Tissue Distribution and Toxicokinetics of 2,3,7,8-Tetrachlorodibenzo-p-dioxin in Rats after Intravenous Injection

Tissue Distribution and Toxicokinetics of 2,3,7,8-Tetrachlorodibenzo-p-dioxinin Rats after Intravenous Injection. WEBER, L. W. D., ERNST,S. W., STAHL, B. U., AND ROZMAN, K. (1993). Fundam. Appl. Toxicol.21, 523–534. Male Sprague-Dawley rats (240–290 g) received intravenouslya nonlethal (9.25 µg/kg) or a lethal (72.7 µg/kg)dose of ¹⁴C-labeled 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)administered as an emulsion. Animals were euthanized between5 min and 16 days (lethal dose) or 32 days (nonlethal dose)after treatment. Tissue distribution was considered completeafter 24 hr, as by this time radioactivity levels in white adiposetissue had reached a maximum. The highest levels of radioactivitywere found in liver (5% of dose/g tissue), followed by whitefat (1% of dose/g tissue); serum was lowest at 0.01% of dose/mlserum. Relatively high levels of radioactivity were also detectedin most known target organs of TCDD toxicity, e.g., brown fat,adrenals, and thyroid. The pattern of organ distribution ofTCDD was essentially the same after the lethal and the nonlethaldose, but did not follow a simple lipophilicity relationship,as levels in liver were higher than those in white fat, andthose in brain were extremely low. A pool of TCDD in liposomesinitially trapped in lung and spleen was redistributed within24 hr mainly to liver and adipose tissue. Affinity of TCDD tostorage fat seemed to play a more important role as a drivingforce for redistribution than did induction of cytochrome P4501A2. The terminal slope of elimination of TCDD from tissuesindicated a half-life of 16 days after the nonlethal dose. Afterthe lethal dose radioactivity declined in all tissues for 2to 8 days and then increased again, reflecting shrinking tissuevolumes as well as remobilization of TCDD caused by the processof body mass wasting. Distribution data for 17 tissues and serumwere subjected to regression analysis and resulted in up totwo uptake phases and up to three elimination phases for a giventissue. After the nonlethal dose TCDD was mainly excreted viafeces; combined urinary and fecal excretions occurred with abiological half-life of 16.3 ± 3.0 days. Much longerhalf-lives were detected in white fat and skin. After the lethaldose, the fecal excretion of TCDD-derived radioactivity decreasedafter 8 days, and urinary excretion increased starting 12 daysafter dosing. Radioactivity in liver and white fat and the extractableportion in feces was mainly unchanged TCDD, as determined bythin-layer chromatography. Radioactivity in urine indicatedthe presence of a metabolite(s) of TCDD only.