Abstract
The cannabinoid 1 (CB1) receptor regulates appetite and body weight; however, unwanted central side effects of both agonists (in wasting disorders) or antagonists (in obesity and diabetes) have limited their therapeutic utility. At the peripheral level, CB1 receptor activation impacts the energy balance of mammals in a number of different ways: inhibiting satiety and emesis, increasing food intake, altering adipokine and satiety hormone levels, altering taste sensation, decreasing lipolysis (fat break down), and increasing lipogenesis (fat generation). The CB1 receptor also plays an important role in the gut–brain axis control of appetite and satiety. The combined effect of peripheral CB1 activation is to promote appetite, energy storage, and energy preservation (and the opposite is true for CB1 antagonists). Therefore, the next generation of CB1 receptor medicines (agonists and antagonists, and indirect modulators of the endocannabinoid system) have been peripherally restricted to mitigate these issues, and some of these are already in clinical stage development. These compounds also have demonstrated potential in other conditions such as alcoholic steatohepatitis and diabetic nephropathy (peripherally restricted CB1 antagonists) and pain conditions (peripherally restricted CB1 agonists and FAAH inhibitors). This review will discuss the mechanisms by which peripheral CB1 receptors regulate body weight, and the therapeutic utility of peripherally restricted drugs in the management of body weight and beyond.
Highlights
A well characterized feature of cannabis use is the stimulation of appetite and suppression of nausea
This review will discuss the mechanisms by which peripheral cannabinoid 1 (CB1) receptors regulate body weight, and the therapeutic utility of peripherally restricted drugs in the management of body weight, and in novel therapeutic areas such as chronic kidney disease, pulmonary fibrogenesis, pain, and bladder disorders
Drug discovery efforts to develop CB1 agonists and antagonists were hampered by CNS-mediated side effects of these drugs
Summary
A well characterized feature of cannabis use is the stimulation of appetite and suppression of nausea This effect of cannabis was thought to be primarily mediated by the phytocannabinoid ∆9-tetrahydrocannabinol (THC) binding to the CB1 receptor in key areas of the brain that regulate feeding and nausea including the hypothalamus (feeding), dorsal vagal complex and insular cortex (nausea), and nucleus accumbens and limbic areas (reward and motivation aspects of feeding) [1,2]. For this reason, cannabis has been used to treat the loss of appetite and body weight in several disorders. The role of CB1 receptor signaling in the central control of feeding have been reviewed elsewhere [1,19]
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