| Literature DB >> 29779945 |
Hongying Zhu1, Ning Wang2, Lei Yao2, Qi Chen2, Ran Zhang2, Junchao Qian3, Yiwen Hou2, Weiwei Guo2, Sijia Fan2, Siling Liu4, Qiaoyun Zhao2, Feng Du2, Xin Zuo2, Yujun Guo2, Yan Xu2, Jiali Li4, Tian Xue5, Kai Zhong6, Xiaoyuan Song2, Guangming Huang7, Wei Xiong8.
Abstract
Sunlight exposure is known to affect mood, learning, and cognition. However, the molecular and cellular mechanisms remain elusive. Here, we show that moderate UV exposure elevated blood urocanic acid (UCA), which then crossed the blood-brain barrier. Single-cell mass spectrometry and isotopic labeling revealed a novel intra-neuronal metabolic pathway converting UCA to glutamate (GLU) after UV exposure. This UV-triggered GLU synthesis promoted its packaging into synaptic vesicles and its release at glutamatergic terminals in the motor cortex and hippocampus. Related behaviors, like rotarod learning and object recognition memory, were enhanced after UV exposure. All UV-induced metabolic, electrophysiological, and behavioral effects could be reproduced by the intravenous injection of UCA and diminished by the application of inhibitor or short hairpin RNA (shRNA) against urocanase, an enzyme critical for the conversion of UCA to GLU. These findings reveal a new GLU biosynthetic pathway, which could contribute to some of the sunlight-induced neurobehavioral changes.Entities:
Keywords: UV light; glutamate; hippocampus; learning; mass spectrometry; memory; motor cortex; single cell; sunlight; urocanic acid
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Year: 2018 PMID: 29779945 DOI: 10.1016/j.cell.2018.04.014
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582