Bovine Reproduction. Группа авторов

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Bovine Reproduction - Группа авторов


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secretion; maturation changes within the hypothalamus result in increased GnRH pulse secretion and drive the transition from the infantile period. Increased GnRH secretion is dependent on either the development of central stimulatory inputs or removal of inhibitory inputs. Hypothalamus weight and GnRH content do not increase during the infantile period, but hypothalamic concentrations of estradiol receptors decrease after one month of age [7]. However, the hypothesis that GnRH secretion is low during infancy due to elevated sensitivity of the hypothalamus to the negative feedback of sex steroids (gonadostat hypothesis) has been questioned in bulls, since castration does not alter luteinizing hormone (LH) pulse frequency or mean concentrations before two months of age [8]. Nonetheless, since GnRH secretion into hypophyseal portal blood is not necessarily accompanied by LH secretion during the infantile period, experiments that use LH concentrations to infer GnRH secretion patterns during this period need to be interpreted with caution [9]. Another possibility is that removal of opioidergic inhibition and/or increased dopaminergic activity may be involved in triggering the increase in GnRH secretion during the infantile period. Opioidergic inhibition of LH pulse frequency during the infantile period has been demonstrated by increased LH secretion between one and four months of age in bulls treated with naloxone, an opioid competitive receptor antagonist [10], whereas concentrations of norepinephrine, dopamine, and dopamine metabolites increased twofold to threefold in the anterior hypothalamic–preoptic area in bulls aged 0.5–2.5 months [11].

      The prepubertal period is characterized by a temporary increase in gonadotropin secretion, the so‐called early gonadotropin rise. The early gonadotropin rise is a critical event in the sexual development of bulls. Not only is it associated with dramatic changes in testicular cellular composition, initial increase in testosterone secretion, and timing of attainment of puberty, but also it has long‐lasting effects on testicular growth and sperm production. This period extends from approximately two to six months of age in B. taurus bulls.

Schematic illustration of serum LH concentrations between 10 and 30 weeks of age in Angus and Angus times Charolais bulls. Graphs closely exemplify the mean pulse frequency and pulse amplitude observed in bulls receiving adequate nutrition.

      Sources: [2, 4, 6].

      The characteristic pulsatile nature of LH secretion is important for testosterone production, since continuous exposure of Leydig cells to LH results in reduced steroidogenic responsiveness due to downregulation of LH receptors [24]. Initiation of Leydig cell steroidogenesis is characterized by increased androstenedione secretion, which decreases as the cells complete maturation and begin secreting testosterone. During the first three to four months of age, testosterone concentrations are low and secretion does not necessarily accompany LH pulses. After this age, LH pulses are followed by testosterone pulses and mean testosterone concentrations begin to increase. The number of testosterone pulses increases from 0.3–2.3 pulses per 24 hours at one to four months of age to 7.5–9 pulses per 24 hours at five months of age [25–28].

      The crucial role of the LH secretion pattern during the early gonadotropin rise in regulating sexual development in bulls has been demonstrated in several studies using a variety of approaches. Prolonged treatment with a GnRH agonist in calves aged 1.5–3.5 months decreased LH pulse frequency, pulse amplitude, and mean concentrations at three months of age, delayed the peak mean LH concentration from five to six months of age, and reduced testosterone concentrations between 3.5 and 4.5 months of age. These hormonal alterations were associated with delayed puberty and reduced testes weight and number of germ cells in tubular cross‐sections at 11.5 months of age. On the other hand, treatment with GnRH every two hours to mimic pulsatile secretion from 1 to 1.5–2 months of age increased LH pulse frequency


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