Drug-induced immunotoxicity.

Immune-related drug responses are one of the most common sources of idiosyncratic toxicity. A number of organs may be the target of such reactions; however, this review concentrates mostly on the liver. Drug-induced hepatitis is generally divided into two categories: acute hepatitis in which the drug or a metabolite destroys a vital target in the cell; immunoallergic hepatitis in which the drug triggers an adverse immune response directed against the liver.

Opposite behaviors of reactive metabolites of tienilic acid and its isomer toward liver proteins: use of specific anti-tienilic acid-protein adduct antibodies and the possible relationship with different hepatotoxic effects of the two compounds.

Tienilic acid (TA) is responsible for an immune-mediated drug-induced hepatitis in humans, while its isomer (TAI) triggers a direct hepatitis in rats. In this study, we describe an immunological approach developed for studying the specificity of the covalent binding of these two compounds. For this purpose, two different coupling strategies were used to obtain TA-carrier protein conjugates.

Application of capillary gas chromatography to the study of hydrolysis of the nerve agent VX in rat plasma.

We present here a gas chromatography technique allowing the detection and quantification of VX [O-ethyl S-(2-diisopropylaminoethyl)methylphosphonothiolate] as well as its P-S bond hydrolysis product diisopropylaminoethanethiol directly from spiked rat plasma. This technique was applied to study VX hydrolysis in rat plasma. We observed that 53 +/- 4% of 374 microM VX disappeared from spiked plasma after 2 h.

Antigenic targets in tienilic acid hepatitis. Both cytochrome P450 2C11 and 2C11-tienilic acid adducts are transported to the plasma membrane of rat hepatocytes and recognized by human sera.

Patients with tienilic acid hepatitis exhibit autoantibodies that recognize unalkylated cytochrome P450 2C9 in humans but recognize 2C11 in rats. Our aim was to determine whether the immune reaction is also directed against neoantigens. Rats were treated with tienilic acid and hepatocytes were isolated.

Specificity of in vitro covalent binding of tienilic acid metabolites to human liver microsomes in relationship to the type of hepatotoxicity: comparison with two directly hepatotoxic drugs.

In order to better understand the first steps leading to drug-induced immunoallergic hepatitis, we studied the target of anti-LKM2 autoantibodies appearing in tienilic acid-induced hepatitis, and the target of tienilic acid-reactive metabolites. It was identified as cytochrome P450 2C9, (P450 2C9): indeed, anti-LKM2 specifically recognized P450 2C9, but none of the other P450s tested (including other 2C subfamily members, 2C8 and 2C18). Tienilic acid-reactive metabolite(s) specifically bound to P450 2C9, and experiments with yeast expressing active isolated P450s showed that P450 2C9 was responsible for tienilic acid-reactive metabolite(s) production.