Abstract
The early effects of glucose and oxygen deprivation on the spontaneous acetylcholine output from the myenteric plexus - longitudinal muscle preparation of the guinea pig ileum were studied using an incubation chamber that permitted rapid sample collection in 2-min intervals. Glucose deprivation or hypoxia resulted in a gradual decline in rate of spontaneous acetylcholine collection in 2-min intervals. Glucose deprivation or hypoxia resulted in a gradual decline in rate of spontaneous acetylcholine output. However, glucose deprivation plus hypoxia caused an acceleration in acetylcholine output within 10-15 min, which attained a rate seven times greater than observed under normal conditions. Recovery of low resting rates was obtained by reintroduction of oxygen and glucose into the bath medium. Neither morphine (2.7 x 10(-5) M) nor tetrodotoxin (1.6 x 10(-6) M) prevented the increase in acetylcholine output induced by energy deprivation. The substitution of Ca2+ by Mg2+, in the presence of EGTA, greatly reduced the acetylcholine output induced by energy deprivation. However, a small transitory output of acetylcholine was observed under these conditions which was resistant to tetrodotoxin and ot affected by depolarizing amounts of K+. The transitory output was repeatable by reintroduction of glucose and oxygen to the Ca2+-free medium with subsequent return to conditions of hypoxia and glucose deprivation. These results suggest that energy deprivation initially stimulates normal acetylcholine secretion by (a) increasing Ca2+ influx across the plasma membrane and (b) mobilizing an intracellular Ca2+ poll. This implies that processes involved in maintenance of normal low transmitter release are more sensitive to energy lack than the neurosecretion process itself.
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