Mature hepatocytes actively divide and express gamma-glutamyl transpeptidase after D-galactosamine liver injury.

Abstract

We studied the fate of hepatocytes in the rat liver after D-galactosamine injury by genetic labeling using recombinant retroviruses carrying the Escherichia coli lacZ gene coupled to a nuclear localization signal. Hepatocytes were either labeled by direct injection of 2.5 ml high-titer retrovirus-containing medium in the regenerating liver parenchyma after administration of a single dose of D-galactosamine. Alternatively hepatocytes were pre-labeled, 24 h after a two-thirds hepatectomy, by injecting the same volume of retroviral solution in the portal vein and D-galactosamine was administered 15 days later. Gamma-glutamyl transpeptidase and beta-galactosidase activities were assessed on cryostat sections, along with localization of the hepatocyte-specific HES6 antigen. Morphological observations, as well as beta-galactosidase activity detection, showed that hepatocytes actively divide as early as 1 day after D-galactosamine injection. Gamma-glutamyl transpeptidase activity was detected in biliary cells, but also in mature hepatocytes, pre-labeled with beta-galactosidase before D-galactosamine administration. These experiments demonstrate that hepatocytes can divide to restore the liver mass after D-galactosamine liver injury. Furthermore, we also show that gamma-glutamyl transpeptidase, which has been reported to be expressed only by fetal or preneoplastic hepatocytes, can be re-expressed by mature hepatocytes during the recovery process.