Sertoli cells from mammalian testis are key cells involved in the development and maintenance of stem cell spermatogonia as well as in the secretion of a Cl(-) and K(+)-rich fluid into the lumen of seminiferous tubules. The pharmacology and contribution of Cl(-) channels to the physiology of Sertoli cells were investigated using whole-cell patch clamp and iodide efflux experiments applied to cultured rat Sertoli cells. We characterized an outwardly rectifying Cl(-) current stimulated by various acid species including the physiologically relevant lactic acid. Using the iodide efflux technique, the pharmacological properties of this Cl(-) current, noted ICl(acid), revealed Ca(2+)-independent inhibition by DIDS (IC(50) = 27 microM), glibenclamide (IC(50) = 31 microM) and DPC (IC(50) = 86 microM). ICl(acid) was neither affected by calix[4]arene nor by 9-AC. The order of potency for inhibition of ICl(acid) is DIDS approximately glibenclamide > DPC >> calix[4]arene, 9-AC. For comparison, the inhibitory profile of the swelling- and ATP-activated Cl(-) currents in Sertoli cells is DPC = DIDS >> glibenclamide = 9-AC for ICl(swell) and DPC = 9-AC = DIDS >> glibenclamide for ICl(ATP). This description provides new insights into the physiology and pharmacology of the endogenous Cl(-) channels expressed and potentially involved in fluid secretion in Sertoli cells.