雄激素指导非洲爪蟾发育过程中喉神经支配的性分化。

Androgen directs sexual differentiation of laryngeal innervation in developing Xenopus laevis.

作者信息

Robertson J C, Watson J T, Kelley D B

机构信息

Department of Zoology, Arizona State University, Tempe 85287.

出版信息

J Neurobiol. 1994 Dec;25(12):1625-36. doi: 10.1002/neu.480251213.

DOI:10.1002/neu.480251213

PMID:7861124

Abstract

In adult Xenopus laevis, innervation of the vocal organ is more robust in males than in females. This sex difference originates during tadpole development; at stage 56, when the gonads first differentiate, the number of axons entering the larynx is the same in the sexes, but by stage 62, innervation is greater in males. To determine if androgen secretion establishes sex differences in axon number, we treated tadpoles with antiandrogen or androgen beginning at stage 48 or 54 and counted laryngeal nerve axons at stage 62 using electron microscopy. When male tadpoles were treated with the antiandrogen hydroxyflutamide, axon numbers were reduced to female-typical values; axon numbers in females were unaffected by antiandrogen treatment. When female tadpoles were treated with the androgen DHT (dihydrotestosterone), axon numbers were increased to male-like values. These findings suggest that endogenous androgen secretion during late tadpole stages in males is required for the sexual differentiation of laryngeal innervation observed from stage 62 on. Because androgen treatment and laryngeal innervation affect myogenesis in postmetamorphic frogs, numbers of laryngeal dilator muscle fibers were determined for hormonally manipulated tadpoles. At stage 62, vehicle-treated males had more laryngeal axons than females; laryngeal muscle fiber numbers did not, however, differ in the sexes. Both male and female tadpoles, treated from stage 54 with DHT, had more muscle fibers at stage 62 than vehicle-treated controls. Thus, while endogenous androgen secretion during late tadpole stages is subthreshold for the establishment of masculinized muscle fiber numbers, laryngeal myogenesis is androgen sensitive at this time and can be increased by suprathreshold provision of exogenous DHT. A subgroup of tadpoles, DHT treated from stage 54 to 62, was allowed to survive, untreated, until postmetamorphic stage 2 (PM2: 5 months after metamorphosis is complete). Androgen treatment between tadpole stages 54 and 62 does not prevent the ontogenetic decrease in axon numbers characteristic of laryngeal development. In addition, the elevation in stage 62 axon numbers produced by DHT-treatment at late tadpole stages was not associated with elevated numbers of laryngeal muscle fibers at PM2. Juvenile males normally maintain elevated axon numbers (relative to final adult values) through PM2 and the presence of these additional axons may result from--rather than contribute directly to--laryngeal muscle fiber addition.

摘要

在成年非洲爪蟾中，雄性发声器官的神经支配比雌性更强健。这种性别差异在蝌蚪发育期间就已形成；在第56阶段，当性腺首次分化时，进入喉部的轴突数量在两性中是相同的，但到第62阶段时，雄性的神经支配更强。为了确定雄激素分泌是否在轴突数量上建立了性别差异，我们从第48或54阶段开始用抗雄激素或雄激素处理蝌蚪，并在第62阶段使用电子显微镜对喉神经轴突进行计数。当用抗雄激素羟基氟他胺处理雄性蝌蚪时，轴突数量减少到雌性典型值；抗雄激素处理对雌性蝌蚪的轴突数量没有影响。当用雄激素双氢睾酮（DHT）处理雌性蝌蚪时，轴突数量增加到类似雄性的值。这些发现表明，雄性蝌蚪后期内源性雄激素的分泌是从第62阶段开始观察到的喉神经支配性分化所必需的。由于雄激素处理和喉神经支配会影响变态后青蛙的肌生成，因此我们测定了经激素处理的蝌蚪的喉扩张肌纤维数量。在第62阶段，用溶剂处理的雄性蝌蚪的喉轴突比雌性多；然而，喉肌纤维数量在两性中并无差异。从第54阶段开始用DHT处理的雄性和雌性蝌蚪在第62阶段的肌纤维都比用溶剂处理的对照组多。因此，虽然蝌蚪后期内源性雄激素的分泌低于建立雄性化肌纤维数量的阈值，但此时喉肌生成对雄激素敏感，超阈值提供外源性DHT可增加喉肌生成。一组从第54阶段到62阶段用DHT处理的蝌蚪在未处理的情况下存活至变态后第2阶段（PM2：变态完成后5个月）。蝌蚪阶段54至62之间的雄激素处理并不能阻止喉发育特征性的轴突数量的个体发育减少。此外，蝌蚪后期DHT处理在第62阶段产生的轴突数量增加与PM2阶段喉肌纤维数量的增加无关。幼年雄性通常在PM2阶段维持较高的轴突数量（相对于最终成年值），这些额外轴突的存在可能是由于喉肌纤维增加所致，而不是直接促成喉肌纤维增加。