Plant T M
Endocrinology. 1985 Apr;116(4):1341-50. doi: 10.1210/endo-116-4-1341.
To further examine the role of the testes in determining the ontogeny of gonadotropin secretion in the male rhesus monkey, the time courses of circulating LH and FSH concentrations were determined using established RIAs in daytime and nighttime blood samples collected at weekly intervals from birth until 4 yr of age in intact animals (n = 7) and in males orchidectomized at approximately 1 week of age (n = 6). Estimates of plasma androgen (A) concentrations were obtained on nonchromatographed samples with a RIA that reacts with testosterone and other androgens. Plasma PRL concentrations were also determined by RIA, and body weight was monitored at weekly intervals. Testicular volumes were measured at weekly intervals after 1.8 yr of age in five animals. In intact animals, mean daytime plasma A concentrations during the first 3 months of infantile development ranged from 1-6 ng/ml. Daytime plasma A concentrations then declined to reach 0.5-1 ng/ml by 9 months of age, where they were maintained usually until 3 yr of age when circulating levels progressively increased to reach, by approximately 3.5 yr of age, mean levels (6 ng/ml) characteristic of fully mature males. During the transition from infantile to perpubertal development, circulating LH and FSH concentrations showed a pattern similar to that of A, with elevations during the first 2 months of life followed by a decline to undetectable concentrations. In contrast to A, however, distinct pubertal increments in circulating LH and FSH concentrations were not observed in daytime samples from intact animals. The first indication of the pubertal reactivation of the hypothalamic-pituitary-testicular axis was provided by a reemergence of nocturnal elevations in plasma A concentrations between 2-3 yr of age. These were followed shortly thereafter by detectable plasma LH concentrations in nighttime samples. Orchidectomy at 1 week of age resulted in a progressive and dramatic rise in circulating gonadotropin concentrations, which plateaued approximately 3 weeks later at values 1 order of magnitude greater than those observed in intact animals. This hypersecretion of LH and FSH was not sustained, however, and by 10 months of age, plasma gonadotropin concentrations in agonadal animals were indistinguishable from those in age-matched intact controls. These low levels of the gonadotropic hormones were maintained, in the absence of the testes, for approximately 2 yr until a second or "pubertal" postcastration hypersecretion of LH and FSH was observed.(ABSTRACT TRUNCATED AT 400 WORDS)
为了进一步研究睾丸在雄性恒河猴促性腺激素分泌个体发育过程中的作用,我们使用既定的放射免疫分析法(RIAs),测定了从出生到4岁每周采集的日间和夜间血样(完整动物,n = 7;约1周龄时进行睾丸切除的雄性动物,n = 6)中循环促黄体生成素(LH)和促卵泡激素(FSH)浓度的时间进程。使用与睾酮和其他雄激素反应的放射免疫分析法,对未经色谱分离的样品进行血浆雄激素(A)浓度的估计。血浆泌乳素(PRL)浓度也通过放射免疫分析法测定,并每周监测体重。在5只动物1.8岁后每周测量睾丸体积。在完整动物中,婴儿期发育的前3个月白天血浆A浓度范围为1 - 6 ng/ml。然后白天血浆A浓度下降,到9个月大时降至0.5 - 1 ng/ml,并通常维持至此,直到3岁时,循环水平逐渐升高,到约3.5岁时达到成熟雄性的平均水平(6 ng/ml)。在从婴儿期向青春期前发育的过渡阶段,循环LH和FSH浓度呈现出与A相似的模式,出生后的前2个月升高,随后降至检测不到的浓度。然而,与A不同的是,在完整动物的日间样本中未观察到循环LH和FSH浓度明显的青春期升高。下丘脑 - 垂体 - 睾丸轴青春期重新激活的第一个迹象是在2 - 3岁之间血浆A浓度夜间升高再次出现。此后不久,夜间样本中可检测到血浆LH浓度。1周龄时进行睾丸切除导致循环促性腺激素浓度逐渐显著升高,大约3周后达到平稳,其值比完整动物中观察到的值高1个数量级。然而,LH和FSH的这种高分泌并未持续,到10个月大时,去性腺动物的血浆促性腺激素浓度与年龄匹配的完整对照动物的浓度没有区别。在没有睾丸的情况下,这些低水平的促性腺激素维持了约2年,直到观察到第二次或“青春期”去势后LH和FSH的高分泌。(摘要截断于400字)
