Title: Organ-specific biotransformation of ormaplatin in the Fischer 344 rat.

Authors: Thompson, D C; Vaisman, A; Sakata, M K; Wyrick, S D; Holbrook, D J; Chaney, S G

Published In Cancer Chemother Pharmacol, (1995)

Abstract: We examined the intracellular biotransformation products of ormaplatin [(d,l-trans)1,2-diaminocyclohexanetetrachloroplatinum(IV)] (formerly called tetraplatin) in liver, kidney, spleen, small intestine, and plasma of the adult male Fischer 344 rat. Previous studies have established that the rank order of ormaplatin toxicity in Fischer 344 rats is spleen approximately gastrointestinal tract > kidney > liver. Animals were given tritium-labelled drug i.v. at 12.5 mg/kg, and tissues were harvested 30 min later. The kidney was found to concentrate total and cytosolic platinum to a greater extent than any of the other tissues. The absolute amount of cytosolic platinum, in micrograms per gram tissue, that was irreversibly bound to protein and/or other macromolecules was also greatest in the kidney. However, when the amount bound was expressed as a percentage of the total cytosolic platinum, the kidney was significantly lower than any other tissue. Of the various low molecular mass platinum biotransformation species characterized, by far the most abundant were complexes of platinum with the sulfur-containing molecules cysteine, methionine, and glutathione (GSH). There was more of the methionine complex in the blood plasma than in any of the tissues except for the spleen. No significant differences among the tissues were detected for the dichloro, cysteine, methionine, or the GSH complexes. The tritium-labelled diaminocyclohexane (DACH) carrier ligand appeared to remain stably bound to the platinum while in the plasma, as there was less free DACH ligand detected in plasma ultrafiltrate than in any tissue ultrafiltrate. Among the tissues, the free DACH levels were in the range of 20% of the radioactivity recovered from the HPLC column and were not significantly different. Consequently, neither biodistribution nor tissue-specific biotransformation of ormaplatin provides a ready explanation for the tissue specificity of ormaplatin toxicity in Fischer 344 rats. However, in kidney there was much less of the reactive PtCl2(DACH) species than has previously been reported for the corresponding Pt(NH3)2Cl2 species in cisplatin-treated rats. Thus, these data suggest a possible explanation for differences in nephrotoxicity induced by cisplatin versus that by ormaplatin.

PubMed ID: 7634386

MeSH Terms: Analysis of Variance; Animals; Antineoplastic Agents/blood; Antineoplastic Agents/pharmacokinetics*; Biotransformation; Intestine, Small/metabolism*; Kidney/metabolism*; Liver/metabolism*; Male; Organoplatinum Compounds/blood; Organoplatinum Compounds/pharmacokinetics*; Rats; Rats, Inbred F344; Spleen/metabolism*