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Louisiana State University,3, Baton Rouge 70803 and and Colorado State University,4, Fort Collins 80523
Abstract
Two hormonal treatments, chosen for their effectiveness in other seasonally breeding species, were tested in mares during the non-breeding season to determine if they could induce ovarian activity and estrus during the winter. Of 15 functionally anestrous (anovulatory) mares, five received intravaginal, poly-urethane sponges containing .75 g of melatonin on December 16; fresh sponges containing melatonin were inserted weekly until February 3. These mares also received daily injections of saline. Five other mares received daily im injections of 100 µg of thyrotropin-releasing hormone (TRH) and control sponges during the treatment period. The remaining five mares were given control injections and control sponges throughout the experiment. Intravaginal sponges containing melatonin increased (P<.05) concentrations of melatonin in systemic plasma for at least 7 d to levels at least 10-fold higher than those expected during the nighttime hours. The TRH significantly increased concentrations of thyroid-stimulating hormone within 60 min after injection, whereas there was no detectable increase in concentrations of prolactin after TRH. Ovarian size in all three groups of mares was increased (P<.05) shortly after the onset of the treatment regimens. Moreover, there were surges in concentrations of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in plasma closely associated with sponge insertion and(or) injection of TRH or saline in mares of all groups. Due to the temporal correlation of gonadotropin surges and sponge insertion, we suspect that placement of intravaginal sponges may have caused the release of LH and FSH, perhaps through a neuroendocrine reflex. These surges in gonadotropins may have mediated the ovarian response. Alternatively, ovarian activity may have been stimulated by an unknown environmental factor, a possibility that was not examined in this study. Melatonin or TRH did not augment or inhibit this non-specific response.
1 Published with the approval of the Director of the Louisiana Agr. Exp. Sta.
2 We thank the National Pituitary Agency for supplying the anti-hFSH serum, anti-rat TSH serum, and hTSH for iodination used in this experiment; and Dr. Harold Papkoff and Dr. Leo E. Reichert, Jr., for supplying the gonadotropins used for radioiodination and standards.
3 Dept. of Anim. Sci. Reprint requests to D. L. Thompson, Jr.
3 Dept. of Physiol, and Biophysics.
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