Prat F, Sumpter J P, Tyler C R
Department of Biology and Biochemistry, Brunel University, Uxbridge, Middlesex, United Kingdom.
Biol Reprod. 1996 Jun;54(6):1375-82. doi: 10.1095/biolreprod54.6.1375.
RIAs were developed for the two salmon gonadotropins (GTH I and GTH II) and used to measure plasma GTH throughout the life of the rainbow trout, Oncorhynchus mykiss. The RIA for GTH II was specific and sensitive (< 0.001% cross-reaction with GTH I, mean sensitivity = 0.26 +/- 0.02 ng/ml). The RIA for GTH I was less specific and less sensitive than the GTH II RIA (9.7% cross-reaction with GTH II, mean sensitivity = 2.34 +/- 0.23 ng/ml). In both males and females, the levels of GTH II remained undetectable (< 0.3 ng/ml) throughout most of the reproductive cycle, until shortly preceding spermiation/ovulation, when they began to rise. Concentrations of plasma GTH II were maximal at spermiation/ovulation. In both sexes, plasma profiles of GTH I differed from those of GTH II. The plasma GTH I concentration in females was elevated during early vitellogenesis. It then fell to a basal level shortly before ovulation and finally was elevated again at ovulation. In males, increases in plasma GTH I were seen a year before spermiation and again later, during the final stages of testicular growth. These results support the contention that GTH I mediates gonadal growth, whereas GTH II regulates the final stages of maturation and ovulation/spermiation. In rainbow trout, plasma profiles of GTH I and GTH II mimic the cycles of plasma FSH and LH, respectively, in the ovulatory cycle of higher vertebrates.
针对两种鲑鱼促性腺激素(促性腺激素I和促性腺激素II)开发了放射免疫分析方法(RIA),并用于测定虹鳟(Oncorhynchus mykiss)整个生命周期中的血浆促性腺激素。促性腺激素II的放射免疫分析方法具有特异性和敏感性(与促性腺激素I的交叉反应<0.001%,平均敏感性=0.26±0.02 ng/ml)。促性腺激素I的放射免疫分析方法比促性腺激素II的放射免疫分析方法特异性更低、敏感性更差(与促性腺激素II的交叉反应为9.7%,平均敏感性=2.34±0.23 ng/ml)。在雄性和雌性中,促性腺激素II的水平在生殖周期的大部分时间内都检测不到(<0.3 ng/ml),直到精子发生/排卵前不久才开始升高。血浆促性腺激素II的浓度在精子发生/排卵时达到最大值。在两性中,促性腺激素I的血浆水平与促性腺激素II不同。雌性血浆促性腺激素I浓度在卵黄发生早期升高。然后在排卵前不久降至基础水平,最后在排卵时再次升高。在雄性中,血浆促性腺激素I在精子发生前一年升高,之后在睾丸生长的最后阶段再次升高。这些结果支持了促性腺激素I介导性腺生长,而促性腺激素II调节成熟和排卵/精子发生的最后阶段这一观点。在虹鳟中,促性腺激素I和促性腺激素II的血浆水平分别模拟了高等脊椎动物排卵周期中血浆促卵泡激素(FSH)和促黄体生成素(LH)的周期。
