@Mathieu_Ferron Here is something that is a bit close to your phenotype https://t.co/W75zTg2NCj
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
El receptor cannabinoide CB1 del islote pancreático media la #inflamación en #diabetes . Un trabajo recientemente publicado en @DiabetologiaJnl de nuestra actual investigadora @Mariecurie_alum Isabel Gonzalez Mariscal !! Enhorabuena!! https://t.co/mxaUA4Z
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
RT @DiabetologiaJnl: Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protec…
Absence of CB1R in pancreatic beta cells allows cell proliferation, increases early-phase insulin secretion and protects against high- fat/ high- sugar diet-induced beta cell dysfunction and intra-islet inflammation #diabetes #cannabinoid https://t.co/KLIx
https://t.co/vuNY4tRo0z Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets. https://t.co/oX3PtjSb4p
Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets. https://t.co/4k1aUDHRjN https://t.co/PLJBb8SnyO
Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets. https://t.co/TwRgPd8tcf