Evidence for an endogenous per1- and ICER-independent seasonal timer in the hamster pituitary gland
Evidence for an endogenous per1- and ICER-independent seasonal timer in the hamster pituitary gland
Most mammals use changing annual day-length cycles to regulate pineal melatonin secretion and thereby drive many physiological rhythms including reproduction, metabolism, immune function, and pelage. Prolonged exposure to short winter day lengths results in refractoriness, a spontaneous reversion to long-day physiological status. Despite its critical role in the timing of seasonal rhythms, refractoriness remains poorly understood. The aim of this study was therefore to describe cellular and molecular mechanisms driving the seasonal secretion of a key hormone, prolactin, in refractory Syrian hamsters.
We used recently developed single cell hybridization and reporter assays to show that this process is initiated by timed reactivation of endocrine signaling from the pars tuberalis (PT) region of the pituitary gland, a well-defined melatonin target site, causing renewed activation of prolactin gene expression. This timed signaling is independent of per1 clock gene expression in the suprachiasmatic nuclei and PT and of melatonin secretion, which continue to track day length. Within the PT, there is also a continued short day-like profile of ICER expression, suggesting that the change in hormone secretion is independent of cAMP signaling. Our data thus identify the PT as a key anatomical structure involved in endogenous seasonal timing mechanisms, which breaks from prevailing day length-induced gene expression.
clock gene, melatonin, pars tuberalis, refractoriness, photoperiod, circadian
810-815
Johnston, Jonathan D.
58a7f9ff-1fe9-4941-8ec9-ba7b650c4ce0
Cagampang, Felino R.A.
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Stirland, J. Anne
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Carr, Amanda Jayne F.
f53577a3-16cd-4763-b92d-9198d1746fd6
White, Michael R.H.
d0d97c08-20c6-4452-a7f4-db92ae05109c
Davis, Julian R.E.
3759b6b2-65ab-4124-bfec-f76042f57e2c
Loudon, Andrews S.I.
72a7f3f2-95ef-4d9b-b7f1-183e20126ebe
May 2003
Johnston, Jonathan D.
58a7f9ff-1fe9-4941-8ec9-ba7b650c4ce0
Cagampang, Felino R.A.
7cf57d52-4a65-4554-8306-ed65226bc50e
Stirland, J. Anne
96e3fb71-37ae-4fe4-bb12-9a7d80a51be5
Carr, Amanda Jayne F.
f53577a3-16cd-4763-b92d-9198d1746fd6
White, Michael R.H.
d0d97c08-20c6-4452-a7f4-db92ae05109c
Davis, Julian R.E.
3759b6b2-65ab-4124-bfec-f76042f57e2c
Loudon, Andrews S.I.
72a7f3f2-95ef-4d9b-b7f1-183e20126ebe
Johnston, Jonathan D., Cagampang, Felino R.A., Stirland, J. Anne, Carr, Amanda Jayne F., White, Michael R.H., Davis, Julian R.E. and Loudon, Andrews S.I.
(2003)
Evidence for an endogenous per1- and ICER-independent seasonal timer in the hamster pituitary gland.
FASEB Journal, 17 (8), .
(doi:10.1096/fj.02-0837com).
Abstract
Most mammals use changing annual day-length cycles to regulate pineal melatonin secretion and thereby drive many physiological rhythms including reproduction, metabolism, immune function, and pelage. Prolonged exposure to short winter day lengths results in refractoriness, a spontaneous reversion to long-day physiological status. Despite its critical role in the timing of seasonal rhythms, refractoriness remains poorly understood. The aim of this study was therefore to describe cellular and molecular mechanisms driving the seasonal secretion of a key hormone, prolactin, in refractory Syrian hamsters.
We used recently developed single cell hybridization and reporter assays to show that this process is initiated by timed reactivation of endocrine signaling from the pars tuberalis (PT) region of the pituitary gland, a well-defined melatonin target site, causing renewed activation of prolactin gene expression. This timed signaling is independent of per1 clock gene expression in the suprachiasmatic nuclei and PT and of melatonin secretion, which continue to track day length. Within the PT, there is also a continued short day-like profile of ICER expression, suggesting that the change in hormone secretion is independent of cAMP signaling. Our data thus identify the PT as a key anatomical structure involved in endogenous seasonal timing mechanisms, which breaks from prevailing day length-induced gene expression.
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Published date: May 2003
Keywords:
clock gene, melatonin, pars tuberalis, refractoriness, photoperiod, circadian
Organisations:
Dev Origins of Health & Disease
Identifiers
Local EPrints ID: 25671
URI: http://eprints.soton.ac.uk/id/eprint/25671
ISSN: 0892-6638
PURE UUID: 9a4ee2b9-921a-4cf1-9b0f-9a524b75445a
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Date deposited: 20 Apr 2006
Last modified: 16 Mar 2024 03:29
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Contributors
Author:
Jonathan D. Johnston
Author:
J. Anne Stirland
Author:
Amanda Jayne F. Carr
Author:
Michael R.H. White
Author:
Julian R.E. Davis
Author:
Andrews S.I. Loudon
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