Synthesis and excretion profile of 1,4-[14C]phenylenebis(methylene)selenocyanate in the rat

Synthesis and excretion profile of 1,4-[14C]phenylenebis(methylene)selenocyanate in the rat

1,4-Phenylenebis(methylene)selenocyanate (p-XSC) inhibits chemically induced tumors in several laboratory animal models. To understand its mode of action, we synthesized p-[14C]XSC, examined its excretion pattern in female CD rats and also the nature of its metabolites. p-[14C]XSC was synthesized fr...

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Bibliographic Details
Published in:Carcinogenesis (New York) Vol. 19; no. 9; pp. 1603 - 1607
Main Authors: EL-BAYOUMY, K, UPADHYAYA, P, SOHN, O.-S, ROSA, J. G, FIALA, E. S
Format: Journal Article
Language:English
Published: Oxford Oxford University Press 01-09-1998
Oxford Publishing Limited (England)
Subjects:
Animals
Antineoplastic Agents - pharmacokinetics
Biological and medical sciences
Carbon Radioisotopes
Carcinogenesis, carcinogens and anticarcinogens
Chemical agents
Female
Medical sciences
Organoselenium Compounds - chemical synthesis
Organoselenium Compounds - pharmacokinetics
Rats
Selenium - pharmacokinetics
Tumors
Vertebrata
Organic selenocyanate
Mammalia
Rat
Animal
Rodentia
Oral administration
Anticarcinogen
Metabolism
Pharmacokinetics
Selenium Organic compounds
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Summary:1,4-Phenylenebis(methylene)selenocyanate (p-XSC) inhibits chemically induced tumors in several laboratory animal models. To understand its mode of action, we synthesized p-[14C]XSC, examined its excretion pattern in female CD rats and also the nature of its metabolites. p-[14C]XSC was synthesized from alpha,alpha-dibromo-p-[ring-14C]xylene in 80% yield. The excretion profile of p-[14C]XSC (15.8 mg/kg body wt, 200 microCi/rat, oral administration, in 1 ml corn oil) in vivo was monitored by measuring radioactivity and selenium content. On the basis of radioactivity, approximately 20% of the dose was excreted in the urine and 68% in the feces over 3 days. The cumulative percentages of the dose excreted over 7 days were 24% in urine and 75% in feces, similar to excretion rates of selenium. According to selenium measurement, <1% of the dose was detected in exhaled air; radioactivity was not detected. Only 15% of the dose was extractable from the feces with EtOAc and was identified as tetraselenocyclophane (TSC). Most of the radioactivity remained tightly bound to the feces. Approximately 10% of this bound material converted to TSC on reduction with NaBH4. Organic soluble metabolites in urine did not exceed 2% of the dose; sulfate (9 % of urinary metabolites) and glucuronic acid (19.5% of urinary metabolites) conjugates were observed but their structural identification is still underway. Co-chromatography with a synthetic standard led to the detection of terephthalic acid (1,4-benzenedicarboxylic acid) as a minor metabolite. The major urinary conjugates contained selenium. Despite the low levels of selenium in the exhaled air, the reductive metabolism of p-XSC to H2Se cannot be ruled out. Identification of TSC in vivo indicates that a selenol may be a key intermediate responsible for the chemopreventive action of p-XSC.
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ISSN:0143-3334
1460-2180
1460-2180
DOI:10.1093/carcin/19.9.1603