1. Methyltransferase-like 3 contributes to inflammatory pain by targeting TET1 in YTHDF2-dependent manner
- Author
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Xiao-Xiao Yang, Zhiqiang Pan, Yang Tao, Xiaodan Liu, Tong Jin, Xin-Chun Ye, Zhou-Ya Xue, Ming Zhang, Meng-Lan Sun, Ling Xie, Wen Shen, Qi Zhang, Ling-Yun Hao, Huimin Zhou, and Jun-Li Cao
- Subjects
Messenger RNA ,Methyltransferase ,Chemistry ,RNA ,Spinal cord ,Adenosine ,Cell biology ,03 medical and health sciences ,0302 clinical medicine ,Anesthesiology and Pain Medicine ,Nociception ,medicine.anatomical_structure ,Neurology ,Downregulation and upregulation ,030202 anesthesiology ,medicine ,Neurology (clinical) ,Gene ,030217 neurology & neurosurgery ,medicine.drug - Abstract
The methyltransferase-like 3 (Mettl3) is a key component of the large N6-adenosine-methyltransferase complex in mammalian responsible for RNA N6-methyladenosine (m6A) modification, which plays an important role in gene post-transcription modulation. Although RNA m6A is enriched in mammalian neurons, its regulatory function in nociceptive information processing remains elusive. Here, we reported that Complete Freund's Adjuvant (CFA)-induced inflammatory pain significantly decreased global m6A level and m6A writer Mettl3 in the spinal cord. Mimicking this decease by knocking down or conditionally deleting spinal Mettl3 elevated the levels of m6A in ten-eleven translocation methylcytosine dioxygenases 1 (Tet1) mRNA and TET1 protein in the spinal cord, leading to production of pain hypersensitivity. By contrast, overexpressing Mettl3 reversed a loss of m6A in Tet1 mRNA and blocked the CFA-induced increase of TET1 in the spinal cord, resulting in the attenuation of pain behavior. Furthermore, the decreased level of spinal YT521-B homology domain family protein 2 (YTHDF2), an RNA m6A reader, stabilized upregulation of spinal TET1 because of the reduction of Tet1 mRNA decay by the binding to m6A in Tet1 mRNA in the spinal cord after CFA. This study reveals a novel mechanism for downregulated spinal cord METTL3 coordinating with YTHDF2 contributes to the modulation of inflammatory pain through stabilizing upregulation of TET1 in spinal neurons.
- Published
- 2021