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Intracellular TRPA1 mediates Ca2+ release from lysosomes in dorsal root ganglion neurons.

The Journal of cell biology (2016-11-02)
Shujiang Shang, Feipeng Zhu, Bin Liu, Zuying Chai, Qihui Wu, Meiqin Hu, Yuan Wang, Rong Huang, Xiaoyu Zhang, Xi Wu, Lei Sun, Yeshi Wang, Li Wang, Huadong Xu, Sasa Teng, Bing Liu, Lianghong Zheng, Chen Zhang, Fukang Zhang, Xinghua Feng, Desheng Zhu, Changhe Wang, Tao Liu, Michael X Zhu, Zhuan Zhou
ABSTRACT

Transient receptor potential A1 (TRPA1) is a nonselective cation channel implicated in thermosensation and inflammatory pain. In this study, we show that TRPA1 (activated by allyl isothiocyanate, acrolein, and 4-hydroxynonenal) elevates the intracellular Ca2+ concentration ([Ca2+]i) in dorsal root ganglion (DRG) neurons in the presence and absence of extracellular Ca2+ Pharmacological and immunocytochemical analyses revealed the presence of TRPA1 channels both on the plasma membrane and in endolysosomes. Confocal line-scan imaging demonstrated Ca2+ signals elicited from individual endolysosomes ("lysosome Ca2+ sparks") by TRPA1 activation. In physiological solutions, the TRPA1-mediated endolysosomal Ca2+ release contributed to ∼40% of the overall [Ca2+]i rise and directly triggered vesicle exocytosis and calcitonin gene-related peptide release, which greatly enhanced the excitability of DRG neurons. Thus, in addition to working via Ca2+ influx, TRPA1 channels trigger vesicle release in sensory neurons by releasing Ca2+ from lysosome-like organelles.

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Anti-Goat IgG (whole molecule)–Gold antibody produced in rabbit, affinity isolated antibody, aqueous glycerol suspension, 10 nm (colloidal gold)