This is plausible because both heterotrimeric G proteins and adenylyl cyclases have been detected on endosomes and there is evidence that endosomes may contribute to a noncanonical mechanism of prolonged 7TMR signaling (Calebiro et al., 2009; Vilardaga et al., 2012). However, it has not been directly determined whether or not internalized 7TMRs can indeed elicit a “conventional” mode of acute G protein-linked signaling from the endosome membrane. This Review attempts to summarize Selleck Compound Library the present understanding of mechanisms

and functional consequences of endocytic membrane trafficking of neuromodulatory 7TMRs, focusing on catecholamine and opioid neuropeptide receptors as important and relatively well characterized examples. There has been significant recent progress in understanding molecular sorting operations that determine the membrane trafficking itinerary of these 7TMRs after

entry Adriamycin price to the endocytic pathway. Much remains unknown about the mechanistic basis of 7TMR sorting, particularly ubiquitylation-independent trafficking to lysosomes and the role of cytoskeletal dynamics in sequence-directed recycling, and little is known about the operation of any specific 7TMR sorting mechanism in neurons. One particularly interesting area for future study concerns the organization of specific 7TMR trafficking mechanisms with respect to the highly differentiated and polarized architecture of neurons. There is already evidence for enhanced endocytosis

of opioid receptors in dendrites after systemic administration of opioid drugs Thymidine kinase (Haberstock-Debic et al., 2003) and for reduced functional desensitization of various 7TMRs including opioid receptors in presynaptic relative to postsynaptic compartments (Wetherington and Lambert, 2002; Pennock et al., 2012). However, much remains to be learned about how 7TMR regulatory machineries are compartmentalized in neurons, and if there are differences in the regulated endocytic trafficking of receptors produced by local compared to global receptor activation. Related to this is the question of which membrane domain(s) are the source of physiologically salient 7TMR signaling. The traditional view is that G protein-linked signaling is restricted to the plasma membrane and based on rapid diffusion of downstream mediators. However, it is increasingly clear that even classical “diffusible” mediators such as cAMP are spatially restricted through local synthesis and destruction (Willoughby et al., 2006), and neuromodulators such as opioid neuropeptides exhibit a limited range of action in neural tissue (Banghart and Sabatini, 2012). Accordingly, the precise subcellular location of 7TMR activation is likely to be an important parameter in neuromodulation, particularly for projection neurons and neurons with extensive dendritic arbors.