Pellegrini Manuela, Filipponi Doria, Gori Manuele, Barrios Florencia, Lolicato Francesca, Grimaldi Paola, Rossi Pellegrino, Jannini Emmanuele A, Geremia Raffaele, Dolci Susanna
Department of Public Health and Cellular Biology, University of Rome 'Tor Vergata', Rome.
Cell Cycle. 2008 Dec 15;7(24):3878-88. doi: 10.4161/cc.7.24.7262. Epub 2008 Dec 26.
While it is known that retinoic acid (RA) induces meiosis in mouse female fetal gonads, the mechanisms which regulate this process during spermatogenesis are poorly understood. We show that the All trans RA derivative (ATRA) and Kit Ligand (KL) increase meiotic entry of postnatal mouse spermatogonia in vitro without synergism. Competence to enter meiosis is reached by spermatogonia only at the stage in which they undergo Kit-dependent divisions. Besides increasing Kit expression in spermatogonia, ATRA also upregulates KL expression in Sertoli cells. Both ATRA and KL increase the expression of Stimulated by Retinoic Acid Gene 8 and Dmc1, an early meiotic marker. A specific Kit tyrosine kinase inhibitor prevents the increase in the number of meiotic cells induced by both the two factors, suggesting that they converge on common Kit-dependent signalling pathways. Meiotic entry induced by ATRA and KL is independent from their ability to affect germ cell viability, and is mediated by the activation of PI3K and MAPK pathways through Kit autophosphorylation. ATRA-induced phosphorylation of the two downstream kinases is mediated by a non-genomic mechanism. These data suggest that RA may control the timing of meiosis by influencing both the somatic and the germ cell compartment of the postnatal testis through the activation of the KL/Kit system.
虽然已知视黄酸(RA)可诱导小鼠雌性胎儿性腺发生减数分裂,但在精子发生过程中调节这一过程的机制却知之甚少。我们发现,全反式视黄酸衍生物(ATRA)和干细胞因子配体(KL)可在体外增加出生后小鼠精原细胞的减数分裂进入,且无协同作用。精原细胞只有在经历依赖干细胞因子的分裂阶段才具备进入减数分裂的能力。除了增加精原细胞中干细胞因子的表达外,ATRA还上调支持细胞中KL的表达。ATRA和KL均增加视黄酸刺激基因8和Dmc1(一种早期减数分裂标记物)的表达。一种特异性的干细胞因子酪氨酸激酶抑制剂可阻止这两种因子诱导的减数分裂细胞数量增加,这表明它们汇聚于共同的依赖干细胞因子的信号通路。ATRA和KL诱导的减数分裂进入与其影响生殖细胞活力的能力无关,且是通过干细胞因子自身磷酸化激活PI3K和MAPK途径介导的。ATRA诱导的两种下游激酶的磷酸化是由一种非基因组机制介导的。这些数据表明,视黄酸可能通过激活KL/干细胞因子系统,影响出生后睾丸的体细胞和生殖细胞区室,从而控制减数分裂的时间。
