Mathematical Model for the Actions of Activin, Inhibin, and Follistatin on Pituitary Gonadotrophs

The timed secretion of the luteinizing hormone (LH) and follicle stimulating hormone (FSH) from pituitary gonadotrophs during the estrous cycle is crucial for normal reproductive functioning. The release of LH and FSH is stimulated by gonadotropin releasing hormone (GnRH) secreted by hypothalamic Gn...

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Bibliographic Details
Published in:Bulletin of mathematical biology 2008-11, Vol.70 (8), p.2211-2228
Main Authors: Bertram, Richard, Li, Yue-Xian
Format: Article
Language:English
Subjects:
Activins - metabolism
Animals
Autocrine Communication
Cell Biology
Estrogens - metabolism
Estrous Cycle
Feedback, Physiological - physiology
Female
Follicle Stimulating Hormone - blood
Follicle Stimulating Hormone - secretion
Follistatin - metabolism
Gonadotrophs - metabolism
Gonadotropin-Releasing Hormone - metabolism
Inhibins - metabolism
Life Sciences
Luteinizing Hormone - blood
Luteinizing Hormone - secretion
Mathematical and Computational Biology
Mathematics
Mathematics and Statistics
Models, Biological
Original Article
Paracrine Communication
Rats
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Summary:The timed secretion of the luteinizing hormone (LH) and follicle stimulating hormone (FSH) from pituitary gonadotrophs during the estrous cycle is crucial for normal reproductive functioning. The release of LH and FSH is stimulated by gonadotropin releasing hormone (GnRH) secreted by hypothalamic GnRH neurons. It is controlled by the frequency of the GnRH signal that varies during the estrous cycle. Curiously, the secretion of LH and FSH is differentially regulated by the frequency of GnRH pulses. LH secretion increases as the frequency increases within a physiological range, and FSH secretion shows a biphasic response, with a peak at a lower frequency. There is considerable experimental evidence that one key factor in these differential responses is the autocrine/paracrine actions of the pituitary polypeptides activin and follistatin. Based on these data, we develop a mathematical model that incorporates the dynamics of these polypeptides. We show that a model that incorporates the actions of activin and follistatin is sufficient to generate the differential responses of LH and FSH secretion to changes in the frequency of GnRH pulses. In addition, it shows that the actions of these polypeptides, along with the ovarian polypeptide inhibin and the estrogen-mediated variations in the frequency of GnRH pulses, are sufficient to account for the time courses of LH and FSH plasma levels during the rat estrous cycle. That is, a single peak of LH on the afternoon of proestrus and a double peak of FSH on proestrus and early estrus. We also use the model to identify which regulation pathways are indispensable for the differential regulation of LH and FSH and their time courses during the estrous cycle. We conclude that the actions of activin, inhibin, and follistatin are consistent with LH/FSH secretion patterns, and likely complement other factors in the production of the characteristic secretion patterns in female rats.
ISSN:0092-8240
1522-9602
DOI:10.1007/s11538-008-9341-2