Activation of  3 adrenergic receptors on the surface of adipocytes leads to increases in intracellular cAMP and stimulation of lipolysis. In brown adipose tissue, this serves to upregulate and activate the mitochondrial uncoupling protein 1, which mediates a proton conductance pathway that uncouples oxidative phosphorylation, leading to a net increase in energy expenditure. While chronic treatment with  3 agonists in nonprimate species leads to uncoupling protein 1 up-regulation and weight loss, the relevance of this mechanism to energy metabolism in primates, which have much lower levels of brown adipose tissue, has been questioned. With the discovery of L-755,507, a potent and selective partial agonist for both human and rhesus  3 receptors, we now demonstrate that acute exposure of rhesus monkeys to a  3 agonist elicits lipolysis and metabolic rate elevation, and that chronic exposure increases uncoupling protein 1 expression in rhesus brown adipose tissue. These data suggest a role for  3 agonists in the treatment of human obesity.
The beta 2 adrenergic receptor (beta 2AR) plays a key role in the signal transduction mechanism for epinephrine and norepinephrine. The gene for beta 2 adrenergic receptors has been cloned for several species, but has remained undetermined for rhesus monkey. In this study, we report the isolation of the gene encoding the rhesus beta 2AR from both cDNA and genomic DNA sources. Sequence analysis of the gene reveals an intronless open reading frame that encodes a 415-amino-acid protein. The rhesus receptor is highly homologous to that from other species, especially to the human receptor (97% sequence identity). Functional characterization by ligand binding and agonist-mediated cAMP accumulation indicates that the rhesus beta 2 receptor shares a very similar pharmacological profile with the human beta 2 receptor. Therefore, the rhesus monkey represents a valid animal model for developing therapeutic agents targeted at the corresponding human beta 2 receptor.
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