Functional effects of novel anti-ClC-3 antibodies on native volume-sensitive osmolyte and anion channels in cardiac and smooth muscle cells

doi:10.1152/ajpheart.00244.2003

Functional effects of novel anti-ClC-3 antibodies on native volume-sensitive osmolyte and anion channels in cardiac and smooth muscle cells

Ge-Xin Wang, William J. Hatton, Grace L. Wang, Juming Zhong, Ilia Yamboliev, Dayue Duan, and Joseph R. Hume

Center of Biomedical Research Excellence, Department of Pharmacology, University of Nevada School of Medicine Reno, Nevada 89557-0046

Submitted 18 March 2003 ; accepted in final form 12 June 2003

Whether ClC-3 encodes volume-sensitive organic osmolyte andanion channels (VSOACs) remains controversial. We have shownpreviously that native VSOACs in some cardiac and vascular myocyteswere blocked by a commercial anti-ClC-3 carboxy terminal antibody(Alm C_592–661 antibody), although recent studies haveraised questions related to the specificity of Alm C_592–661antibody. Therefore, we have developed three new anti-ClC-3antibodies and investigated their functional effects on nativeVSOACs in freshly isolated canine pulmonary artery smooth musclecells (PASMCs) and guinea pig cardiac myocytes. These new antibodiesproduced a common prominent immunoreactive band with an apparentmolecular mass of 90–92 kDa in the guinea pig heart andPASMCs, and a similar molecular mass immunoreactive band wasobserved in the brain from homozgygous Clcn3⁺^/⁺ mice but notfrom homozygous Clcn3^–^/^– mice. VSOACs elicited byhypotonic cell swelling in PASMCs and guinea pig atrial myocyteswere nearly completely abolished by intracellular dialysis withtwo new anti-ClC-3 antibodies specifically targeting the ClC-3carboxy (C_670–687 antibody) and amino terminus (A_1–14antibody). This inhibition of native VSOACs can be attributedto a specific interaction with endogenous ClC-3, because 1)preabsorption of the antibodies with corresponding antigensprevented the inhibitory effects, 2) extracellular applicationof a new antibody raised against an extracellular epitope (Ex_133–148)of ClC-3 failed to inhibit native VSOACs in PASMCs, 3) intracellulardialysis with an antibody targeting Kv1.1 potassium channelsfailed to inhibit native VSOACs in guinea pig atrial myocytes,and 4) anti-ClC-3 C_670–687 antibody had no effects onswelling-induced augmentation of the slow component of the delayedrectifying potassium current in guinea pig ventricular myocytes,although VSOACs in the same cells were inhibited by the antibody.These results confirm that endogenous ClC-3 is an essentialmolecular entity responsible for native VSOACs in PASMCs andguinea pig cardiac myocytes.

chloride channels; cell volume

Address for reprint requests and other correspondence: J. R. Hume, Dept. of Pharmacology/318, Univ. of Nevada School of Medicine, Reno, NV 89557-0046 (E-mail: joeh{at}med.unr.edu).

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