PubMed 24533129
Referenced in: Kv1.3
Automatically associated channels: Kv1.3 , Kv1.5
Title: Effect of methamphetamine on the microglial damage: role of potassium channel Kv1.3.
Authors: Jun Wang, Wenyi Qian, Jingli Liu, Jingjing Zhao, Pan Yu, Lei Jiang, Jing Zhou, Rong Gao, Hang Xiao
Journal, date & volume: PLoS ONE, 2014 , 9, e88642
PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/24533129
Abstract
Methamphetamine (Meth) abusing represents a major public health problem worldwide. Meth has long been known to induce neurotoxicity. However, the mechanism is still remained poorly understood. Growing evidences indicated that the voltage-gated potassium channels (Kv) were participated in neuronal damage and microglia function. With the whole cell patch clamp, we found that Meth significantly increased the outward K⁺ currents, therefore, we explored whether Kv1.3, one of the major K⁺ channels expressed in microglia, was involved in Meth-induced microglia damage. Our study showed that Meth significantly increased the cell viability in a dose dependent manner, while the Kv blocker, tetraethylamine (TEA), 4-Aminopyridine (4-AP) and Kv1.3 specific antagonist margatoxin (MgTx), prevented against the damage mediated by Meth. Interestingly, treatment of cells with Meth resulted in increasing expression of Kv1.3 rather than Kv1.5, at both mRNA and protein level, which is partially blocked by MgTx. Furthermore, Meth also stimulated a significant increased expression of IL-6 and TNF-α at protein level, which was significantly inhibited by MgTx. Taken together, these results demonstrated that Kv1.3 was involved in Meth-mediated microglial damage, providing the potential target for the development of therapeutic strategies for Meth abuse.