Desensitization of glutamate receptors on innervated and denervated locust muscle fibres.

Depolarizations to L-glutamate, applied locally by microinophoresis to the extrajunctional membrane of locust extensor tibiae muscle fibres and measured either in current clamp or voltage clamp, increased in amplitude for equivalent doses of glutamate following chronic denervation of the muscle. 2. A two-pulse method was used to examine recovery from desentization of junctional and extrajunctional receptors. A 'response ratio', i.e. the amplitude of response to the second (test) of a pair of glutamate pulses over to the pulses. The 'response ratio' for extrajunctional depolarizations of innervated fibres increased exponentially with pulse interval, with a time constant of 15.6 +/- 4.7 sec (n = 11). Recovery of extrajunctional receptor populations from desensitization was accelerated after denervation. The recovery kinetics for responses from fibres 6-22 days after denervation were generally described by two exponential terms, with time constants in the range 0.5-10 sec which were inversely related to the glutamate sensitivity of the extrajunctional membrane. For junctional receptors on both innervated and denervated fibres the recovery kinetics were described by a single exponential with a time constant of 0.2-1 sec. 3. The results suggest that the increased extrajunctional glutamate sensitivity which occurs after denervation results from the 'appearance' of glutamate receptors with properties similar to those found at the post-junctional membrane on locust muscle fibres.