Chloroquine inhibits Ca2+ permeable ion channels-mediated Ca2+ signaling in primary B lymphocytes

Yi-Fan Wu; Ping Zhao; Xi Luo; Jin-Chao Xu; Lu Xue; Qi Zhou; Mingrui Xiong; Jinhua Shen; Yong-Bo Peng; Meng-Fei Yu; Weiwei Chen; Liqun Ma; Qing-Hua Liu

doi:10.1186/s13578-017-0155-5

Cell & Bioscience (May 2017)

Chloroquine inhibits Ca2+ permeable ion channels-mediated Ca2+ signaling in primary B lymphocytes

Yi-Fan Wu,
Ping Zhao,
Xi Luo,
Jin-Chao Xu,
Lu Xue,
Qi Zhou,
Mingrui Xiong,
Jinhua Shen,
Yong-Bo Peng,
Meng-Fei Yu,
Weiwei Chen,
Liqun Ma,
Qing-Hua Liu

Affiliations

Yi-Fan Wu: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Ping Zhao: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Xi Luo: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Jin-Chao Xu: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Lu Xue: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Qi Zhou: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Mingrui Xiong: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Jinhua Shen: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Yong-Bo Peng: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Meng-Fei Yu: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Weiwei Chen: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Liqun Ma: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities
Qing-Hua Liu: Institute for Medical Biology & Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, College of Life Sciences, South Central University for Nationalities

DOI: https://doi.org/10.1186/s13578-017-0155-5
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 5

Abstract

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Abstract Background Chloroquine, a bitter tastant, inhibits Ca2+ signaling, resulting in suppression of B cell activation; however, the inhibitory mechanism remains unclear. Results In this study, thapsigargin (TG), but not caffeine, induced sustained intracellular Ca2+ increases in mouse splenic primary B lymphocytes, which were markedly inhibited by chloroquine. Under Ca2+-free conditions, TG elicited transient Ca2+ increases, which additionally elevated upon the restoration of 2 mM Ca2+. The former were from release of intracellular Ca2+ store and the latter from Ca2+ influx. TG-induced release was inhibited by 2-APB (an inhibitor of inositol-3-phosphate receptors, IP3Rs) and chloroquine, and TG-caused influx was inhibited by pyrazole (Pyr3, an inhibitor of transient receptor potential C3 (TRPC3) and stromal interaction molecule (STIM)/Orai channels) and chloroquine. Moreover, chloroquine also blocked Ca2+ increases induced by the engagement of B cell receptor (BCR) with anti-IgM. Conclusions These results indicate that chloroquine inhibits Ca2+ elevations in splenic B cells through inhibiting Ca2+ permeable IP3R and TRPC3 and/or STIM/Orai channels. These findings suggest that chloroquine would be a potent immunosuppressant.

Published in Cell & Bioscience

ISSN: 2045-3701 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Biology (General); Science: Chemistry: Organic chemistry: Biochemistry
Website: https://cellandbioscience.biomedcentral.com/

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