The retrotransposon-derived capsid genes PNMA1 and PNMA4 maintain reproductive capacity.

IF 17 Q1 CELL BIOLOGY

Nature aging Pub Date : 2025-05-01 Epub Date: 2025-04-22 DOI:10.1038/s43587-025-00852-y

Thomas W P Wood, William S Henriques, Harrison B Cullen, Mayra Romero, Cecilia S Blengini, Shreya Sarathy, Julia Sorkin, Hilina Bekele, Chen Jin, Seungsoo Kim, Xifan Wang, Raphaelle Laureau, Alexei Chemiakine, Rishad C Khondker, José V V Isola, Michael B Stout, Vincenzo A Gennarino, Binyam Mogessie, Devanshi Jain, Karen Schindler, Yousin Suh, Blake Wiedenheft, Luke E Berchowitz

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引用次数: 0

Abstract

Almost half of the human genome consists of retrotransposons-'parasitic' sequences that insert themselves into the host genome via an RNA intermediate. Although most of these sequences are silenced or mutationally deactivated, they can present opportunities for evolutionary innovation: mutation of a deteriorating retrotransposon can result in a gene that provides a selective advantage to the host in a process termed 'domestication'^1-3. The PNMA family of gag-like capsid genes was domesticated from an ancient vertebrate retrotransposon of the Metaviridae clade at least 100 million years ago^4,5. PNMA1 and PNMA4 are positively regulated by the master germ cell transcription factors MYBL1 and STRA8, and their transcripts are bound by the translational regulator DAZL during gametogenesis⁶. This developmental regulation of PNMA1 and PNMA4 expression in gonadal tissue suggested to us that they might serve a reproductive function. Through the analysis of donated human ovaries, genome-wide association studies (GWASs) and mouse models, we found that PNMA1 and PNMA4 are necessary for the maintenance of a normal reproductive lifespan. These proteins self-assemble into capsid-like structures that exit human cells, and we observed large PNMA4 particles in mouse male gonadal tissue that contain RNA and are consistent with capsid formation.

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反转录转座子衍生的衣壳基因PNMA1和PNMA4维持生殖能力。

几乎一半的人类基因组由反转录转座子组成，这是一种“寄生”序列，通过RNA中间体将自己插入宿主基因组。虽然这些序列中的大多数是沉默的或突变失活的，但它们可以为进化创新提供机会：退化的反转录转座子突变可以导致一个基因在称为“驯化”的过程中为宿主提供选择优势1-3。gag样衣壳基因的PNMA家族是从至少1亿年前的元病毒科分支的一个古老的脊椎动物反转录转座子驯化而来的4,5。PNMA1和PNMA4受生殖细胞主转录因子MYBL1和STRA8的正调控，其转录本在配子发生过程中受到翻译调节因子DAZL的结合6。PNMA1和PNMA4在性腺组织中表达的发育调控提示它们可能具有生殖功能。通过对捐赠的人类卵巢、全基因组关联研究（GWASs）和小鼠模型的分析，我们发现PNMA1和PNMA4对于维持正常的生殖寿命是必要的。这些蛋白质自组装成衣壳样结构，离开人类细胞，我们在小鼠雄性性腺组织中观察到含有RNA的大PNMA4颗粒，与衣壳的形成一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature aging

CiteScore

14.70

自引率

0.00%

发文量