Changes in regional brain synaptosomal high affinity choline uptake during the development of hypertension in spontaneously hypertensive rats

Abstract

The high-affinity uptake of choline (HAChU) by freshly prepared crude synaptosomal fractions was employed as relative measure of regional brain cholinergic activity. TheV _max for uptake as determined by the accumulation of a tracer amount of³H-choline in the presence of unlabeled choline (0.2–2 μM) varied 6 fold depending upon the region examined (striatum>hypothalamus>medulla-pons). HAChU was hemicholinium-3-sensitive and linear at 37°C from 1 to 8 min in all brain regions. Respective brain synaptosomal fractions derived from adult (12 week old) spontaneously hypertensive (SH) rats and normotensive Wistar Kyoto (WK) rats revealed no difference in theV _max for HAChU from synaptosomes derived from the striatum of either strain. However, there was a significant increase in theV _max for HAChU measured from the medulla-pons of SH rats compared with WK rats. In older (22 weeks) rats, theV _max for HAChU was 78% greater than age-matched WK control rats. In addition, a highly significant correlation was found between resting systolic blood pressure and theV _max for HAChU both in the medulla-pons (r=0.76) and hypothalamus (r=0.48). That the increase in HAChU in SH rats was not a consequence of elevated pressure, was indicated by the lack of effect of prolonged i.v. infusion of pressor agents in normotensive rats on HAChU. These findings are consistent with a role for brain cholinergic neurons in the maintenance of hypertension in SH rats.