Jianying Wang scite author profile

Emerging evidence revealed important roles of tumor neoantigens in generating spontaneous antitumor immune responses and predicting clinical responses to immunotherapies 1 , 2 . Despite the presence of numerous neoantigens, complete tumor elimination rarely occurs in many patients, due to failures in mounting a sufficient and lasting antitumor immune response 3 , 4 . Here, we show that durable neoantigen-specific immunity is regulated by messenger RNA (mRNA) N 6 -methyadenosine (m 6 A) methylation through the m 6 A-binding protein YTHDF1 5 . In contrast to wild-type mice, Ythdf1 -deficient ( Ythdf1 −/− ) mice exhibit an elevated antigen-specific CD8 + T cell antitumor response. Loss of YTHDF1 in classical dendritic cells (cDCs) enhanced the cross-presentation of tumor antigen and the cross-priming of CD8 + T cells in vivo . Mechanistically, transcripts encoding lysosomal proteases are marked by m 6 A and recognized by YTHDF1. Binding of YTHDF1 to these transcripts elevates translation of lysosomal cathepsins in DCs, with the inhibition of cathepsins markedly enhancing cross-presentation of the wild-type DCs. Furthermore, the therapeutic efficacy of PD-L1 checkpoint blockade is enhanced in Ythdf1 −/− mice, implicating YTHDF1 as a new potential therapeutic target in anticancer immunotherapy.

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Ythdc2 is an N6-methyladenosine binding protein that regulates mammalian spermatogenesis

Hsu

et al. 2017

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N-methyladenosine (mA) is the most common internal modification in eukaryotic mRNA. It is dynamically installed and removed, and acts as a new layer of mRNA metabolism, regulating biological processes including stem cell pluripotency, cell differentiation, and energy homeostasis. mA is recognized by selective binding proteins; YTHDF1 and YTHDF3 work in concert to affect the translation of mA-containing mRNAs, YTHDF2 expedites mRNA decay, and YTHDC1 affects the nuclear processing of its targets. The biological function of YTHDC2, the final member of the YTH protein family, remains unknown. We report that YTHDC2 selectively binds mA at its consensus motif. YTHDC2 enhances the translation efficiency of its targets and also decreases their mRNA abundance. Ythdc2 knockout mice are infertile; males have significantly smaller testes and females have significantly smaller ovaries compared to those of littermates. The germ cells of Ythdc2 knockout mice do not develop past the zygotene stage and accordingly, Ythdc2 is upregulated in the testes as meiosis begins. Thus, YTHDC2 is an mA-binding protein that plays critical roles during spermatogenesis.

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Generation of Gene-Modified Cynomolgus Monkey via Cas9/RNA-Mediated Gene Targeting in One-Cell Embryos

Niu

Shen

Cui

et al. 2014

Cell

943

690

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Monkeys serve as important model species for studying human diseases and developing therapeutic strategies, yet the application of monkeys in biomedical researches has been significantly hindered by the difficulties in producing animals genetically modified at the desired target sites. Here, we first applied the CRISPR/Cas9 system, a versatile tool for editing the genes of different organisms, to target monkey genomes. By coinjection of Cas9 mRNA and sgRNAs into one-cell-stage embryos, we successfully achieve precise gene targeting in cynomolgus monkeys. We also show that this system enables simultaneous disruption of two target genes (Ppar-γ and Rag1) in one step, and no off-target mutagenesis was detected by comprehensive analysis. Thus, coinjection of one-cell-stage embryos with Cas9 mRNA and sgRNAs is an efficient and reliable approach for gene-modified cynomolgus monkey generation.

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Generation of gene-modified mice via Cas9/RNA-mediated gene targeting

et al. 2013

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Jianying Wang

Anti-tumour immunity controlled through mRNA m6A methylation and YTHDF1 in dendritic cells

Ythdc2 is an N6-methyladenosine binding protein that regulates mammalian spermatogenesis

Generation of Gene-Modified Cynomolgus Monkey via Cas9/RNA-Mediated Gene Targeting in One-Cell Embryos

Generation of gene-modified mice via Cas9/RNA-mediated gene targeting

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