MC Antle scite author profile

We studied the influence on circadian rhythms of peptides that have been reported to be colocalized in suprachiasmatic nucleus (SCN) neurons. Gastrin-releasing peptide (GRP1–27), peptide histidine isoleucine (PHI), and vasoactive intestinal polypeptide (VIP) were microinjected into the suprachiasmatic nucleus (SCN) region of Syrian hamsters free running under three different constant lighting conditions. All peptide injections caused phase-dependent phase shifts of hamster locomotor activity rhythms which were unaffected by constant lighting conditions. GRP1–27 (150 pmol) caused large phase delays when injected at circadian times (CT) 12–16, modest phase advances when administered at CT20–24, and few shifts during the subjective day. Injections of saline vehicle at any of these phases caused only very small phase shifts. Phase delays induced by GRP1–27 at CT12–14 were dose dependent, unrelated to injection volume (at a constant dose), and attenuated by pretreatment with the BN/GRP-preferring receptor antagonist BIM 26226. VIP (150 pmol) caused moderate phase delays at CT12–14 and moderate phase advances at CT20–24. PHI (150 pmol) caused moderate phase delays at CT12–14 only. Coadministration of 150 pmol of GRP1–27, PHI, and VIP in an equimolar neuropeptide cocktail (50 pmol of each peptide) caused phase delays at CT12–14 and phase advances at CT20- 24 which did not differ from those induced by 150 pmol of GRP1–27 alone at these phases. The shifts induced by 150 pmol of the peptide cocktail were smaller than the sum of the shifts induced by 50 pmol doses of each peptide administered separately at those phases. Since the phase- delaying effects of the cocktail were weaker than the summed effects of the component 50 pmol doses of the peptides, these data demonstrate a lack of synergism among the effects of these peptides. Since GRP1–27 (150 pmol) evoked shifts similar in magnitude to those of the cocktail, there is no evidence that these apparently colocalized neuropeptides must interact to exert maximal effects on the circadian pacemaker.

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Sleep deprivation stimulates serotonin release in the suprachiasmatic nucleus

Gh¹,

Re²,

Antle³

et al. 2000

NeuroReport

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Recent literature suggests that sleep deprivation has a general stimulatory effect on the central serotonergic system. Herein we report that in hamsters, sleep deprivation induced by gentle handling for 3 h under dim red light at midday stimulates serotonin release in the suprachiasmatic nuclei by as much as 171%. Basal levels of 5-HT release are re-established within 1 h after cessation of treatment. Sleep deprivation also evokes phase advances of the circadian activity rhythm averaging 2 h. When sleep deprivation is undertaken in bright light, serotonin release is stimulated, but phase-shifting is greatly inhibited. It is therefore proposed that if the phase-resetting response to sleep deprivation is mediated by increased serotonin release, light inhibits the phase-resetting effect by blocking the postsynaptic or other downstream actions of serotonin.

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MC Antle

Neuropeptides phase shift the mammalian circadian pacemaker

Sleep deprivation stimulates serotonin release in the suprachiasmatic nucleus

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