Serum citrate as a peripheral indicator of fluoroacetate and fluorocitrate toxicity in rats and dogs.

The utility of serum citrate as a peripheral indicator of toxicity was tested as a possible investigational probe for compounds which inhibit citrate metabolism. Fluoroacetate (FA) and its putative toxic metabolite, fluorocitrate (FC), were given to rats and dogs in a series of studies. In rats, 3 mg/kg FA (po) caused a 46% depletion in heart ATP concentrations and a 15-fold increase in heart citrate concentrations. Both of these changes were significantly correlated with a fivefold elevation in serum citrate. In dogs, citrate accumulation was less pronounced (two-to threefold) in the heart and serum, and heart ATP concentrations were not significantly reduced. However, the time course of serum citrate elevations corresponded with the appearance of serious clinical signs and death. In range-finding studies with rats or dogs, serum citrate elevations were always observed in a dose-related pattern according to the dose of FA or FC administered. In contrast to FA, toxic doses of FC did not reduce heart ATP in either rats or dogs, and heart citrate accumulation was less marked than with FA. Both FA and FC produced significant hyperglycemia (twofold increase) in both rats and dogs and high correlations were established between serum glucose and serum citrate in both species. Serum total calcium was reduced (-18%) in dogs treated with FC (8 mg/kg, iv) and a strong inverse correlation to serum citrate was shown. This correlation is biologically meaningful in light of the known chelating effect of citrate on calcium. Clinical manifestations of tremors, tetany, and convulsions in FC-treated dogs were consistent with known symptoms of hypocalcemia. No decrease in total calcium was observed in rats treated with either FA or FC. Despite certain species differences in response to the two fluoro inhibitors, serum citrate levels were always reflective of nontoxic, toxic, or lethal doses.