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Abstract
Outwardly rectifying swelling-activated chloride conductance (ICl,Swell) in rabbit heart plays a critical role in cardioprotection following ischemic preconditioning (IP). But the functional characterization and molecular basis of this chloride conductance in rabbit heart ventricular myocytes is not clear. Candidate chloride channel clones (e.g. ClC-2, ClC-3, ClC-4 and ClC-5) were determined using RT-PCR and Western blot analysis.Whole cell ICl,Swell was recorded from isolated rabbit ventricular myocytes using patch clamp techniques during hypo-osmotic stress. The inhibitory effects of 4,4′ isothiocyanato-2,2-disulfonic acid (DIDS), 5-nitro-2(3-phenylroylamino) benzoic acid (NPPB) and indanyloxyacetic acid 94 (IAA-94) on ICl,Swell were examined. The expected size of PCR products for ClC-2, ClC-3 and ClC-4 but not for ClC-5 was obtained. ClC-2 and ClC-3 expression was confirmed by automated fluorescent DNA sequencing. RT-PCR and Western blot showed that ClC-4 was expressed in abundance and ClC-2 was expressed at somewhat lower levels. The biological and pharmacological properties of ICl,Swell, including outward rectification, activation due to cell volume change, sensitivity to DIDS, IAA-94 and NPPB were identical to those known properties of ICl,Swell in exogenously expressed systems and other mammals hearts. It was concluded that ClC-3 or ClC-4 might be responsible for the outwardly rectifying part of ICl,Swell and may be the molecular targets of cardioprotection associated with ischemic preconditioning or hypo-osmotic shock.
Keywords
swelling-activated chloride currents
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hypo-osmotic stress
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ischemic preconditioning rabbit ventricular myocytes
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chloride channel blockers
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Jingdong Li, Xiangqiong Wu, Tianpen Cui.
Functional characteristics and molecular identification of swelling-activated chloride conductance in adult rabbit heart ventricles.
Current Medical Science, 2008, 28(9): 37-41 DOI:10.1007/s11596-008-0109-6
| [1] |
BaumgartenC. M., ClemoH. F.. Swelling-activated chloride channels in cardiac physiology and pathophysiology. Prog Biophys Mol Biol, 2003, 82(1–3): 25-42
|
| [2] |
BahinskiA., NaimA. C., GreengardP., et al.. Chloride conductance regulated by cyclic AMP-dependent protein kinase in cardiac myocytes. Nature, 1989, 340: 718-721
|
| [3] |
ZygmuntA. C., GibbonsW. R.. Calcium-activated chloride current in rabbit ventricular myocytes. Circ Res, 1991, 68: 424-437
|
| [4] |
ZygmuntA. C., GibbonsW. R.. Properties of the calcium-activated chloride current in heart. J Gen Physiol, 1992, 99: 391-414
|
| [5] |
TsengG. N.. Cell swelling increase membrane conductance of canine cardiac cells: evidence for a volume-sensitive Cl− channel. Am J Physiol, 1992, 262: C1056-C1067
|
| [6] |
SorotaS.. Swelling-induced chloride-sensitive chloride in dog atrial cells revealed by whole cell patch clamp method. Circ Res, 1992, 70: 679-687
|
| [7] |
DuanD. Y., LiuL. L., BozeatN., et al.. Functional role of anion channels in cardiac diseases. Acta Pharmacol Sin, 2005, 26(3): 265-278
|
| [8] |
DiazR. J., LositoV. A., MaoG. D., et al.. Chloride channel inhibition blocks the protection of ischemic preconditioning and hypo-osmotic stress in rabbit ventricular myocardium. Circ Res, 1999, 84: 763-775
|
| [9] |
DuanD., YeL., BrittonF., et al.. A novel anionic inward rectifier in native cardiac myocytes. Circ Res, 2000, 86: e63-e71
|
| [10] |
JentschT. J., GüntherW.. Chloride channels: an emerging molecular picture. Bioassays, 1992, 360: 759-762
|
| [11] |
DiazR. J., ZobelC., ChoH. C., et al.. Selective inhibition of inward rectifier K+ channels (Kir2.1 or Kir2.2) abolishes protection by ischemic preconditioning in rabbit ventricular cardiomyocytes. Circ Res, 2004, 95(3): 325-332
|
| [12] |
HamillO. P., MartyA., NeherB., et al.. Improved patch-clamp technique for high-resolution current recording from cells and cell-free membrane patched. Pflügers Arch, 1981, 391: 85-100
|
| [13] |
DuX. Y., SorotaS.. Cardiac swelling-induced chloride current depolarizes canine atrial myocytes. Am J Physiol, 1997, 272: H1904-H1916
|
| [14] |
HorowitzB., TsungS. S., HartP., et al.. Alternative splicing of CFTR Cl-channels in heart. Am J Physiol, 1993, 264: H2214-H2220
|
| [15] |
SorotaS.. Pharmacological properties of the swelling-induced chloride current of dog atrial myocytes. J Cardiovasc Electrophysiol, 1994, 5: 1006-1016
|
| [16] |
VandenbergJ. I., YoshidaA., KirkK., et al.. Swelling-activated and isoprenaline-activated chloride currents in guinea pig cardiac myocytes have distinct electrophysiology and pharmacology. J Gen Physiol, 1994, 104: 997-1017
|
| [17] |
WalshK. B., WangC.. Effect of chloride channel blockers on the CFTR chloride and L-type calcium currents. Cardiovasc Res, 1996, 32: 391-399
|
| [18] |
GründerS., TheimannA., PuschM., et al.. Regions involved in the opening of ClC-2 chloride channel by voltage and cell volume. Nature, 1992, 360: 759-762
|
| [19] |
DiazR. J., LiJ. D., BatthishM., et al.. Inward rectifier K+ channel (IK1) inhibition abolishes the protection of ischemic preconditioning against cell death caused by ischemia reperfusion injury in rabbit cultured myocytes. Upstate New York Cardiac Electrophysiology Society 9th Annual Meeting, 1999, Utica, NY, Masonic Temple University
|
