Substance P: Regional distribution and specific binding to synaptic membranes in rabbit central nervous system

Abstract

Regional distribution of endogenous substance P and the specific [ 3 H]substance P binding to synaptic membranes in rabbit central nervous system were investigated. The highest level of substance P was found in mesencephalon, followed by diencephalon, corpus striatum, hippocampus, pons-medulla and cortex. In spinal cord, much higher amount of substance P existed in dorsal half than in ventral half. Most of the substance P present in the areas enriched in substance P was located in crude mitochondrial P 2 fractions containing nerve endings. A saturable, high affinity, specific binding of [ 3 H]substance P in synaptic membranes was found. The apparent maximal number of binding sites was 95.7 fmole/mg protein, while the dissociation constant (K D ) was 2.74 nM. The binding was displaced by substance P sequence fragments and the related peptides with relative potencies generally parallelizing their pharmacological activities. The distribution of such specific binding generally correlated with endogenous substance P. The presence of such binding sites for substance P in synaptic membranes suggests a possible role for substance P as a transmitter or modulator of neural function.