Mμ-opioid receptors and dietary protein stimulate a gut-brain neural circuitry limiting food intake
Duraffourd C, De Vadder F, Goncalves D, et al. Mμ-opioid receptors and dietary protein stimulate a gut-brain neural circuitry limiting food intake. Cell. 2012;150:377-388.
Is intestinal gluconeogenesis a key factor in the early changes in glucose homeostasis following gastric bypass?
21547404 10.1007/s11695-011-0380-7
Hayes MT, Foo J, Besic V, et al. Is intestinal gluconeogenesis a key factor in the early changes in glucose homeostasis following gastric bypass? Obes Surg. 2011;21:759-62.
Mithieux G, Misery P, Magnan C, et al. Portal sensing of intestinal gluconeogenesis is a mechanistic link in the diminution of food intake induced by diet protein. Cell Metab. 2005;2:321-9.
Mithieux G, Andreelli F, Magnan C. Intestinal gluconeogenesis: key signal of central control of energy and glucose homeostasis. Curr Opin Clin Nutr Metab Care. 2009;12:419-23. Review.
Pillot B, Soty M, Gautier-Stein A, et al. Protein feeding promotes redistribution of endogenous glucose production to the kidney and potentiates its suppression by insulin. Endocrinology. 2009;150:616-24.
Troy S, Soty M, Ribeiro L, et al. Intestinal gluconeogenesis is a key factor for early metabolic changes after gastric bypass by not after gastric lap-band in mice. Cell Metab. 2008;8:201-11.