Implications of lead binding proteins for risk assessment of lead exposure.

Lead-binding proteins have previously been isolated from rat and human target tissues. These molecules have shown to possess molecular masses in the general range of 10,000-30,000 daltons. The proteins are acidic in nature and rich in aspartic and glutamic amino acid residues. The molecules in rodents appear to play several important roles in mediating the low dose toxicity of lead in the kidney and brain. Preliminary studies presented in this report indicate that monkeys also possess similar proteins in the kidney and brain, thus providing a biochemical "bridge" in a non-human primate between rodent models and humans. Further, the excretion of these molecules into the urine of rodents increases with lead exposure, suggesting that may also prove useful as biomarkers of lead exposure in humans and monkeys once the dose-range and mechanism(s) of this phenomenon are further defined. Such studies should provide valuable risk assessment information for determining why individuals vary in their susceptibility to lead toxicity.