Separation of intact and damaged hepatocytes in sucrose following non-enzymatic liver perfusion.

This study deals with isolation of rat hepatocytes by a non-enzymatic method and the separation of intact and damaged cells in sucrose medium. Low speed centrifugation in isotonic sucrose medium of a hepatocyte suspension obtained by mechanical desaggregation of liver pre-perfused with EDTA solution results in the formation of a cell pellet which contains two different layers. A darker layer contains hepatocytes with intact plasma membranes. Their respiratory activity and xenobiotic metabolism are close to those of the cells isolated by collagenase perfusion. The study of distribution of lipophilic cation tetraphenylphosphonium (TPP(+)) indicates a predominantly mitochondrial localization of TPP(+) in the intact cells following non-enzymatic and collagenase isolation. Hepatocytes in the upper layer have damaged plasma membranes. As a result they lose the potential to accumulate TPP(+), and have low rates of endogenous respiration and biotransformation activity. Addition of exogenous NADPH restores the capability to metabolize xenobiotics. Washing and incubation of these hepaticytes in an intracellular type medium results in restoration of uncoupler-stimulated oxygen consumption and generation of membrane potential in the presence of a succinate substrate. These properties are close to those of hepatocytes permeabilized by digitonin treatment. Thus, the procedure allows the simultaneous isolation of both intact and permeabilized hepatocytes with functionally active intracellular structures without the use of relatively expensive chemicals such as collagenase and Percoll.