Department of Biomedical Sciences, Chubu University College of Life and Health Sciences, Kasugai, Japan.
Department of Molecular Biology and Biochemistry, Nagoya University Graduate School of Medicine, Japan.
FEBS Open Bio. 2023 Sep;13(9):1615-1624. doi: 10.1002/2211-5463.13603. Epub 2023 Apr 6.
Genetic disruption of glycosyltransferases has provided clear information on the roles of their reaction products in the body. Our group has studied the function of glycosphingolipids by genetic engineering of glycosyltransferases in cell culture and in mice, which has demonstrated both expected and unexpected results. Among these findings, aspermatogenesis in ganglioside GM2/GD2 synthase knockout mice was one of the most surprising and intriguing results. There were no sperms in testis, and multinuclear giant cells were detected instead of spermatids. Although serum levels of testosterone in the male mice were extremely low, testosterone accumulated in the interstitial tissues, including Leydig cells, and seemed not to be transferred into the seminiferous tubules or vascular cavity from Leydig cells. This was considered to be the cause of aspermatogenesis and low serum levels of testosterone. Patients with a mutant GM2/GD2 synthase gene (SPG26) showed similar clinical signs, not only in terms of the neurological aspects, but also in the male reproductive system. The mechanisms for testosterone transport by gangliosides are discussed here based on our own results and reports from other laboratories.
通过对糖苷转移酶的遗传干扰,为其反应产物在体内的作用提供了明确的信息。我们的研究小组通过细胞培养和小鼠中的糖苷转移酶遗传工程研究了糖脂的功能,这些研究带来了预期和意外的结果。在这些发现中,神经节苷脂 GM2/GD2 合成酶敲除小鼠的精子发生是最令人惊讶和有趣的结果之一。睾丸中没有精子,而是检测到多核巨细胞而不是精原细胞。尽管雄性小鼠的血清睾酮水平极低,但睾酮在间质组织中积累,包括莱迪希细胞,似乎没有从莱迪希细胞转移到曲细精管或血管腔中。这被认为是精子发生和血清睾酮水平低的原因。携带 GM2/GD2 合成酶突变基因(SPG26)的患者不仅在神经系统方面,而且在男性生殖系统方面也表现出类似的临床特征。本文根据我们自己的结果和其他实验室的报告,讨论了神经节苷脂转运睾酮的机制。
