Mechanism of neurotensin depolarization of rabbit colonic smooth muscle

Abstract

The aims of this study were (1) to measure the effect of neurotensin on the membrane potential of circular muscle of the distal colon of the rabbit and (2) to determine the mechanism by which neurotensin affects the membrane potential of this tissue. The membrane potential was measured with microelectrodes placed intracellularly and the double sucrose gap. Neurotensin (10 −11 M to 10 −7 M) dose-dependently decreased the membrane potential. The maximum decrease in membrane potential occurred with 10 −9 M neurotensin. The ED 50 of neurotensin depolarization of the membrane potential was 0.87 ± 0.33 × 10 −10 M. The frequency of the slow waves was unchanged after neurotensin. The voltage response to a constant current pulse decreased as the concentration of neurotensin increased. The amplitude of the voltage response after a 0.6 μA current pulse decreased by 6 ± 0.5 mV after neurotensin (10 −7 M) compared to the Krebs control ( P < 0.05). Decreasing the [Na +] 0 to 0–23 mM did not affect the decrease in membrane potential after neurotensin. However, perfusion with a test solution containing no added Ca 2+ or verapamil (10 −5 M) inhibited neurotensin depolarization of the tissue. Evidence was found that neurotensin depolarizes colonic circular smooth muscle, and the decrease in membrane potential is associated with an increase in conductance which is dependent on influx of Ca 2+.