Parasympathetic cholinergic vasodilator mechanism in the terminal liver microcirculation in rats.

Changes in the diameter of liver sinusoids were studied by an intravital television microscope method in pentobarbital-anaesthetized rats. Dilatation of liver sinusoids was observed during parasympathetic neural stimulation and during acetylcholine administration. Frequency-dependent stimulation-effect relationships were obtained by electrical excitation of intact vagus nerves at supramaximal intensity from 2 to 8 Hz. Acetylcholine concentration-effect relationships were also obtained by intraportal venous infusions of acetylcholine 30 microliter for 5 s from 10(-9) to 10(-2) mol.1(-1). Systemic cholinergic receptor blockade with atropine (1 mg.kg-1) markedly reduced dilatation of liver sinusoids produced by both vagus nerve stimulation and acetylcholine administration. Changes in diameter of liver sinusoids with frequency of neural stimulation and with concentration of administered acetylcholine were also expressed as percentage of observed maximum effect and the respective stimulation-effect curves were constructed such that at a certain percentage of diameter change, the equivalent level of vagus nerve activity was represented by a given concentration of administered acetylcholine. Liver plasma concentration of acetylcholine presumably released during electrical vagal stimulation and reaching liver sinusoids was also estimated and found to be within physiological range. It is therefore proposed that rat liver sinusoids have the capacity for parasympathetic cholinergic vasodilatation.