Glucose uptake and homeostasis are regulated mainly by skeletal muscle (SM), white adipose tissue (WAT), pancreas, and the liver. Participation of estradiol in this regulation is still under intense investigation. We have demonstrated that, in SM of male mice, expression of the insulin-regulated glucose transporter (GLUT)4 is reduced by estrogen receptor (ER)β agonists. In the present study, to investigate the relative contributions of ERα and ERβ in glucose homeostasis, we examined the effects of tamoxifen (Tam) on GLUT4 expression in SM and WAT in wild-type (WT) and ER−/− mice. ERβ−/− mice were characterized by fasting hypoglycemia, increased levels of SM GLUT4, pancreatic islet hypertrophy, and a belated rise in plasma insulin in response to a glucose challenge. ERα−/− mice, on the contrary, were hyperglycemic and glucose intolerant, and expression of SM GLUT4 was markedly lower than in WT mice. Tam had no effect on glucose tolerance or insulin sensitivity in WT mice. In ERα−/− mice, Tam increased GLUT4 and improved insulin sensitivity. i.e., it behaved as an ERβ antagonist in SM but had no effect on WAT. In ERβ−/− mice, Tam did not affect GLUT4 in SM but acted as an ERα antagonist in WAT, decreasing GLUT4. Thus, in the interplay between ERα and ERβ, ERβ-mediated repression of GLUT4 predominates in SM but ERα-mediated induction of GLUT4 predominates in WAT. This tissue-specific difference in dominance of one ER over the other is reflected in the ratio of the expression of the two receptors. ERα predominates in WAT and ERβ in SM.
Palmitic acid feeding increases ceramide supply in association with increased milk yield, circulating nonesterified fatty acids, and adipose tissue responsiveness to a glucose challenge