GSH depletion, K-Cl cotransport, and regulatory volume decrease in high-K/high-GSH dog red blood cells |
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Authors: | Fujise, Hiroshi Higa, Kazunari Kanemaru, Tomomi Fukuda, Miwa Adragna, Norma C. Lauf, Peter K. |
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Abstract: | Thiol reagents activateK-Cl cotransport (K-Cl COT), the Cl-dependent and Na-independentouabain-resistant K flux, in red blood cells (RBCs) of several species,upon depletion of cellular glutathione (GSH). K-Cl COT isphysiologically active in high potassium (HK), high GSH (HG) dog RBCs.In this unique model, we studied whether the same inverse relationshipexists between GSH levels and K-Cl COT activity found in other species.The effects of GSH depletion by three different chemical reactions[nitrite (NO2)-mediated oxidation, diazene dicarboxylicacid bis-N,N-dimethylamide (diamide)-induceddithiol formation, and glutathione S-transferase (GST)-catalyzed conjugation of GSH with 1-chloro-2,4-dinitrobenzene (CDNB)] were tested on K-Cl COT and regulatory volume decrease (RVD).After 85% GSH depletion, all three interventions stimulated K-Cl COThalf-maximally with the following order of potency: diamide > NO2 > CDNB. Repletion of GSH reversed K-Cl COTstimulation by 50%. Cl-dependent RVD accompanied K-Cl COT activationby NO2 and diamide. K-Cl COT activation at concentrationratios of oxidant/GSH greater than unity was irreversible, suggestingeither nitrosothiolation, heterodithiol formation, or GST-mediateddinitrophenylation of protein thiols. The data support the hypothesisthat an intact redox system, rather than the absolute GSH levels,protects K-Cl COT activity and cell volume regulation from thiol modification. |
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