Mettl14 Is Essential for Epitranscriptomic Regulation of Striatal Function and Learning

Koranda, Jessica L.; Dore, Lou; Shi, Hailing; Patel, Meera J.; Vaasjo, Lee O.; Rao, Meghana N.; Chen, Kai; Lu, Zhike; Yi, Yangtian; Chi, Wanhao; He, Chuan; Zhuang, Xiaoxi

doi:10.1016/j.neuron.2018.06.007

Cited by 126 publications

(121 citation statements)

References 33 publications

(43 reference statements)

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“…We found that m 6 A mRNA modifications were mainly enriched in the CDS, near the stop codon, and in the 3 UTR, which is similar to the observed topological pattern of m 6 A methylation in mammals [23,34] and rice [28]. However, m 6 A modifications were also enriched near the start codons of Arabidopsis [25].…”

Section: Discussionsupporting

confidence: 82%

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

Wang

et al. 2019

Preprint

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Background: Intensive and large-scale development of the sheep industry and increases in global temperature are increasingly exposing sheep to heat stress. N6-methyladenosine (m6A) mRNA methylation varies in response to stress, and can link external stress with complex transcriptional and post-transcriptional processes. However, no m6A mRNA methylation map has been obtained for sheep, nor is it known what effect this has on regulating heat stress in sheep. Results: A total of 8,306 and 12,958 m6A peaks were detected in heat stress and control groups, respectively, with 2,697 and 5,494 genes associated with each. Peaks were mainly enriched in coding regions and near stop codons with classical RRACH motifs. Methylation levels of heat stress and control sheep were higher near stop codons, although methylation was significantly lower in heat stress sheep. GO revealed that differential m6A-containing genes were mainly enriched in the nucleus and were involved in several stress responses and substance metabolism processes. KEGG pathway analysis found that differential m6A-containing genes were significantly enriched in Rap1, FoxO, MAPK, and other signaling pathways of the stress response, and TGF-beta, AMPK, Wnt, and other signaling pathways involved in fat metabolism. These m6A-modified genes were moderately expressed in both heat stress and control sheep, and the enrichment of m6A modification was significantly negatively correlated with gene expression. Conclusions: Our results showed that m6A mRNA methylation modifications regulate heat stress in sheep, and it also provided a new way for the study of animal response to heat stress.

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Section: Discussionsupporting

confidence: 82%

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

Wang

et al. 2019

Preprint

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“…17 Due to the important roles in the regulation of m 6 A modification, these methyltransferases and demethylases are also essential for many biological processes. 29 Furthermore, FTO in adult brain is important for fear memory and synaptic plasticity. 28 Deletion of METTL14 profoundly impaired striatal-mediated behaviors in adult mice.…”

Section: Discussionmentioning

confidence: 99%

METTL3 regulates inflammatory pain by modulating m⁶A‐dependent pri‐miR‐365‐3p processing

Zhang¹,

Wang

Peng

et al. 2019

The FASEB Journal

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N6‐methyladenosine (m6A) modification in RNA has been implicated in diverse biological processes. However, very little is currently known about its role in nociceptive modulation. Here, we found that the level of spinal m6A modification was significantly increased in a mouse model of Complete Freund's Adjuvant (CFA)‐induced chronic inflammatory pain, which was accompanied with the augmentation of methyltransferase‐like 3 (METTL3) expression in the spinal cord. Knockdown of spinal METTL3 prevented and reversed CFA‐induced pain behaviors and spinal neuronal sensitization. In contrast, overexpression of spinal METTL3 produced pain behaviors and neuronal sensitization in naive mice. Moreover, we found that METTL3 positively modulated the pri‐miR‐65‐3p processing in a microprocessor protein DiGeorge critical region 8‐dependent manner. Collectively, our findings reveal an important role of METTL3‐mediated m6A modification in nociceptive sensitization and provide a novel perspective on m6A modification in the development of pathological pain.

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“…METTL14 is critical for striatum function and transcriptional regulation of learning epitopes. In cell experiments, the deletion of METTL14 reduces striatum m 6 A levels without altering cell number or morphology, increases neuronal excitability and severely impaired striatal-mediated behavior [84].…”

Section: Effect Of M 6 a On Learning And Memorymentioning

confidence: 94%

The role of mRNA m6A methylation in the nervous system

Yang

et al. 2019

Cell Biosci

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Epitranscriptomics, also known as "RNA epigenetics", is a chemical modification for RNA regulation. Ribonucleic acid (RNA) methylation is considered to be a major discovery following the deoxyribonucleic acid (DNA) and histone methylation. Messenger RNA (mRNA) methylation modification accounts for more than 60% of all RNA modifications and N6-methyladenosine (m 6 A) is known as one of the most common type of eukaryotic mRNA methylation modifications in current. The m 6 A modification is a dynamic reversible modification, which can directly or indirectly affect biological processes, such as RNA degradation, translation and splicing, and can play important biological roles in vivo. This article introduces the mRNA m 6 A methylation modification enzymes and binding proteins, and reviews the research progress and related mechanisms of the role of mRNA m 6 A methylation in the nervous system from the aspects of neural stem cells, learning and memory, brain development, axon growth and glioblastoma.

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Mettl14 Is Essential for Epitranscriptomic Regulation of Striatal Function and Learning

Cited by 126 publications

References 33 publications

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

METTL3 regulates inflammatory pain by modulating m⁶A‐dependent pri‐miR‐365‐3p processing

The role of mRNA m6A methylation in the nervous system

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Mettl14 Is Essential for Epitranscriptomic Regulation of Striatal Function and Learning

Cited by 126 publications

References 33 publications

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

N6-methyladenosine modification modulate in the heat stress of sheep (Ovis aries)

METTL3 regulates inflammatory pain by modulating m6A‐dependent pri‐miR‐365‐3p processing

The role of mRNA m6A methylation in the nervous system

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METTL3 regulates inflammatory pain by modulating m⁶A‐dependent pri‐miR‐365‐3p processing