The ovarian steroid hormones, estradiol and progesterone, regulate physiology and behavior, including estrous behavior, in rats, guinea pigs and other species. The long-term objective of this research is to determine the neuronal events that result in progesterone-induced changes in behaviors. A great deal of evidence supports the idea that one mechanism by which progesterone acts in the brain is via binding to, and subsequent activation of, progestin receptors, which then may act as regulators of gene expression. One approach that has been taken to study the constellation of neurons responsive to steroid hormones is the use of the expression of immediate early gene proteins, such as Fos, as markers for responsive neurons. In the proposed work, the population of neurons in the rat brain that is influenced by treatment with estradiol and progesterone will be delineated through the expression of Fos and other immediate early gene proteins. It will then be determined if particular progesterone-sensitive neurons have cell nuclear progestin receptors that may mediate the response, and it will be determined if progestin receptors are essential for direct effects of progesterone on neuronal response. Finally it will be determined if the induction of immediate early gene proteins, such as Fos, is causally related to the process by which progesterone influences neuronal response, resulting in changes in reproductive behaviors. A variety of methods will be used. Behavioral approaches will be used to quantify the effects of progesterone and of inhibition of progesterone-induced immediate early protein expression on estrous behavior. Neuroanatomical approaches will be used to characterize the populations of neurons that are responsive to progesterone. Intracranial application of inhibitors will also be used, including progesterone antagonists which block progestin receptors and antisense oligonucleotides which will block the expression of progestin receptors and Fos. A distinctive feature of this work is that it will all be done within a behaviorally-relevant context; that is, hormonal treatments will be used which are shown to be the minimal doses necessary to facilitate reliably the expression of estrous behaviors.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH056187-03
Application #
2675546
Study Section
Psychobiology, Behavior, and Neuroscience Review Committee (PBN)
Project Start
1996-08-01
Project End
2001-04-30
Budget Start
1998-05-06
Budget End
1999-04-30
Support Year
3
Fiscal Year
1998
Total Cost
Indirect Cost
Name
University of Massachusetts Amherst
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
153223151
City
Amherst
State
MA
Country
United States
Zip Code
01003
Blaustein, Jeffrey D (2003) Progestin receptors: neuronal integrators of hormonal and environmental stimulation. Ann N Y Acad Sci 1007:238-50
Greco, Beatrice; Blasberg, Meg E; Kosinski, Eric C et al. (2003) Response of ERalpha-IR and ERbeta-IR cells in the forebrain of female rats to mating stimuli. Horm Behav 43:444-53
Greco, Beatrice; Lubbers, Laura S; Blaustein, Jeffrey D (2003) Estrogen receptor beta messenger ribonucleic acid expression in the forebrain of proestrous, pregnant, and lactating female rats. Endocrinology 144:1869-75
Blaustein, J D; Greco, B (2002) A progestin antagonist blocks vaginocervical stimulation-induced fos expression in neurones containing progestin receptors in the rostral medial preoptic area. J Neuroendocrinol 14:109-15
Corp, E S; Greco, B; Powers, J B et al. (2001) Neuropeptide Y inhibits estrous behavior and stimulates feeding via separate receptors in Syrian hamsters. Am J Physiol Regul Integr Comp Physiol 280:R1061-8
Greco, B; Allegretto, E A; Tetel, M J et al. (2001) Coexpression of ER beta with ER alpha and progestin receptor proteins in the female rat forebrain: effects of estradiol treatment. Endocrinology 142:5172-81
Lonstein, J S; Greco, B; De Vries, G J et al. (2000) Maternal behavior stimulates c-fos activity within estrogen receptor alpha-containing neurons in lactating rats. Neuroendocrinology 72:91-101
Moffatt, C A; Rissman, E F; Shupnik, M A et al. (1998) Induction of progestin receptors by estradiol in the forebrain of estrogen receptor-alpha gene-disrupted mice. J Neurosci 18:9556-63
Auger, A P; Moffatt, C A; Blaustein, J D (1997) Progesterone-independent activation of rat brain progestin receptors by reproductive stimuli. Endocrinology 138:511-4
Mani, S K; Blaustein, J D; O'Malley, B W (1997) Progesterone receptor function from a behavioral perspective. Horm Behav 31:244-55

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