Uncoupling of K + and Cl - transport across the cell membrane in the process of regulatory volume decrease

Biochemical Pharmacology

Volumn 84, Issue 3, 2012, Pages 292-302

  Yang, Linjie ^a   Zhu, Linyan ^a   Xu, Yue ^b   Zhang, Haifeng ^a   Ye, Wencai ^c   Mao, Jianwen ^d   Chen, Lixin ^a   Wang, Liwei ^a  

^a MEDICAL COLLEGE OF JINAN UNIVERSITY   (China)

^b Xuyue Beijing Science and Technology Co Ltd   (China)

^c JINAN UNIVERSITY   (China)

^d GUANGDONG PHARMACEUTICAL UNIVERSITY   (China)

Author keywords

Cell size; Ion transport; Ion selective electrode; Patch clamp technique; Tumor cell

Indexed keywords

CHLORIDE ION; HYDROGEN; POTASSIUM ION; PROTON PUMP;

ARTICLE; CANCER CELL CULTURE; CELL MEMBRANE; CELL VOLUME; HUMAN; HUMAN CELL; MEASUREMENT; NASOPHARYNX CARCINOMA; PH; PRIORITY JOURNAL; REGULATORY VOLUME DECREASE;

CELL LINE, TUMOR; CELL MEMBRANE PERMEABILITY; CELL SIZE; CHLORIDE CHANNELS; CHLORIDES; DOWN-REGULATION; HUMANS; ION TRANSPORT; NASOPHARYNGEAL NEOPLASMS; POTASSIUM; POTASSIUM CHANNEL BLOCKERS; POTASSIUM CHANNELS;

EID: 84861966060     PISSN: 00062952     EISSN: 18732968     Source Type: Journal    
DOI: 10.1016/j.bcp.2012.05.006     Document Type: Article

References (38)

1. Chen L, Wang L, Zhu L, Nie S, Zhang J, Zhong P, et al. Cell cycle-dependent expression of volume-activated chloride currents in nasopharyngeal carcinoma cells. Am J Physiol Cell Physiol 2002;283:C1313-23.
2. - currents and regulatory volume decrease in the cell cycle and proliferation in nasopharyngeal carcinoma cells. Cell Prolif 2007;40:253-67.
3. Mao J, Chen L, Xu B, Wang L, Li H, Guo J, et al. Suppression of ClC-3 channel expression reduces migration of nasopharyngeal carcinoma cells. Biochem Pharmacol 2008;75:1706-16.
4. Yang L, Ye D, Ye W, Jiao C, Zhu L, Mao J, et al. ClC-3 is a main component of background chloride channels activated under isotonic conditions by autocrine ATP in nasopharyngeal carcinoma cells. J Cell Physiol 2011;226:2516-26.
5. Lang F, Foller M, Lang K, Lang P, Ritter M, Vereninov A, et al. Cell volume regulatory ion channels in cell proliferation and cell death. Methods Enzymol 2007;428:209-25.
6. Okada Y, Shimizu T, Maeno E, Tanabe S, Wang X, Takahashi N. Volumesensitive chloride channels involved in apoptotic volume decrease and cell death. J Membr Biol 2006;209:21-9. (Pubitemid 43725454)
7. Jakab M, Schmidt S, Grundbichler M, Paulmichl M, Hermann A, Weiger T, et al. Hypotonicity and ethanol modulate BK channel activity and chloride currents in GH4/C1 pituitary tumour cells. Acta Physiol (Oxf) 2006;187:51-9. (Pubitemid 43828763)
8. Bortner CD, Cidlowski JA. Cell shrinkage and monovalent cation fluxes: role in apoptosis. Arch Biochem Biophys 2007;462:176-88. (Pubitemid 46863418)
9. - channels in adherent Ehrlich Lettre and NIH3T3 cells. Am J Physiol Cell Physiol 2009; 297:C198-206.
10. Okada Y, Sato K, Numata T. Pathophysiology and puzzles of the volumesensitive outwardly rectifying anion channel. J Physiol 2009;587:2141-9.
11. 2+)-dependent potassium channels play important roles in regulatory volume decrease in human nasopharyngeal carcinoma cells. Sheng Li Xue Bao 2009;61:485-92.
12. Wang J, Morishima S, Okada Y. IK channels are involved in the regulatory volume decrease in human epithelial cells. Am J Physiol Cell Physiol 2003;284:C77-84. (Pubitemid 35470627)
13. 2+-activated IK1 channels associate with lipid rafts upon cell swelling and mediate volume recovery. J Biol Chem 2007;282:8984-93.
14. Lee EL, Hasegawa Y, Shimizu T, Okada Y. IK1 channel activity contributes to cisplatin sensitivity of human epidermoid cancer cells. Am J Physiol Cell Physiol 2008;294:C1398-406.
15. + channel KCa3.1. J Immunol 2008;180:8040-7.
16. Lo C, Ferrier J, Tenenbaum HC, McCulloch CA. Regulation of cell volume and intracellular pH in hyposmotically swollen rat osteosarcoma cells. Biochem Cell Biol 1995;73:535-44.
17. Smets I, Ameloot M, Steels P, Van Driessche W. Loss of cell volume regulation during metabolic inhibition in renal epithelial cells (A6): role of intracellular pH. Am J Physiol Cell Physiol 2002;283:C535-44. (Pubitemid 34787536)
18. +current in Ehrlich ascites tumour cells by pH. Pflugers Arch 2001;442:622-33.
19. + channel by intracellular acidification. Pflugers Arch 2000;440:153-6.
20. Matsuda JJ, Filali MS, Volk KA, Collins MM, Moreland JG, Lamb FS. Overexpression of CLC-3 in HEK293T cells yields novel currents that are pH dependent. Am J Physiol Cell Physiol 2008;294:C251-62.
21. + antiporter becomes uncoupled at low extracellular pH. J Biol Chem 2010;285: 2569-79.
22. 2+ fluxes and current. Plant J 2006;46:134-44.
23. Smith PJ, Trimarchi J. Noninvasive measurement of hydrogen and potassium ion flux from single cells and epithelial structures. Am J Physiol Cell Physiol 2001;280:C1-1.
24. Sun J, Chen S, Dai S, Wang R, Li N, Shen X, et al. NaCl-induced alternations of cellular and tissue ion fluxes in roots of salt-resistant and salt-sensitive poplar species. Plant Physiol 2009;149:1141-53.
25. Messerli MA, Collis LP, Smith PJ. Ion trapping with fast-response ion-selective microelectrodes enhances detection of extracellular ion channel gradients. Biophys J 2009;96:1597-605.
26. - movement in single cells exposed to hypotonic solution. J Membr Biol 2005;203:101-10.
27. Shirihai O, Smith P, Hammar K, Dagan D. Microglia generate external proton and potassium ion gradients utilizing a member of the H/K ATPase family. Glia 1998;23:339-48. (Pubitemid 28320600)
28. Chen LX, Wang LW. Volume-activated chloride current in pigmented ciliary epithelial cells. Sheng Li Xue Bao 2000;52:421-6.
29. 3- exchange. J Physiol 1994;475:59-67.
30. Mao JW, Wang LW, Jacob T, Sun XR, Li H, Zhu LY, et al. Involvement of regulatory volume decrease in the migration of nasopharyngeal carcinoma cells. Cell Res 2005;15:371-8. (Pubitemid 41653931)
31. Okada Y, Maeno E, Shimizu T, Dezaki K, Wang J, Morishima S. Receptormediated control of regulatory volume decrease (RVD) and apoptotic volume decrease (AVD). J Physiol 2001;532:3-16. (Pubitemid 32303268)
32. Hoffmann EK, Lambert IH, Pedersen SF. Physiology of cell volume regulation in vertebrates. Physiol Rev 2009;89:193-277.
33. Becker D, Blase C, Bereiter-Hahn J, Jendrach M. TRPV4 exhibits a functional role in cell-volume regulation. J Cell Sci 2005;118:2435-40. (Pubitemid 40873083)
34. 2+]i and cell shape. Osteoarthritis Cartilage 2008;16:312-22.
35. Sabirov RZ, Okada Y. ATP release via anion channels. Purinergic Signal 2005;1:311-28. (Pubitemid 43023766)
36. Zhu L, Yang H, Zuo W, Yang L, Zhang H, Ye W, et al. Differential expression and roles of volume-activated chloride channels in control of growth of normal and cancerous nasopharyngeal epithelial cells. Biochem Pharmacol 2012;83: 324-34.
37. Wojtkowiak JW, Verduzco D, Schramm KJ, Gillies RJ. Drug resistance and cellular adaptation to tumor acidic pH microenvironment. Molecular pharmaceutics 2011;8:2032-8.
38. Casey JR, Grinstein S, Orlowski J. Sensors and regulators of intracellular pH. Nat Rev Mol Cell Biol 2010;11:50-61.