Department of Growth and Reproduction, Rigshospitalet, University of Copenhagen, Copenhagen Ø, Denmark.
The International Research Centre in Endocrine Disruption of Male Reproduction and Child Health, Rigshospitalet, University of Copenhagen, Copenhagen Ø, Denmark.
J Clin Endocrinol Metab. 2019 Jul 1;104(7):2770-2776. doi: 10.1210/jc.2018-02099.
The rapid pubertal height growth is unique to humans, but why do we have it? Although the spurt contributes 13% to 15% to the final adult height, we hypothesized that the biological significance of the high acromegalic levels of GH and IGF-I, which are behind the pubertal growth spurt, might primarily occur to stimulate the reproductive organs.
Animal data have demonstrated that adult Igf1 and Igf2 gene knockout mice that survive show a dramatic reduction in the size of the reproductive organs and are infertile. In humans, case reports of mutations in the genes affecting the GH-IGF axis and growth (GH, GHRH, GH-R, STAT5b, IGF-I, IGF-II, IGF-1R, PAPPA2) are also characterized by delayed pubertal onset and micropenis. Furthermore, GH treatment will tend to normalize the penile size in patients with GH deficiency. Thus, the endocrine effects of high IGF-I levels might be needed for the transition of the sexual organs, including the secondary sex characteristics, from the "dormant" stages of childhood into fully functioning reproductive systems. The peak IGF-I levels, on average, occur 2 years after the peak height growth velocity, suggesting reasons other than longitudinal growth for the high IGF-I levels, and remain high in the years after the height spurt, when the reproductive systems become fully functional.
We suggest that the serum levels of IGF-I should be monitored in children with poor development of sexual organs, although it remains to be investigated whether GH should be added to sex steroids in the management of hypogonadism for some pubertal children (e.g., boys with micropenis).
青春期身高的快速增长是人类独有的特征,但我们为什么会有这种特征呢?尽管突增贡献了最终成人身高的 13%至 15%,但我们假设,青春期生长突增背后的生长激素 (GH) 和胰岛素样生长因子-I (IGF-I) 的高肢端肥大症水平的生物学意义主要可能发生在刺激生殖器官上。
动物数据表明,存活的成年 Igf1 和 Igf2 基因敲除小鼠的生殖器官明显缩小,并且不育。在人类中,影响 GH-IGF 轴和生长的基因(GH、GHRH、GH-R、STAT5b、IGF-I、IGF-II、IGF-1R、PAPPA2)突变的病例报告也表现为青春期开始延迟和小阴茎。此外,GH 治疗往往会使 GH 缺乏症患者的阴茎大小正常化。因此,高 IGF-I 水平的内分泌作用可能是性器官(包括第二性征)从儿童的“休眠”阶段过渡到完全功能的生殖系统所必需的。IGF-I 水平的峰值平均出现在身高生长速度峰值后 2 年,这表明 IGF-I 水平升高的原因不仅仅是纵向生长,而且在身高突增后的几年内仍然保持较高水平,此时生殖系统完全发挥功能。
我们建议监测性器官发育不良的儿童的 IGF-I 血清水平,尽管仍有待研究是否应在一些青春期儿童(例如小阴茎的男孩)的性腺功能减退症管理中添加 GH 到性激素中。
