| Literature DB >> 30773347 |
Quanfeng Zhang1, Bin Liu1, Qihui Wu1, Bing Liu1, Yinglin Li1, Suhua Sun1, Yuan Wang1, Xi Wu1, Zuying Chai1, Xiaohan Jiang1, Xiaoyao Liu1, Meiqin Hu1, Yeshi Wang1, Yunting Yang1, Li Wang1, Xinjiang Kang1, Yingfei Xiong1, Yang Zhou1, Xiaoke Chen1, Lianghong Zheng1, Bo Zhang1, Changhe Wang1, Feipeng Zhu1, Zhuan Zhou2.
Abstract
Co-release of multiple neurotransmitters from secretory vesicles is common in neurons and neuroendocrine cells. However, whether and how the transmitters co-released from a single vesicle are differentially regulated remains unknown. In matrix-containing dense-core vesicles (DCVs) in chromaffin cells, there are two modes of catecholamine (CA) release from a single DCV: quantal and sub-quantal. By combining two microelectrodes to simultaneously record co-release of the native CA and ATP from a DCV, we report that (1) CA and ATP were co-released during a DCV fusion; (2) during kiss-and-run (KAR) fusion, the co-released CA was sub-quantal, whereas the co-released ATP was quantal; and (3) knockdown and knockout of the DCV matrix led to quantal co-release of both CA and ATP even in KAR mode. These findings strongly imply that, in contrast to sub-quantal CA release in chromaffin cells, fast synaptic transmission without transmitter-matrix binding is mediated exclusively via quantal release in neurons.Entities:
Keywords: co-release; dense-core vesicle; kiss-and-run; matrix; quantal; sub-quantal; vesicle fusion
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Year: 2019 PMID: 30773347 DOI: 10.1016/j.neuron.2019.01.031
Source DB: PubMed Journal: Neuron ISSN: 0896-6273 Impact factor: 17.173