Volume-sensitive chloride channels are involved in maintenance of basal cell volume in human acute lymphoblastic leukemia cells

Journal of Membrane Biology

Volumn 240, Issue 2, 2011, Pages 111-119

  Cao, Guozhen ^a   Zuo, Wanhong ^a   Fan, Aihui ^b   Zhang, Haifeng ^a   Yang, Linjie ^a   Zhu, Linyan ^a   Ye, Wencai ^a   Wang, Liwei ^a   Chen, Lixin ^a  

^a JINAN UNIVERSITY   (China)

^b GUANGDONG MEDICAL UNIVERSITY   (China)

Author keywords

Basal chloride current; Cell volume regulation; Chloride channel; Chloride channel blocker; Lymphoblastic leukemia cell; Regulatory volume decrease

Indexed keywords

5 NITRO 2 (3 PHENYLPROPYLAMINO)BENZOIC ACID; ADENOSINE TRIPHOSPHATE; CHLORIDE CHANNEL; CHLORIDE CHANNEL BLOCKING AGENT; HYPERTONIC SOLUTION; TAMOXIFEN;

ACUTE LYMPHOBLASTIC LEUKEMIA; ARTICLE; BASAL CELL; CELL CULTURE; CELL VOLUME; CHLORIDE CURRENT; CONTROLLED STUDY; HUMAN; HUMAN CELL; IMAGE ANALYSIS; LEUKEMIA CELL;

ANTINEOPLASTIC AGENTS; CELL LINE, TUMOR; CELL SIZE; CHLORIDE CHANNELS; HUMANS; HYPOTONIC SOLUTIONS; ISOTONIC SOLUTIONS; MEMBRANE POTENTIALS; NITROBENZOATES; OSMOTIC PRESSURE; PATCH-CLAMP TECHNIQUES; PRECURSOR CELL LYMPHOBLASTIC LEUKEMIA-LYMPHOMA; TAMOXIFEN;

EID: 79953686187     PISSN: 00222631     EISSN: None     Source Type: Journal    
DOI: 10.1007/s00232-011-9349-7     Document Type: Article

References (27)

1. Bell PD, Komlosi P, Zhang ZR (2009) ATP as a mediator of macula densa cell signalling. Purinergic Signal 5:461-471
2. Chang QZ, Hu DH, Chen M et al (2006) Neuroprotection of chloride channel blockers against NMDA-induced apoptosis of cultured rat hippocampal neurons. Nan Fang Yi Ke Da Xue Xue Bao 26:158-161
3. Chen L, Wang L, Zhu L et al (2002) Cell cycle-dependent expression of volume-activated chloride currents in nasopharyngeal carcinoma cells. Am J Physiol Cell Physiol 283:C1313-C1323
4. Chen LX, Zhu LY, Jacob TJ et al (2007) Roles of volume-activated Cl- currents and regulatory volume decrease in the cell cycle and proliferation in nasopharyngeal carcinoma cells. Cell Prolif 40:253-267 (Pubitemid 46398821)
5. d'Anglemont de Tassigny A, Berdeaux A, Souktani R et al (2008) The volume-sensitive chloride channel inhibitors prevent both contractile dysfunction and apoptosis induced by doxorubicin through PI3kinase, Akt and Erk 1/2. Eur J Heart Fail 10:39-46
6. Duan D, Winter C, Cowley S et al (1997) Molecular identification of a volume-regulated chloride channel. Nature 390:417-421 (Pubitemid 28027325)
7. Dutta AK, Sabirov RZ, Uramoto H et al (2004) Role of ATP-conductive anion channel in ATP release from neonatal rat cardiomyocytes in ischaemic or hypoxic conditions. J Physiol 559:799-812 (Pubitemid 39276169)
8. - channel in cell volume regulation, proliferation and apoptosis in vascular smooth muscle cells. Trends Pharmacol Sci 27:290-296
9. He QF, Wang LW, Mao JW et al (2004) Activation of chloride current and decrease of cell volume by ATP in nasopharyngeal carcinoma cells. Sheng Li Xue Bao 56:691-696
10. Jentsch TJ, Valentin S, Frank W et al (2002) Molecular structure and physiological function of chloride channels. Physiol Rev 82:503-568 (Pubitemid 34654460)
11. Lang F, Busch GL, Ritter M et al (1998) Functional significance of cell volume regulatory mechanisms. Physiol Rev 78:247-306 (Pubitemid 28070981)
12. Lang F, Foller M, Lang K et al (2007) Cell volume regulatory ion channels in cell proliferation and cell death. Methods Enzymol 428:209-225
13. Lazarowski ER, Boucher RC, Harden TK (2000) Constitutive release of ATP and evidence for major contribution of ecto-nucleotide pyrophosphatase and nucleoside diphosphokinase to extracellular nucleotide concentrations. J Biol Chem 275:31061-31068
14. Liu HT, Toychiev AH, Takahashi N et al (2008) Maxi-anion channel as a candidate pathway for osmosensitive ATP release from mouse astrocytes in primary culture. Cell Res 18:558-565 (Pubitemid 351630947)
15. Mao J, Wang L, Fan A et al (2007) Blockage of volume-activated chloride channels inhibits migration of nasopharyngeal carcinoma cells. Cell Physiol Biochem 19:249-258 (Pubitemid 46701500)
16. Mao J, Chen L, Xu B et al (2009) Volume-activated chloride channels contribute to cell-cycle-dependent regulation of HeLa cell migration. Biochem Pharmacol 77:159-168
17. Praetorius HA, Leipziger J (2009) ATP release from non-excitable cells. Purinergic Signal 5:433-446
18. Pusch M, Neher E (1988) Rates of diffusional exchange between small cells and a measuring patch pipette. Pflugers Arch 411:204-211 (Pubitemid 18066967)
19. Sabirov RZ, Okada Y (2005) ATP release via anion channels. Purinergic Signal 1:311-328 (Pubitemid 43023766)
20. Shen MR, Droogmans G, Eggermont J et al (2000) Differential expression of volume-regulated anion channels during cell cycle progression of human cervical cancer cells. J Physiol 529:385-394 (Pubitemid 32042106)
21. Shirley DG, Vekaria RM, Sevigny J (2009) Ectonucleotidases in the kidney. Purinergic Signal 5:501-511
22. Wang GL, Wang XR, Lin MJ et al (2002a) Deficiency in ClC-3 chloride channels prevents rat aortic smooth muscle cell proliferation. Circ Res 91:E28-E32
23. Wang L, Chen L, Zhu L et al (2002b) Regulatory volume decrease is actively modulated during the cell cycle. J Cell Physiol 193:110-119 (Pubitemid 34969134)
24. Wondergem R, Gong W, Monen SH et al (2001) Blocking swelling-activated chloride current inhibits mouse liver cell proliferation. J Physiol 532:661-672 (Pubitemid 32427882)
25. Xiong D, Heyman NS, Airey J et al (2010) Cardiac-specific, inducible ClC-3 gene deletion eliminates native volume-sensitive chloride channels and produces myocardial hypertrophy in adult mice. J Mol Cell Cardiol 48:211-219
26. - concentration through volume-regulated ClC-3 chloride channels in A10 vascular smooth muscle cells. J Biol Chem 280:7301-7308
27. Zuo W, Zhu L, Bai Z et al (2009) Chloride channels involve in hydrogen peroxide-induced apoptosis of PC12 cells. Biochem Biophys Res Commun 387:666-670