352-OR: Regulation of Melanocortin Receptor 4 (MC4R) Ciliary Trafficking

Abstract

The primary cilium, a hair-like projection at the surface of nearly every cell, functions as a signaling antenna in processes as diverse as vision and body weight homeostasis. Obesity is a cardinal symptom of many ciliopathies including Bardet-Biedl Syndrome (BBS). While we are beginning to understand how cilia participate in body weight homeostasis, the molecular pathway that leads to obesity in BBS patients remains unclear. We now know that the melanocortin receptor 4, a GPCR that regulates feeding behavior, localizes to cilia in hypothalamic neurons. Meanwhile, most BBS proteins assemble or regulate the BBSome, a protein complex that removes activated signaling receptors from cilia. To characterize the stimuli and mechanisms that regulate MC4R trafficking in and out of cilia, we recapitulated MC4R trafficking in ciliated cell lines amenable to rapid manipulation. Surprisingly, levels of MC4R in cilia remain under the detection limit in most cells unless treated with an inverse agonist of MC4R. In addition, interference with BBSome function also increases ciliary MC4R levels in all cells. Thus, the tonic activity of MC4R promotes the constitutive clearance of MC4R from cilia via BBSome-mediated exit. These results suggest that artificially increasing the ciliary levels of MC4R may augment its signaling activity. To selectively recognize activated GPCRs, the BBSome relies on specific ubiquitin chains linked at lysine 63 (K63Ub chains) that become attached onto activated GPCRs via β-arrestin-associated ubiquitin ligases. Depletion of β-arrestin blocked the constitutive exit of MC4R from cilia and mutation of ubiquitin acceptor lysines from MC4R and MRAP2 results in a measurable increase in the ciliary levels of MC4R. In addition, targeting a protease that specifically cleaves K63Ub chains to cilia completely blocks the exit of MC4R from cilia. We conclude that the tonically active MC4R is ubiquitinated in cilia and actively removed by the BBSome. Disclosure M.Nachury: None. Funding American Diabetes Association (1-20-VSN-03)