HA autoreceptor assay with superfused slices of rat brain cortex and electrical stimulation

Abstract

Slices of rat brain cortex previously loaded with [ 3H]histamine ([ 3H]HA) via de novo synthesis from [ 3H]histidine released tritiated histamine ([ 3H]HA) Ca 2+ dependently in a superfused system. Both electrical field stimulation and high levels of K + ions elicited this release. The extent of release depended on stimulation intensity. Rather strong stimuli, either by high frequency or longer stimulation, were required to elicit sufficient HA release for proper assessment of the concentration-dependence of release inhibition by drugs. The system showed marked depletion (less response per pulse) upon long-continued or successive stimulations. HA added to the superfusion medium inhibited the release evoked by stimulation at frequencies up to 10 Hz or with 30 mM K + but not the release at higher frequencies or with 45 mM K +. The inhibition was mediated by H 3 receptors, was concentration-dependent (pD 2=7.4) and was complete at 10 −6 M. The H 2 agonist impromidine antagonized the inhibition competitively (pA 2=7.1). It is concluded that this assay in a superfusion system with electrical stimulation is suitable for the assessment of H 3 receptor activity of drugs.