芳香化酶(CYP19)表达中的神经干细胞性别二态性:差异神经命运的基础。

IF 1.7 Q4 CELL BIOLOGY Stem Cells and Cloning-Advances and Applications Pub Date : 2010-11-22 eCollection Date: 2010-01-01 DOI:10.2147/SCCAA.S15200
Jay Waldron, Althea McCourty, Laurent Lecanu
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引用次数: 24

摘要

目的:神经干细胞(NSC)移植和内源性神经发生的药物激活是两种引起广泛关注的脑修复策略。然而,临床尝试使用干细胞恢复创伤性脑损伤或神经退行性疾病后改变的神经功能的成功率仍然相当令人失望。这表明影响移植的NSCs命运的因素在很大程度上还没有得到充分的研究,并且仍有待确定。我们最近报道了衰老对男性和女性NSCs神经源性的不同影响。尽管性类固醇、雄激素和雌激素参与神经发生的调节,但据我们所知,关于性别差异如何影响NSCs分化和调节其神经命运的研究尚缺乏。在本研究中,我们进一步探讨了细胞性别作为神经命运的决定因素的作用,随后分化NSCs,以及它与芳香化酶(CYP19)的潜在差异表达的关系,CYP19是睾酮代谢酶。结果:使用从三个月大的雄性和雌性Long-Evans大鼠脑室下区分离并作为神经球维持的NSCs,我们发现维甲酸触发的分化导致依赖于细胞性别的神经表型。分化后的雄性NSCs主要表达神经元命运的标志物,包括β iii -微管蛋白、微管相关蛋白2、生长相关蛋白43和双皮质素。相反,雌性NSCs主要表达星形胶质细胞标志物胶质原纤维酸性蛋白。芳香化酶在未分化的雌性NSCs中的表达水平非常低,而雄性NSCs中的芳香化酶表达水平是雌性NSCs的14倍。结论:我们的研究结果证实了我们之前的数据,即分化的NSCs获得的神经表型在很大程度上取决于细胞性别,未分化的NSCs中芳香化酶的差异表达可能有助于这种基于性别的二态性。虽然仍处于初步阶段,但我们的发现可能在未来大脑修复策略的发展中具有临床应用价值。
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Neural stem cell sex dimorphism in aromatase (CYP19) expression: a basis for differential neural fate.

Purpose: Neural stem cell (NSC) transplantation and pharmacologic activation of endogenous neurogenesis are two approaches that trigger a great deal of interest as brain repair strategies. However, the success rate of clinical attempts using stem cells to restore neurologic functions altered either after traumatic brain injury or as a consequence of neurodegenerative disease remains rather disappointing. This suggests that factors affecting the fate of grafted NSCs are largely understudied and remain to be characterized. We recently reported that aging differentially affects the neurogenic properties of male and female NSCs. Although the sex steroids androgens and estrogens participate in the regulation of neurogenesis, to our knowledge, research on how gender-based differences affect the capacity of NSCs to differentiate and condition their neural fate is lacking. In the present study, we explored further the role of cell sex as a determining factor of the neural fate followed by differentiating NSCs and its relationship with a potential differential expression of aromatase (CYP19), the testosterone-metabolizing enzyme.

Results: Using NSCs isolated from the subventricular zone of three-month-old male and female Long-Evans rats and maintained as neurospheres, we showed that differentiation triggered by retinoic acid resulted in a neural phenotype that depends on cell sex. Differentiated male NSCs mainly expressed markers of neuronal fate, including βIII-tubulin, microtubule associated protein 2, growth-associated protein 43, and doublecortin. In contrast, female NSCs essentially expressed the astrocyte marker glial fibrillary acidic protein. Quantification of the expression of aromatase showed a very low level of expression in undifferentiated female NSCs, whereas aromatase expression in male NSCs was 14-fold greater than the female level.

Conclusion: Our results confirm our previous data that the neural phenotype acquired by differentiating NSCs largely depends on cell sex, and that differential expression of aromatase in undifferentiated NSCs might contribute to this sex-based dimorphism. Although still preliminary, our discovery may have clinical application in the development of future brain repair strategies.

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来源期刊
CiteScore
6.50
自引率
0.00%
发文量
10
审稿时长
16 weeks
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