1. Circadian regulation of reproduction: From gamete to offspring
- Author
-
Tamara J. Varcoe, Michael J. Boden, David J. Kennaway, Boden, MJ, Varcoe, TJ, and Kennaway, DJ
- Subjects
circadian rhythm ,Male ,medicine.medical_specialty ,Offspring ,media_common.quotation_subject ,Biophysics ,Endogeny ,Biology ,reproduction ,Internal medicine ,clock genes ,medicine ,Animals ,Humans ,Circadian rhythm ,parturition ,Molecular Biology ,Ovulation ,media_common ,fertility ,Reproductive success ,Reproduction ,Ovary ,Placentation ,Embryo ,Spermatozoa ,Circadian Rhythm ,CLOCK ,Endocrinology ,ovary ,Female ,Neuroscience - Abstract
Few challenges are more critical to the survival of a species than reproduction. To ensure reproductive success, myriad aspects of physiology and behaviour need to be tightly orchestrated within the animal, as well as timed appropriately with the external environment. This is accomplished through an endogenous circadian timing system generated at the cellular level through a series of interlocked transcription/translation feedback loops, leading to the overt expression of circadian rhythms. These expression patterns are found throughout the body, and are intimately interwoven with both the timing and function of the reproductive process. In this review we highlight the many aspects of reproductive physiology in which circadian rhythms are known to play a role, including regulation of the estrus cycle, the LH surge and ovulation, the production and maturation of sperm and the timing of insemination and fertilisation. We will also describe roles for circadian rhythms in support of the preimplantation embryo in the oviduct, implantation/placentation, as well as the control of parturition and early postnatal life. There are several key differences in physiology between humans and the model systems used for the study of circadian disruption, and these challenges to interpretation will be discussed as part of this review. (C) 2013 Elsevier Ltd. All rights reserved. Refereed/Peer-reviewed
- Published
- 2013