The metabolic effects of mirabegron are mediated primarily by β 3 -adrenoceptors

The β -adrenoceptor agonist mirabegron is approved for use for overactive bladder and has been purported to be useful in the treatment of obesity-related metabolic diseases in humans, including those involving disturbances of glucose homeostasis. We investigated the effect of mirabegron on glucose h...

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Bibliographic Details
Published in:Pharmacology research & perspectives 2020-10, Vol.8 (5), p.e00643
Main Authors: Dehvari, Nodi, Sato, Masaaki, Bokhari, Muhammad Hamza, Kalinovich, Anastasia, Ham, Seungmin, Gao, Jie, Nguyen, Huong T M, Whiting, Lynda, Mukaida, Saori, Merlin, Jon, Chia, Ling Yeong, Wootten, Denise, Summers, Roger J, Evans, Bronwyn A, Bengtsson, Tore, Hutchinson, Dana S
Format: Article
Language:English
Subjects:
Acetanilides - administration & dosage
Acetanilides - pharmacology
Adenosine Monophosphate - metabolism
Adipocytes
Adipocytes, Beige - drug effects
Adipocytes, Beige - metabolism
Adipocytes, Brown - drug effects
Adipocytes, Brown - metabolism
Adrenergic beta-3 Receptor Agonists - administration & dosage
Adrenergic beta-3 Receptor Agonists - pharmacology
Adrenergic receptors
Animals
Cell culture
Cells, Cultured
CHO Cells
Cricetulus
Deoxyglucose - metabolism
Ethics
Experiments
Gene expression
Gene Knockout Techniques
Glucose
Glycolysis - drug effects
Insulin
Male
Metabolic disorders
Mice
Obesity
Oxygen - metabolism
Pharmacology
Proteins
Thermogenesis
Thiazoles - administration & dosage
Thiazoles - pharmacology
Uncoupling Protein 1 - genetics
Weight control
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Summary:The β -adrenoceptor agonist mirabegron is approved for use for overactive bladder and has been purported to be useful in the treatment of obesity-related metabolic diseases in humans, including those involving disturbances of glucose homeostasis. We investigated the effect of mirabegron on glucose homeostasis with in vitro and in vivo models, focusing on its selectivity at β-adrenoceptors, ability to cause browning of white adipocytes, and the role of UCP1 in glucose homeostasis. In mouse brown, white, and brite adipocytes, mirabegron-mediated effects were examined on cyclic AMP, UCP1 mRNA, [ H]-2-deoxyglucose uptake, cellular glycolysis, and O consumption. Mirabegron increased cyclic AMP levels, UCP1 mRNA content, glucose uptake, and cellular glycolysis in brown adipocytes, and these effects were either absent or reduced in white adipocytes. In brite adipocytes, mirabegron increased cyclic AMP levels and UCP1 mRNA content resulting in increased UCP1-mediated oxygen consumption, glucose uptake, and cellular glycolysis. The metabolic effects of mirabegron in both brown and brite adipocytes were primarily due to actions at β -adrenoceptors as they were largely absent in adipocytes derived from β -adrenoceptor knockout mice. In vivo, mirabegron increased whole body oxygen consumption, glucose uptake into brown and inguinal white adipose tissue, and improved glucose tolerance, all effects that required the presence of the β -adrenoceptor. Furthermore, in UCP1 knockout mice, the effects of mirabegron on glucose tolerance were attenuated. Thus, mirabegron had effects on cellular metabolism in adipocytes that improved glucose handling in vivo, and were primarily due to actions at the β -adrenoceptor.
ISSN:2052-1707
2052-1707
DOI:10.1002/prp2.643