Molecular mechanisms involved in the toxicity of orthophenylphenol and its sodium salt

Abstract

Hiraga and Fujii have recently reported that F344 rats consuming diets with high levels of sodium orthophenylphenate (SOPP) developed bladder tumors after 13–91 weeks (Fd. Cosmet. Toxicol., 19 (1981) 303). Several dose levels were tested and doses above 1.0% SOPP by weight appeared to cause an increase in both toxicity and bladder carcinogenicity. In order to put these studies into better perspective, the effects of feeding diets containing SOPP or orthophenylphenol (OPP) to F344 male rats for varying lengths of time were characterized. Hyperplasia of the bladder epithelium was noted in rats consuming diets containing 2% SOPP (equivalent to 1000–1500 mg/kg/day) after 1–2 weeks, with epithelial thickening increasing through 90 days. No bladder lesions were seen in the group consuming 2% OPP but focal kidney lesions were noted. In contrast to the results reported by Hiraga and Fujii, no tumors of the urinary tract were observed following 90 days of consumption of the 2% SOPP diet. The potential of these chemicals to induce genotoxic lesions was studied. No detectable increases in the reversion rates of Salmonella typhimurium (strains TA 98, TA 100, TA 1535, TA 1537 and TA 1538) were seen at concentrations of SOPP up to 5.8 · 10 −4 M. SOPP also failed to produce a detectable increase in unscheduled DNA synthesis in primary rat hepatocytes at concentrations up to 1 · 10 −4 M. No covalently-bound radioactivity was observed in DNA purified from the bladders of rats gavaged with 500 mg/kg [ 14C]SOPP or [ 14C]OPP (detection limit < 1 alkylation/10 6 nucleotides). These results suggest little or no genotoxicity for OPP or SOPP. The metabolism of OPP and SOPP in male F344 rats was shown to be dose-dependent. After gavage with 50 mg/kg or less, most of the administered material was recovered in the urine as glucuronide or sulfate conjugates of the parent material. After gavage with 500 mg/kg a new metabolite, apparently produced by mixed function oxidases, was observed. This metabolite was characterized by gas chromatography/mass spectroscopy as a conjugate of dihydroxybiphenyl. It is postulated that the potentially reactive metabolites produced by this oxidative pathway may be associated with the toxicity induced by high concentrations of OPP or SOPP. Thus the bladder toxicity and carcinogenicity of SOPP and the renal toxicity of OPP appear to occur only following the administration of high doses which saturate the normal conjugation pathways. However, since no genotoxicity was detected even at saturating doses, it appears unlikely that exposure to subtoxic doses would cause any significant increase in carcinogenic risk.