Browsing by Author "Basu, Priyoneel"
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Item Open Access Activation of M1/4 receptors phase advances the hamster circadian clock during the day(Elsevier, 2016-05-16) Basu, Priyoneel; Wensel, Adrienne L; McKibbon, Reid; Lefebvre, Nicole; Antle, Michael CThe mammalian circadian clock in the suprachiasmatic nucleus (SCN) can be reset by the cholinergic agonist carbachol. In hamsters, intraSCN carbachol produces phase advances during the day. This phenomenon has previously been attributed to the muscarinic receptors, as carbachol-induced phase shifts are blocked by pretreatment with the muscarinic antagonist atropine. The SCN contains all five muscarinic receptors, leaving open the question as to which muscarinic receptors mediate these shifts. Here we test two selective muscarinic agonists, the M1/4 agonist McN-A-343 and the M2/3 agonist bethanechol, in addition to the non-selective cholinergic agonist carbachol. Consistent with previous reports, carbachol produced significant phase advances when injected to the SCN during the mid-subjective day. At the doses used here, McN-A-343, but not bethanechol, also produced significant phase shifts when injected to the SCN during the mid-subjective day. Phase shifts to McN-A-343 were as large as those produced by carbachol, suggesting that activation of the M1/4 receptors alone can fully account for the daytime phase advances produced by cholinergic agonists. Given acetylcholine’s role in arousal, and the similarity between phase advances to carbachol/McN-A-343 and to exercise and arousal manipulations, it is possible that acetylcholine may contribute to non-photic resetting of the circadian clock.Item Open Access Phase shifts to light are altered by antagonists to neuropeptide receptors(Elsevier, 2016-07-07) Chan, Ryan K; Sterniczuk, Roxanne; Enkhbold, Yaruuna; Jeffers, Ryan T; Basu, Priyoneel; Duong, Bryan; Chow, Sue-Len; Smith, Victoria M; Antle, Michael CThe mammalian circadian clock in the suprachiasmatic nucleus (SCN) is a heterogeneous structure. Two key populations of cells that receive retinal input and are believed to participate in circadian responses to light are cells that contain vasoactive intestinal polypeptide (VIP) and gastrin-releasing peptide (GRP). VIP acts primarily through the VPAC2 receptor while GRP works primarily through the BB2 receptor. Both VIP and GRP phase shift the circadian clock in a manner similar to light when applied to the SCN, both in vivo and in vitro, indicating that they are sufficient to elicit photic-like phase shifts. However, it is not known if they are necessary signals for light to elicit phase shifts. Here we test the hypothesis that GRP and VIP are necessary signaling components for photic phase shifting the hamster circadian clock by testing two antagonists for each of these neuropeptides. The BB2 antagonist PD176252 had no effect on light-induced delays on its own, while the BB2 antagonist RC-3095 had the unexpected effect of significantly potentiating both phase delays and advances. Neither of the VIP antagonists ([D-p-Cl-Phe6, Leu17]-VIP, or PG99-465) altered phase shifting responses to light on its own. When the BB2 antagonist PD176252 and the VPAC2 antagonist PG99-465 were delivered together to the SCN, phase delays were significantly attenuated. These results indicate that photic phase shifting requires participation of either VIP or GRP, and only when signaling in both pathways is inhibited are phase shifts to light impaired. Additionally, the unexpected potentiation of light induced phase shifts by RC-3095 should be investigated further for potential chronobiotic applications.