Decoding Sex Differences in the Brain, One Worm at a Time

Chen Wang
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引用次数: 1

Abstract

Sex differences in the brain are prominent features across the animal kingdom. Understanding the anatomical and regulatory mechanisms behind these differences is critical for both explaining sexually dimorphic behaviors and developing sex-targeted treatments for neurological disorders. Clinical studies considering sex biases and basic research on animal models have provided much evidence for the existence of sex differences in the brain and, in a larger sense, sexual dimorphisms in the nervous system. However, due to the complexity of structure and dimorphic behaviors, it is yet unclear precisely how neuronal sexual dimorphisms are regulated on a molecular or cellular level. This commentary reviews available tools for investigating sexual dimorphisms using a simple model organism, the roundworm Caenorhabditis elegans (C. elegans), which enables one to study gene regulation at single-cell resolution with a number of cutting-edge molecular and genetic technologies. I highlight the doublesex/mab-3 family of transcription factors, first discovered in invertebrates, and their roles in a potentially universal regulatory mechanism underlying neuronal sexual dimorphisms. Studies of these transcription factors using C. elegans, fruit flies, and vertebrates will promote our understanding of fundamental mechanisms behind sex differences in the brain.
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解码大脑中的性别差异,一次一个蠕虫
大脑的性别差异是动物界的一个突出特征。了解这些差异背后的解剖学和调节机制对于解释两性二态行为和开发针对神经系统疾病的性别靶向治疗至关重要。考虑到性别偏见的临床研究和动物模型的基础研究已经为大脑中性别差异的存在提供了大量证据,从更大的意义上说,神经系统中性别二态性的存在。然而,由于结构和二态行为的复杂性,目前尚不清楚神经元性别二态是如何在分子或细胞水平上调控的。这篇评论综述了利用一种简单的模式生物——秀丽隐杆线虫(C. elegans)研究两性二态现象的现有工具,它使人们能够利用一些尖端的分子和遗传技术在单细胞分辨率上研究基因调控。我强调了双性/单抗-3转录因子家族,首先在无脊椎动物中发现,以及它们在神经元性别二态性的潜在普遍调节机制中的作用。利用秀丽隐杆线虫、果蝇和脊椎动物对这些转录因子的研究将促进我们对大脑性别差异背后的基本机制的理解。
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