1. REGRESSÃO ESPONTÂNEA DO CORPO LÚTEO EM BOVINOS - REVISÃO.
- Author
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PUGLIESI, G., NISHIMURA, T. K., MELO, G. D., MEMBRIVE, C. M. B., NAVES, J. R., and CARVALHO, G. R.
- Abstract
The knowledge of the luteolysis process within reproductive physiology becomes important to occur the understanding of maternal recognition of gestation being possible to formulate anti-luteolytic strategies aimed at maintaining this phase conferring increases in reproductive and productive efficiency. During the luteolysis process, luteal tissue undergoes abrupt changes in steroidogenic capacity, vascularization and remodeling, resulting in replacement of the gland by connective tissue, and PGF2α is the main determinant in the spontaneous induction of luteolysis in cattle. Simultaneously, an intimate process occurs between the anatomical relationships that comprise the ovary, uterus and its vascularizations. The exposure of the uterus to the coordinated interaction between P4, E2 and oxytocin, together with the expression of its receptors, are essential for the pulsating secretion of PGF2α by the endometrium, which will induce luteolysis. In this regression of the corpus luteum (CL), hormones (LH, prolactin, cortisol) and various vasoactive substances (nitric oxide, VEGF, EG-VEGF, bFGF, END-1, AngII) are also involved. The concentration of PGF2α can be represented by the blood measurement of the concentration of its metabolite 13,14-dihydro-15-keto-PGF2α (PGFM), being the pulsatility of PGF2α secretion during the pre-luteolytic, luteolytic and post-luteolytic measured by the increased concentration of PGFM. In this review article, it will be possible to understand and discuss the main endocrine and molecular aspects that occur with the morphofunctional changes in CL during the physiological luteolysis process in bovine females. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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