Control of apical membrane chloride permeability in the renal A6 cell line by nucleotides

Abstract

1 The effect of extracellular nucleotides applied on the apical side of polarised A6 cells grown on permeant filters was investigated by measuring the changes in (i) the ³⁶Cl efflux through the apical membranes, (ii) the intracellular chloride concentrations (aCl_i, measured with N-(6-methoxyquinolyl) acetoethyl ester, MQAE), (iii) I_Cl, the short-circuit current in the absence of Na⁺ transport and (iv) the characteristics of the apical chloride channels using a patch-clamp approach. 2 ATP or UTP (0.1-500 μm) transiently stimulated I_Cl. The sequence of purinergic agonist potencies was UTP = ATP > ADP >> the P2X-selective agonist β,γ-methylene ATP = the P2Y-selective agonist 2-methylthioATP. Suramin (100 μm) as the P2Y antagonist Reactive Blue 2 (10 μm) had no effect on the UTP (or ATP)-stimulated current. These findings are consistent with the presence of P2Y₂-like receptors located on the apical membranes of A6 cells. Apical application of adenosine also transiently increased I_Cl. This effect was blocked by theophylline while the UTP-stimulated I_Cl was not. The existence of a second receptor, of the P1 type is proposed. 3 ATP (or UTP)-stimulated I_Cl was blocked by apical application of 200 μmN-phenylanthranilic acid (DPC) or 100 μm niflumic acid while 100 μm glibenclamide was ineffective. 4 Ionomycin and thapsigargin both transiently stimulated I_Cl; the nucleotide stimulation of I_Cl was not suppressed by pre-treatment with these agents. Chlorpromazin (50 μm), a Ca²⁺-calmodulin inhibitor strongly inhibited the stimulation of I_Cl induced either by apical UTP or by ionomycin application. BAPTA-AM pre-treatment of A6 cells blocked the UTP-stimulated I_Cl. Niflumic acid also blocked the ionomycin stimulated I_Cl. 5 A fourfold increase in ³⁶Cl effluxes through the apical membranes was observed after ATP or UTP application. These increases of the apical chloride permeability could also be observed when following aCl_i changes. Apical application of DPC (1 mM) or 5-nitro-2(3-phenylpropylamino)benzoic acid (NPPB; 500 μm) produced an incomplete inhibition of ³⁶Cl effluxes through the apical membranes in ATP-stimulated and in untreated monolayers. 6 In single channel patch-clamp experiments, an apical chloride channel with a unitary single channel conductance of 7.3 ± 0.6 pS (n= 12) was usually observed. ATP application induced the activation of one or more of these channels within a few minutes. 7 These results indicate that multiple purinergic receptor subtypes are present in the apical membranes of A6 cells and that nucleotides can act as modulators of Cl⁻ secretion in renal cells.