Department of Biological Sciences, Laboratory of Neuroendocrinology and Behavior, School of Biomedical Sciences, and Brain Health Research Institute, Kent State University, Kent, OH, USA.
J Neuroendocrinol. 2020 Feb;32(2):e12835. doi: 10.1111/jne.12835. Epub 2020 Feb 12.
Arginine vasopressin (AVP) is a neuropeptide which acts centrally to modulate numerous social behaviors. One receptor subtype through which these effects occur is the AVP 1a receptor (AVPR1A). The modulatory effects of Avp via the AVPR1A varies by species as well as sex, since both AVP and the AVPR1A tend to be expressed more prominently in males. Beyond these neuromodulatory effects there are also indications that the AVP system may play a role in early development to, in part, organize sex-specific neural circuitry that is important to sexually dimorphic social behaviors in adulthood. However, to date, AVP's role in early development is poorly understood, particularly with respect to its differential effect on males and females. In order to determine the timing and distribution of the AVP system in early brain development, we examined the brains of male and female C57BL/6J mice between embryonic day (E) 12.5 and postnatal day (P) 2 and quantified Avp and Avpr1a mRNA using qPCR and AVPR1A protein using receptor autoradiography. The mRNA for Avp was measurable in males and females starting at E14.5, with males producing more than females, while Avpr1a mRNA was found as early as E12.5, with no difference in expression between sexes. AVPR1A binding was observed in both sexes starting at E16.5, and while there were no observed sex differences, binding density and the number of neuroanatomical areas did increase over time. These data are significant as they provide the first whole-brain characterization of the vasopressin system in the embryonic mouse. Further, these findings are consistent with data from other species, that have documented a sex difference in the vasopressin system during early brain formation.
精氨酸加压素(AVP)是一种神经肽,它在中枢神经系统中调节多种社会行为。其中一种起作用的受体亚型是 AVP1a 受体(AVPR1A)。AVP 通过 AVPR1A 产生的调节作用因物种和性别而异,因为 AVP 和 AVPR1A 往往在雄性中表达更为明显。除了这些神经调节作用外,还有迹象表明,AVP 系统可能在早期发育中发挥作用,部分组织对成年期性别二态社会行为很重要的特定神经回路。然而,迄今为止,AVP 在早期发育中的作用还知之甚少,特别是关于其对雄性和雌性的不同影响。为了确定 AVP 系统在早期大脑发育中的时间和分布,我们检查了 E12.5 至 P2 之间的雄性和雌性 C57BL/6J 小鼠的大脑,并使用 qPCR 定量了 Avp 和 Avpr1a mRNA,使用受体放射自显影术定量了 AVPR1A 蛋白。雄性和雌性从 E14.5 开始就可以测量到 Avp 的 mRNA,雄性产生的比雌性多,而 Avpr1a mRNA 早在 E12.5 就可以检测到,雌雄之间没有表达差异。从 E16.5 开始,两性都观察到了 AVPR1A 结合,虽然没有观察到性别差异,但结合密度和神经解剖区域的数量随着时间的推移而增加。这些数据非常重要,因为它们提供了胚胎小鼠中加压素系统的全脑特征描述。此外,这些发现与其他物种的数据一致,这些数据记录了在早期大脑形成过程中加压素系统存在性别差异。