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Endogenous retroviruses synthesize heterologous chimeric RNAs to reinforce human early embryo development

Yangquan Xiang, Yuli Qian, Zhengyi Li, Jiaxu Wang, Ruonan Tian, Weikang Meng, Jiabao Bu, Fei Huang, Zhipeng Ai, Danya Wu, Xijia Chen, You Wu, Li Shen, Yun-Shen Chan, Yawei Gao, Jun Ma, Wanlu Liu, Shaorong Gao, Dan Zhang, Hongqing Liang

2026Science6 citationsDOI

Abstract

Zygotic genome activation (ZGA) failure leads to developmental arrest and poses a clinical challenge to women's fertility. We observed that human embryos arresting at the eight-cell ZGA stage exhibited specific down-regulation of endogenous retrovirus MLT2A1. Depleting MLT2A1 resulted in a failure in embryo development and a reduction in ZGA gene expression. Mechanistically, MLT2A1s synthesized chimeric transcripts with downstream coding and noncoding sequences, predominantly with heterologous retro-transposable elements. These diverse fusion sequences expanded the genome-targeting spectrum of MLT2A1 RNAs. Nevertheless, the shared MLT2A1 sequences partnered with heterogeneous nuclear ribonucleoprotein U (HNRNPU) to recruit RNA polymerase II, promoting global transcription of ZGA genes and autoamplification of the MLT2A1 subfamily. Thus, MLT2A1 chimeric RNAs formed an interlocking network that acts synergistically to boost human ZGA and early embryogenesis.

Topics & Concepts

BiologyHeterologousMaternal to zygotic transitionRibonucleoproteinEndogenous retrovirusEmbryoCell biologyTranscription (linguistics)RNAGeneRetrovirusGeneticsLong non-coding RNARNA polymerase IIGenomeRegulation of gene expressionEndogenyFusion geneTranscription factorMolecular biologyZygoteGuide RNAChromosomal and Genetic VariationsPluripotent Stem Cells ResearchDevelopmental Biology and Gene Regulation
Endogenous retroviruses synthesize heterologous chimeric RNAs to reinforce human early embryo development | Litcius