When slices of ovine luteal tissue were perfused with medium containing luteinizing hormone (LH), the output of progesterone was increased significantly (P less than 0.01) in eleven of twelve experiments. However, addition of LH to the medium did not influence the luteal cell membrane potential. The addition of 47 mM potassium to the medium resulted in increased progesterone output (P less than 0.01) and depolarization of the luteal cell membrane within 2 min. Progesterone output decreased to approximate pretreatment levels within 2 min of the return to normal potassium levels in the perfusion medium. High levels of potassium further increased the output of progesterone from tissue stimulated with LH. Perfusion of the slices with sodium-free medium also resulted in increased (P less than 0.01) progesterone output within 2 min, which returned to pretreatment levels within 2 min after normal sodium levels were restored to the medium. Perfusion of the slices with sodium-free medium did not influence the membrane potential. Perfusion of the tissue with LH, 47 mM potassium, or sodium-free medium had no effect on progesterone output if the medium was calcium-free and/or contained 2 mM EGTA. These data suggested that the calcium ion plays an important role in mediating the steroidogenic response of ovine luteal tissue to LH. A second series of experiments was designed to ascertain if luteal cells were coupled electrically. Sixty-six pairs of luteal cells separated by 150-300 mum were penetrated with electrodes and the membrane potential of both cells was studied. One cell of each pair was hyperpolarized by passage of 0.4 nA current into the cell, but in no case was there an effect on the membrane potential of the other penetrated cell. Likewise, when five cells were injected iontophoretically with Procion Yellow there was no evidence of diffusion of the dye to adjacent cells. There was no evidence obtained in this study which suggested that ovine luteal cells were coupled electrically.