Eleni Kopsida, Evangelia Stergiakouli, Phoebe M Lynn, Lawrence S Wilkinson, William Davies
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引用次数: 0
Abstract
In mammals, sex differences are evident in many aspects of brain development, brain function and behaviour. Ultimately, such differences must arise from the differential sex chromosome complements in males and females: males inherit a single X chromosome and a Y chromosome, whilst females inherit two X chromosomes. One possible mechanism for sexual differentiation of the brain is via male-limited expression of genes on the small Y chromosome. Many Y-linked genes have been implicated in the development of the testes, and therefore could theoretically contribute to sexual differentiation of the brain indirectly, through influencing gonadal hormone production. Alternatively, Y-linked genes that are expressed in the brain could directly influence neural masculinisation. The present paper reviews evidence from human genetic studies and animal models for Y-linked effects (both direct and indirect) on neurodevelopment, brain function and behaviour. Besides enhancing our knowledge of the mechanisms underlying mammalian neural sexual differentiation, studies geared towards understanding the role of the Y chromosome in brain function will help to elucidate the molecular basis of sex-biased neuropsychiatric disorders, allowing for more selective sex-specific therapies.
在哺乳动物中,大脑发育、大脑功能和行为等许多方面都存在明显的性别差异。归根结底,这些差异一定是由雌雄不同的性染色体互补性造成的:雄性遗传了一条 X 染色体和一条 Y 染色体,而雌性则遗传了两条 X 染色体。大脑性分化的一个可能机制是,小 Y 染色体上的基因表达受男性限制。许多 Y 连锁基因与睾丸的发育有关,因此理论上可以通过影响性腺激素的分泌间接促进大脑的性分化。另外,在大脑中表达的 Y 连锁基因也可能直接影响神经男性化。本文回顾了来自人类基因研究和动物模型的证据,证明了 Y 连锁基因对神经发育、大脑功能和行为的直接和间接影响。除了增进我们对哺乳动物神经性分化机制的了解外,旨在了解 Y 染色体在大脑功能中作用的研究将有助于阐明有性别偏见的神经精神疾病的分子基础,从而能够采取更具选择性的性别特异性疗法。
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