Zhijuan Hu, Liang Yang, Maolei Zhang, Haite Tang, Yile Huang, Yujie Su, Yingzhe Ding, Chong Li, Mengfei Wang, Yunhao Zhou, Qing Zhang, Liman Guo, Yue Wu, Qianqian Wang, Ning Liu, Haoran Kang, Yi Wu, Deyang Yao, Yukun Li, Zifeng Ruan, Xingguo Liu
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引用次数: 0
摘要
线粒体基因组转录 13 个 mRNA,编码氧化磷酸化所必需的著名蛋白质。我们在此证明,细胞色素 b(CYTB)是复合体 III 中唯一由线粒体 DNA 转录的转录本,它还利用细胞质核糖体的标准遗传密码而不是线粒体遗传密码编码一种未被识别的 187 氨基酸长的蛋白质 CYTB-187AA。在利用质谱和抗体验证了这种由细胞质翻译产生的 mtDNA 编码蛋白(mPACT)的存在后,我们发现 CYTB-187AA 主要定位于线粒体基质中,并通过与溶质运载家族 25 成员 3(SLC25A3)相互作用来调节 ATP 的产生,从而促进了多能状态从原始到新生的转变。我们进一步建立了一个CYTB-187AA沉默的转基因敲除小鼠模型,并发现CYTB-187AA的减少会通过减少卵巢卵泡的数量而损害女性的生育能力。我们首次发现了线粒体 mRNA 的新型 mPACT 模式,并证明了这种由 mtDNA 编码的第 14 种蛋白质的生理功能。
A novel protein CYTB-187AA encoded by the mitochondrial gene CYTB modulates mammalian early development
The mitochondrial genome transcribes 13 mRNAs coding for well-known proteins essential for oxidative phosphorylation. We demonstrate here that cytochrome b (CYTB), the only mitochondrial-DNA-encoded transcript among complex III, also encodes an unrecognized 187-amino-acid-long protein, CYTB-187AA, using the standard genetic code of cytosolic ribosomes rather than the mitochondrial genetic code. After validating the existence of this mtDNA-encoded protein arising from cytosolic translation (mPACT) using mass spectrometry and antibodies, we show that CYTB-187AA is mainly localized in the mitochondrial matrix and promotes the pluripotent state in primed-to-naive transition by interacting with solute carrier family 25 member 3 (SLC25A3) to modulate ATP production. We further generated a transgenic knockin mouse model of CYTB-187AA silencing and found that reduction of CYTB-187AA impairs females’ fertility by decreasing the number of ovarian follicles. For the first time, we uncovered the novel mPACT pattern of a mitochondrial mRNA and demonstrated the physiological function of this 14th protein encoded by mtDNA.
期刊介绍:
Cell Metabolism is a top research journal established in 2005 that focuses on publishing original and impactful papers in the field of metabolic research.It covers a wide range of topics including diabetes, obesity, cardiovascular biology, aging and stress responses, circadian biology, and many others.
Cell Metabolism aims to contribute to the advancement of metabolic research by providing a platform for the publication and dissemination of high-quality research and thought-provoking articles.