SCN Outputs and the Hypothalamic Balance of Life

Kalsbeek, Andries; Palm, I.F.; Fleur, Susanne E. la; Scheer, Frank A.J.L.; Perreau-Lenz, Stéphanie; Ruiter, Marijke; Kreier, Felix; Cailotto, Cathy; Buijs, R.M.

doi:10.1177/0748730406293854

Cited by 403 publications

(312 citation statements)

References 72 publications

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“…1) for how melatonin is released from the pineal gland [16,[20][21][22]: the circadian clock in the suprachiasmatic nucleus is more active during the day than at night. The neurons in the suprachiasmatic nucleus release γ-aminobutyric acid (GABA) to inhibit the activity of neurons in the paraventricular nucleus.…”

Section: Pineal Secretion Of Melatoninmentioning

confidence: 99%

Melatonin receptors in pancreatic islets: good morning to a novel type 2 diabetes gene

et al. 2009

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Melatonin is a circulating hormone that is primarily released from the pineal gland. It is best known as a regulator of seasonal and circadian rhythms; its levels are high during the night and low during the day. Interestingly, insulin levels also exhibit a nocturnal drop, which has previously been suggested to be controlled, at least in part, by melatonin. This regulation can be explained by the proposed inhibitory action of melatonin on insulin release. Indeed, both melatonin receptor 1A (MTNR1A) and MTNR1B are expressed in pancreatic islets. The role of melatonin in the regulation of glucose homeostasis has been highlighted by three independent publications based on genome-wide association studies of traits connected with type 2 diabetes, such as elevated fasting glucose, and, subsequently, of the disease itself. The studies demonstrate a link between variations in the MTNR1B gene, hyperglycaemia, impaired early phase insulin secretion and beta cell function. The risk genotype predicts the future development of type 2 diabetes. Carriers of the risk genotype exhibit increased expression of MTNR1B in islets. This suggests that these individuals may be more sensitive to the actions of melatonin, leading to impaired insulin secretion. Blocking the inhibition of insulin secretion by melatonin may be a novel therapeutic avenue for type 2 diabetes.

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Section: Pineal Secretion Of Melatoninmentioning

confidence: 99%

Melatonin receptors in pancreatic islets: good morning to a novel type 2 diabetes gene

et al. 2009

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“…The SCN can control the molecular clocks in peripheral tissues through sympathetic and parasympathetic pathways (Kalsbeek et al 2006). These clocks are also redundantly regulated and coordinated through circadian physiology Brown et al 2002;Kornmann et al 2007).…”

Section: A Hypothetical Model Of the Interactions Between Circadian Tmentioning

confidence: 99%

Cross-talks between Circadian Timing System and Cell Division Cycle Determine Cancer Biology and Therapeutics

Lévi

Filipski²,

Iurisci³

et al. 2007

Cold Spring Harbor Symposia on Quantitative Biology

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“…During deep torpor, energetically expensive cellular processes such as transcription and translation are severely depressed, and physiological functions such as heart rate, respiration, immune and renal functions, and neural activity run at greatly reduced rates (1,2). The circadian system temporally coordinates internal biological processes with each other and with the environment to ensure health and survival (6)(7)(8). Circadian rhythms are temperature-compensated and run at a relatively constant pace under various temperatures (6).…”

mentioning

confidence: 99%

“…Although several studies have addressed this question (10)(11)(12)(13)(14)(15)(16)(17)(18)(19)(20)(21)(22), uncertainty prevails because clock outputs rather than the core clockwork machinery were examined. In mammals, the master circadian clock is located in the suprachiasmatic nucleus of the hypothalamus (SCN) (6)(7)(8). Circadian oscillations within the SCN neurons result from the recurrent expression of so-called clock genes that interact in complex, interlocked transcription/translation feedback loops (6,7).…”

mentioning

confidence: 99%

The circadian clock stops ticking during deep hibernation in the European hamster

Revel

Herwig

Garidou

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

126

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Hibernation is a fascinating, yet enigmatic, physiological phenomenon during which body temperature and metabolism are reduced to save energy. During the harsh season, this strategy allows substantial energy saving by reducing body temperature and metabolism. Accordingly, biological processes are considerably slowed down and reduced to a minimum. However, the persistence of a temperature-compensated, functional biological clock in hibernating mammals has long been debated. Here, we show that the master circadian clock no longer displays 24-h molecular oscillations in hibernating European hamsters. The clock genes Per1, Per2, and Bmal1 and the clock-controlled gene arginine vasopressin were constantly expressed in the suprachiasmatic nucleus during deep torpor, as assessed by radioactive in situ hybridization. Finally, the melatonin rhythm-generating enzyme, arylalkylamine N-acetyltransferase, whose rhythmic expression in the pineal gland is controlled by the master circadian clock, no longer exhibits day/night changes of expression but constantly elevated mRNA levels over 24 h. Overall, these data provide strong evidence that in the European hamster the molecular circadian clock is arrested during hibernation and stops delivering rhythmic output signals.deep torpor ͉ suprachiasmatic ͉ euthermia

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SCN Outputs and the Hypothalamic Balance of Life

Cited by 403 publications

References 72 publications

Melatonin receptors in pancreatic islets: good morning to a novel type 2 diabetes gene

Melatonin receptors in pancreatic islets: good morning to a novel type 2 diabetes gene

Cross-talks between Circadian Timing System and Cell Division Cycle Determine Cancer Biology and Therapeutics

The circadian clock stops ticking during deep hibernation in the European hamster

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