Hepatic polyamines and related enzymes following chlordecone‐potentiated carbon tetrachloride toxicity in rats

Abstract

Chlordecone potentiation of the hepatotoxic and lethal effects of CCl₄ has been well established. Recent studies have shown that the suppression of hepatocellular regeneration results in an accelerated progression of liver injury leading to complete hepatic failure. Since polyamines are involved in cell division, these studies were designed to investigate the polyamine levels and associated enzymes in the livers of rats treated with a low‐dose combination of CD and CCl₄. For comparison, a large toxic dose of CCl₄ was also employed. The extent of liver toxicity in rats fed 10 parts per million chlordecone (CD) for 15 days and subsequently injected with a single dose of CCl₄ (100 μL/kg body weight) or a high dose of CCl₄ alone (2.5 mL/kg body weight) was similar 6 and 24 hr later as assessed by plasma transaminase levels. There was significant elevation in liver ornithine decarboxylase, S‐adeno‐sylmethionine decarboxylase, and putrescine at 24 hr and spermidine N¹‐acetyltransferase, N¹‐acetylputrescine, putreanine, putrescine, and N¹‐acetylspermidine at 6 hr in rats treated with the high dose of CCl₄ alone compared to the combination treatment. Spermidine levels decreased up to 6 hr and then increased up to 24 hr for both treatments. Spermine continuously decreased up to 24 hr for the CD and CCl₄ low‐dose combination treatment compared to rats treated with a high dose of CCl₄ alone. Spermidine levels were lower than in controls and rose towards control value between 6 and 24 hr after the combination treatment and the high dose of CCl₄. Results indicate that the CD and CCl₄ low‐dose combination treatment increased liver toxicity, resulting in compromised polyamine metabolism that is coincidental with suppressed hepatocellular regeneration, which leads to an accelerated progressive phase of liver injury and culminates in complete hepatic failure.