Sara Zaccara scite author profile

N6-methyladenosine (m6A) is an abundant nucleotide modification in mRNA that is required for the differentiation of mouse embryonic stem cells. However, it remains unknown whether m6A controls differentiation of normal and/or malignant myeloid hematopoietic cells. Here we show that shRNA-mediated depletion of the m6A-forming enzyme METTL3 in human hematopoietic stem/progenitor cells promotes differentiation coupled with reduced proliferation. Conversely, overexpression of wild-type METTL3, but not the catalytic-dead form of METTL3, inhibits differentiation and increases cell growth. METTL3 mRNA and protein is expressed more abundantly in acute myeloid leukemia (AML) cells compared to healthy hematopoietic stem/progenitor cells and other types of tumors. Furthermore, METTL3 depletion in humanmyeloid leukemia cell lines induces differentiation and apoptosis and delays leukemia in recipient mice in vivo. Single-nucleotide resolution mapping of m6A coupled with ribosome profiling reveals that m6A promotes the translation of c-MYC, BCL2 and PTEN mRNAs in human myeloid leukemia MOLM13 cells. Moreover, loss of METTL3 leads to increased levels of pAKT, which contributes to the differentiation effects of METTL3 depletion. Overall these results provide a rationale for therapeutic targeting of METTL3 in myeloid leukemia.

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A Unified Model for the Function of YTHDF Proteins in Regulating m6A-Modified mRNA

Zaccara

Jaffrey

2020

Cell

557

545

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N 6 -methyladenosine (m 6 A) is the most abundant mRNA nucleotide modification and regulates critical aspects of cellular physiology and differentiation. m 6 A is thought to mediate its effects through a complex network of interactions between different m 6 A sites and three functionally distinct cytoplasmic YTHDF m 6 A-binding proteins (DF1, DF2, and DF3). In contrast to the prevailing model, we show that DF proteins bind the same m 6 A-modified mRNAs rather than different mRNAs. Furthermore, we find that DF proteins do not induce translation in HeLa cells. Instead, the DF paralogs act redundantly to mediate mRNA degradation and cellular differentiation. The ability of DF proteins to regulate stability and differentiation becomes evident only when all three DF paralogs are depleted simultaneously. Our study reveals a unified model of m 6 A function in which all m 6 A-modified mRNAs are subjected to the combined action of YTHDF proteins in proportion to the number of m 6 A sites. ll

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m6A enhances the phase separation potential of mRNA

Ries

Zaccara

Klein

et al. 2019

Nature

561

470

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The need for transparency and good practices in the qPCR literature

et al. 2013

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Sara Zaccara

Reading, writing and erasing mRNA methylation

The N6-methyladenosine (m6A)-forming enzyme METTL3 controls myeloid differentiation of normal hematopoietic and leukemia cells

A Unified Model for the Function of YTHDF Proteins in Regulating m6A-Modified mRNA

m6A enhances the phase separation potential of mRNA

The need for transparency and good practices in the qPCR literature

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