Journal
NATURE COMMUNICATIONS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41467-021-24969-x
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Funding
- NIH postdoctoral fellowship [F32MH115565-01A1]
- NIH [DP2MH122399, 1R01MH120162, P50MH096890, R01MH117790-01, R01MH104341, R01MH106489]
- DoD PRCRP Horizon Award [W81XWH-19-1-0594]
- JJPVAMC-CSRD [1I01CX001395-01]
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The deficiency of neuronal Nsun2 leads to codon-specific epitranscriptomic changes of Gly-tRNAs and proteomic changes affecting synaptic signaling and behavior in mice. Disruption of neuronal tRNA cytosine methylation results in bi-directional changes in depression-related behaviors and alterations in the neuronal translatome. These findings highlight the importance of methylation sensitivity of glycinergic tRNAs in the adult prefrontal cortex and the link between synaptic plasticity and complex behaviors to epitranscriptomic modifications of cognate tRNAs and specific amino acids in the proteomic homeostasis.
The link between tRNA modifications, protein translation, and behavior is unclear. Here, the authors show that neuronal Nsun2 deficiency results in codon-specific epitranscriptomic changes of Gly-tRNAs and proteomic changes affecting synaptic signaling and behavior in mice. Epitranscriptomic mechanisms linking tRNA function and the brain proteome to cognition and complex behaviors are not well described. Here, we report bi-directional changes in depression-related behaviors after genetic disruption of neuronal tRNA cytosine methylation, including conditional ablation and transgene-derived overexpression of Nsun2 in the mouse prefrontal cortex (PFC). Neuronal Nsun2-deficiency was associated with a decrease in tRNA m(5)C levels, resulting in deficits in expression of 70% of tRNA(Gly) isodecoders. Altogether, 1488/5820 proteins changed upon neuronal Nsun2-deficiency, in conjunction with glycine codon-specific defects in translational efficiencies. Loss of Gly-rich proteins critical for glutamatergic neurotransmission was associated with impaired synaptic signaling at PFC pyramidal neurons and defective contextual fear memory. Changes in the neuronal translatome were also associated with a 146% increase in glycine biosynthesis. These findings highlight the methylation sensitivity of glycinergic tRNAs in the adult PFC. Furthermore, they link synaptic plasticity and complex behaviors to epitranscriptomic modifications of cognate tRNAs and the proteomic homeostasis associated with specific amino acids.
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