Kaugars Katherine E, Rivers Charlotte I, Saha Margaret S, Heideman Paul D
Department of Biology, College of William and Mary, Williamsburg, Virginia.
J Exp Zool A Ecol Genet Physiol. 2016 Feb;325(2):106-15. doi: 10.1002/jez.2000. Epub 2015 Dec 24.
The evolution of brain function in the regulation of physiology may depend in part upon the numbers and locations of neurons. Wild populations of rodents contain natural genetic variation in the inhibition of reproduction by winter-like short photoperiod, and it has been hypothesized that this functional variation might be due in part to heritable variation in the numbers or location of gonadotropin releasing hormone (GnRH) neurons. A naturally variable wild-source population of white-footed mice was used to develop lines artificially selected for or against mature gonads in short, winter-like photoperiods. We compared a selection line that is reproductively inhibited in short photoperiod (Responsive) to a line that is weakly inhibited by short photoperiod (Nonresponsive) for differences in counts of neurons identified using in situ hybridization for GnRH mRNA. There was no effect of photoperiod, but there were 60% more GnRH neurons in total in the Nonresponsive selection line than the Responsive selection line. The lines differed specifically in numbers of GnRH neurons in more anterior regions, whereas numbers of GnRH neurons in posterior areas were not statistically different between lines. We compare these results to those of an earlier study that used immunohistochemical labeling for GnRH neurons. The results are consistent with the hypothesis that the selection lines and natural source population contain significant genetic variation in the number and location of GnRH neurons. The variation in GnRH neurons may contribute to functional variation in fertility that occurs in short photoperiods in the laboratory and in the wild source population in winter.
大脑功能在生理调节中的进化可能部分取决于神经元的数量和位置。野生啮齿动物种群在类似冬季的短光周期抑制繁殖方面存在自然遗传变异,并且据推测,这种功能变异可能部分归因于促性腺激素释放激素(GnRH)神经元数量或位置的可遗传变异。利用白足鼠的一个自然可变野生源种群,培育出在类似冬季的短光周期下针对或反对成熟性腺进行人工选择的品系。我们将在短光周期下生殖受到抑制的选择品系(反应型)与在短光周期下受到弱抑制的品系(无反应型)进行比较,以观察使用GnRH mRNA原位杂交鉴定的神经元数量差异。光周期没有影响,但无反应型选择品系中的GnRH神经元总数比反应型选择品系多60%。品系在更靠前区域的GnRH神经元数量上存在显著差异,而后部区域的GnRH神经元数量在品系间无统计学差异。我们将这些结果与早期一项使用GnRH神经元免疫组化标记的研究结果进行比较。这些结果与以下假设一致:选择品系和自然源种群在GnRH神经元的数量和位置上存在显著的遗传变异。GnRH神经元的变异可能导致实验室短光周期以及野生源种群冬季短光周期中生育能力的功能变异。