four structurally related genes (NRG1-4) that encode many different isoforms characterized by the presence of an EGF-like domain that mediates their biological activity and binding to the v-erb-b2 avian erythroblastic leukemia viral oncogene homologs 3 and 4 (ERBB3 and 4) [1, 2]. NRG1 binding induces homo- or hetero-dimerization of ERBB receptors, leading to the activation of downstream phosphorylation cascades [2,3,4,5,6]. NRG1 isoforms play essential roles in growth, differentiation and survival of nerve, cardiac and skeletal muscle tissues [2, 7,8,9]. PLOS ONE | DOI:10.1371/journal.pone.0130568 July 31, 2015
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