Abstract
During the past decade there has been ample documentation of the proposition that the pineal gland mediates photoperiodic influences upon reproductive behavior of hamsters. It is commonly hypothesized that the pineal gland expresses its activity by transformation of photoperiodic information into an hormonal output, that hormone being melatonin. If this hypothesis is correct, there must be some essential diffrence in melatonin's output when hamsters are exposed to different photoperiodic environments. The experiments summarized in this communication analyze pineal melatonin contents in Syrian hamsters maintained in a variety of photoperiodic conditions during different physiological states. The results demonstrate that adult hamsters have a daily surge in pineal melatonin content throughout their lifetime when exposed to simulated annual photoperiodic cycles. There is some fluctuation in the amount of pineal melatonin produced during different physiological states and photoperiodic environments, but these fluctuations seem small when compared to those normally found for other regulatory hormones. When hamsters are exposed to different photoperiodic regimens, the daily melatonin surge maintains a relatively constant phase relationship with respect to the onset of daily activity. There is a concomitant change in its phase relationship with respect to light-dark transitions.
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References
BEX, F. J. and BARTKE, A. (1977): Testicular LH binding in the hamster: modification by photoperiod and prolactin. Endocrinology, 100: 1223–1226.
CZYBA., J. C. GIROD, C., and DURAND, N. (1964): Sur l'antagonisme épiphysohypophysaire et les variations saisonnière de la spermatogénèse chez le hamster doré (Mesocricetus auratus). C. R. Soc. Biol., 158: 742–745.
EICHLER, V. B. and MOORE, R. Y. (1974): The primary and accessory optic systems in the golden hamsters,Mesocricetus auratus. Acta Anat., 89: 359–371.
ELLIOTT, J. A. (1976): Crcadian rhythms and photoperiodic time measurement in mammals. Fed. Proc., 35: 239–246.
GRAVIS, C. J. (1977): Testicular involution following optic enucleation: the Leydig cell. Cell Tis. Res., 185: 303–313.
GRAVIS, C. J. and WEAKER, F. J. (1977): Testicular involution following optic enucleation: an ultrastructural and cytochemical study. Cell Tis. Res., 184: 67–77.
HOFFMAN, R.A. and REITER, R. J. (1965): Pineal gland: influence on gonads of male hamsters. Science, 148: 1609–1611.
KARSCH, F. J., GOODMAN, R. L., and LEGAN, S. J. (1980): Feedback basis of seasonal breeding: test of an hypothesis. J. Reprod. Fert. 58: 521–535.
MATT, K. S. and STETSON, M. H. (1979): Hypothalamic-pituitary-gonadal interactions during spontaneous testicular recrudescence in golden hamsters. Biol. Reprod., 20:739–746.
PANKE, E. S., ROLLAG, M. D. and REITER, R. J. (1979): Pineal melatonin concentrations in the Syrian hamster. Endocrinology, 104: 194–197.
REITER, R. J. (1972): Evidence for refractoriness of the pituitary-gonadal axis to the pineal gland in golden hamsters and its possible implications in annual reproductive rhythms. Anat. Rec., 1973: 365–372.
REITER, R. J. (1975): Exogenous and endogenous control of the annual reproductive cycle in the male golden hamster: participation of the pineal gland. J. exp. Zool., 191: 111–119.
REITER, R. J. and HESTER, R. J. (1966): Interrelationships of the pineal gland, the superior cervical ganglia and the photoperiod in the regulation of the endocrine systems of hamsters, Endocrinology, 79: 1168–1170.
REITER, R. J. and JOHNSON, L. Y. (1974): Pineal regulation of immunoreactive luteinizing hormone and prolactin in light-deprived female hamsters. Fert. Ster., 25: 958–964.
REITER, R. J., SORRENTINO, S., and HOFFMAN, R. A. (1970): Early photoperiodic conditions and pineal antigonadal function in male hamsters. Int. J. Fert., 15: 163:170.
ROLLAG, M. D., CHEN, H. J., FERGUSON, B. N. and REITER, R. J. (1979): Pineal melatonin content throughout the hamster estrous cycle. Proc. Soc. exp. Biol. Med., 162: 211–213.
ROLLAG, M. D. and NISWENDER, G. D. (1976): Radioimmunoassay of serum concentrations of melatonin in sheep exposed to different lighting regimens. Endocrinology, 98: 482–489.
ROLLAG, M. D., PANKE, E. S., and REITER, R. J. (1980a): Pineal melatonin content in male hamsters throughout the seasonal reproductive cycle. Proc. Soc. exp. Biol. Med., 165: 330–334.
ROLLAG, M. D., PANKE, E. S., TRAKULRUNGSI, W., TRAKULRUNGSI, C., and REITER, R. J. (1980b): Quantification of daily melatonin synthesis in the hamster pineal gland. Endocrinology, 106: 231–236.
ROLLAG, M. D. and STETSON, M. H. (1981): Ontogeny of the pineal melatonin rhythm in golden hamsters. Biol. Reprod., 24: 311–314.
RUSAK, B. and MORIN, L. P. (1976): Testicular responses to photoperiod are blocked by lesions of the suprachiasmatic nuclei in golden hamsters. Biol. Reprod., 15: 366–374.
STETSON, M. H. and WATSON-WHITMYRE (1976): Nucleus suprachiasmaticus: the biological clock in the hamster? Science, 191: 197–199.
STETSON, M. H. WATSON-WHITMEYRE, M. and MATT, K. S. (1977): Termination of photorefractoriness in golden hamsters—photoperiodic requirements, J. exp. Zool., 202: 81–87.
TAMARKIN, L., WESTROM, W. K., HAMILL, A. I., and GOLDMAN, B. D. (1976): Effect of melatonin on the reproductive systems of male and female Syrian hamsters: a diurnal rhythm in sensitivity to melatonin. Endocrinology, 99: 1534–1541.
WIDMAIER, E. P. and CAMPBELL, C. D. (1981): The interaction of estradiol and daylength in modifying serum prolactin secretion in female hamsters. Endocrinology, 108: 371–376.
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Rollag, M.D. Pineal melatonin synthesis in Syrian hamsters: A summary. Int J Biometeorol 26, 285–293 (1982). https://doi.org/10.1007/BF02219496
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DOI: https://doi.org/10.1007/BF02219496