Cannabinoid receptor interacting protein 1a (CRIP1a) is a CB receptor (CBR) distal C-terminal-associated protein that alters CBR interactions with G-proteins. We tested the hypothesis that CRIP1a is capable of also altering CBR interactions with β-arrestin proteins that interact with the CBR at the C-terminus. Coimmunoprecipitation studies indicated that CBR associates in complexes with either CRIP1a or β-arrestin, but CRIP1a and β-arrestin fail to coimmunoprecipitate with each other. This suggests a competition for CRIP1a and β-arrestin binding to the CBR, which we hypothesized could attenuate the action of β-arrestin to mediate CBR internalization. We determined that agonist-mediated reduction of the density of cell surface endogenously expressed CBRs was clathrin and dynamin dependent and could be modeled as agonist-induced aggregation of transiently expressed GFP-CBR. CRIP1a overexpression attenuated CP55940-mediated GFP-CBR as well as endogenous β-arrestin redistribution to punctae, and conversely, CRIP1a knockdown augmented β-arrestin redistribution to punctae. Peptides mimicking the CBR C-terminus could bind to both CRIP1a in cell extracts as well as purified recombinant CRIP1a. Affinity pull-down studies revealed that phosphorylation at threonine-468 of a CBR distal C-terminus 14-mer peptide reduced CBR-CRIP1a association. Coimmunoprecipitation of CBR protein complexes demonstrated that central or distal C-terminal peptides competed for the CBR association with CRIP1a, but that a phosphorylated central C-terminal peptide competed for association with β-arrestin 1, and phosphorylated central or distal C-terminal peptides competed for association with β-arrestin 2. Thus, CRIP1a can compete with β-arrestins for interaction with C-terminal CBR domains that could affect agonist-driven, β-arrestin-mediated internalization of the CBR.
While rates of smoking combustible cigarettes in the United States have trended down in recent years, use of electronic cigarettes (e-cigarettes) has dramatically increased, especially among adolescents. The vast majority of e-cigarette users consume “flavored” products that contain a variety of chemosensory-rich additives, and recent literature suggests that these additives have led to the current “teen vaping epidemic.” This review, covering research from both human and rodent models, provides a comprehensive overview of the sensory implications of e-cigarette additives and what is currently known about their impact on nicotine use. In doing so, we specifically address the oronasal sensory contributions of e-cigarette additives. Finally, we summarize the existing gaps in the field and highlight future directions needed to better understand the powerful influence of these additives on nicotine use.
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