Re-entry waves of Leao's spreading depression between neocortex and caudate nucleus

Abstract

About 40% of spreading depression (SD) waves elicited from the parieto-occipital cortex of anesthetised rats penetrated through the temporal lobe structures (amygdala) into the caudate nucleus. Almost 70% of these SD waves did not terminate in the caudate but returned to the cortex and spread through it toward the site of SD initiation. Longer cortico-caudate (5.9 ± 0.1min) than caudate-cortical (4.7 ± 0.2min) conduction times suggest that SD enters and leaves caudate through routes of different length. SD waves elicited by KCl microinjection into the caudate reached frontal and parieto-occipital cortical electrodes with latencies indicating that the transit point is 5 mm closer to the rostral than to the caudal electrode. The region best satisfying this condition corresponds to rostral claustrum. The directionally biased SD conduction through the transit zone provides a re-entry path for cortico-caudate-cortical SD propagation and forms thus a natural reverberator the small dimensions of which preclude generation of repetitive SD waves.