A study of rat intracerebral arterioles: methods, morphology, and reactivity

Abstract

Penetrating, intracerebral arterioles from rats were isolated, cannulated, and studied in vitro. Vessel wall elements consisted of an endothelial cell layer, one smooth muscle cell layer, and a thin adventitial layer or leptomeningeal sheath. Smooth muscle cell nuclei were oriented perpendicular to the vessel''s longitudinal axis; endothelial cell nuclei were parallel to the axis. Mean vessel diameter with the smooth muscle inactivated (passive diameter) was 36.7 .+-. 1.6 (SE) .mu.m. Spontaneous smooth muscle tone developed at 37.degree. C and reduced vessel diameter to 70 .+-. 4% of passive diameter. Vessels were activated by the extraluminal application of 140 mM KCl solution at pH 8.00, which produced a transient contraction that decayed within 30 s to a steady contraction of somewhat less intensity. Changes in intravascular pressure were used to alter wall tension of the vessels. Tension in the vessel wall was computed, and length-tension curves for the arteriolar smooth muscle were approximated. Length-tension relationships similar to those seen in other smooth-muscle preparations were found with maximal estimated force development of 1.29 .times. 10-5 N .cntdot. m-2. Alterations of bath pH caused changes in vessel diameter that were inversely related to extraluminal pH and varied by .apprx. 77% in the range from pH 6.85-8.00. Adenosine dilated vessels to 140 .+-. 6% of control diameter at a concentration of 10-5 M. The mechanical characteristics and the reactivity to H+, K+, and adenosine of these vessels were quantitatively consistent with in vitro data from larger cerebral vessels and in vivo data from pial arteries.