Hepatotoxicity of immunotoxins made with saporin, a ribosome-inactivating protein from Saponaria officinalis

Immunotoxins were prepared by conjugating saporin, a ribosome-inactivating protein from Saponaria officinalis, to a monoclonal antibody against the Thy1.1 antigen, or to its F(ab')2 fragment. The immunotoxins were eight- to 16-fold more toxic to mice than free saporin. Injection of the immunotoxins induced necrosis of the liver and spleen, whereas free saporin caused necrosis of the epithelium of the kidney tubules. The cytoplasm of the hepatic parenchymal cells was affected by the immunotoxins, lesions being apparent in the rough endoplasmic reticulum and, later, in the mitochondria. These changes were associated with a reduced capacity to synthesise proteins both in the intact liver and by isolated liver microsomes. Studies of the in vivo distribution showed that 90% of the free saporin was removed from the bloodstream, mainly by the kidneys, within 10 min of injection. By contrast, the immunotoxins persisted in the blood for several hours and the only organ in which they consistently accumulated was the liver. The hepatotoxic effect of the immunotoxins was not due to their binding to liver cells via the antigen-binding sites or the Fc-piece of the antibody moiety, nor was it due to hepatic recognition of carbohydrate in the immunotoxin. It is concluded that free saporin, although capable of entering liver cells, is filtered so rapidly by the kidney that liver damage does not occur to a significant extent. Filtered saporin, however, is reabsorbed by renal tubules, whose epithelial cells are damaged. The antibody-saporin conjugate is too large to filter at the glomerulus and so has greater opportunity to penetrate into and to damage the hepatic parenchymal cell.