Brain research
-
Prolonged administration of anxiolytic, sedative, and anticonvulsant drugs that act through the GABAA receptor (GABAAR) can evoke tolerance and dependence, suggesting the existence of an endogenous mechanism(s) for altering the ability of such agents to interact with the GABAAR. Uncoupling appears to be one such mechanism. This is a decrease in the allosteric interactions between the benzodiazepine (BZD) recognition site and other agonist or modulator sites on the GABAAR, as measured by potentiation of [3H]flunitrazepam ([3H]FNZ) binding. ⋯ In addition, the EC50 for pregnanolone-induced homologous uncoupling (1.7 microM) is over an order of magnitude greater than that for heterologous uncoupling of GABA and BZD sites (82 nM). Moreover, heterologous uncoupling by pregnanolone is inhibited by the GABA site antagonist SR-95531, whereas homologous uncoupling by pregnanolone is resistant to SR-95531. Therefore, there are at least two distinct ways in which GABAAR modulatory site interactions can be regulated by chronic drug treatment.
-
The present experiment was designed to elucidate the characteristics of the response of neurons in the dorsal motor nucleus of the vagus (DMV) to stimulation of the hepatoportal area by hypotonic as well as hypertonic solutions. Responses of 81 neurons that exhibited an antidromic response to electrical stimulation of the ventral gastric vagus were recorded in the left DMV in urethane-chloralose anesthetized rats. The effects on these 81 neurons of portal infusion of hypertonic saline (3.6% NaCl) and of pure water were examined. ⋯ Therefore, the responses to portal infusion of water appear to be derived from activation of the hepatoportal receptors. These results indicate that a certain fraction of DMV neurons respond similarly to portal infusions of hypertonic and hypotonic saline. It is possible that there exist some reflex arcs that mediate a similar response to both an increase and a decrease in portal blood osmolarity (or Na+ concentration), namely, a suppression of absorption.