Litcius/Paper detail

Peripheral-specific Y1 receptor antagonism increases thermogenesis and protects against diet-induced obesity

Chenxu Yan, Tianshu Zeng, Kailun Lee, Max Nobis, Kim Loh, Luoning Gou, Zefeng Xia, Zhong‐Min Gao, Mohammed Bensellam, William E. Hughes, Jackie Lau, Lei Zhang, Chi Kin Ip, Ronaldo F. Enriquez, Hanyu Gao, Qiao‐Ping Wang, Qi Wu, Jody J. Haigh, D. Ross Laybutt, Paul Timpson, Herbert Herzog, Yan‐Chuan Shi

2021Nature Communications60 citationsDOIOpen Access PDF

Abstract

Obesity is caused by an imbalance between food intake and energy expenditure (EE). Here we identify a conserved pathway that links signalling through peripheral Y1 receptors (Y1R) to the control of EE. Selective antagonism of peripheral Y1R, via the non-brain penetrable antagonist BIBO3304, leads to a significant reduction in body weight gain due to enhanced EE thereby reducing fat mass. Specifically thermogenesis in brown adipose tissue (BAT) due to elevated UCP1 is enhanced accompanied by extensive browning of white adipose tissue both in mice and humans. Importantly, selective ablation of Y1R from adipocytes protects against diet-induced obesity. Furthermore, peripheral specific Y1R antagonism also improves glucose homeostasis mainly driven by dynamic changes in Akt activity in BAT. Together, these data suggest that selective peripheral only Y1R antagonism via BIBO3304, or a functional analogue, could be developed as a safer and more effective treatment option to mitigate diet-induced obesity.

Topics & Concepts

ThermogenesisAntagonismBrown adipose tissueEndocrinologyInternal medicineAdipose tissueWhite adipose tissuePeripheralEnergy homeostasisBiologyDiet-induced obeseThermogeninReceptorAntagonistObesityChemistryMedicineInsulin resistanceAdipose Tissue and MetabolismCardiovascular Disease and AdiposityExercise and Physiological Responses