Glutathione content and turnover in rat nasal epithelia.

During inhalation exposure to airborne toxicants, the nasal epithelium may be subjected to local toxicity. Since glutathione (GSH) is often involved in xenobiotic metabolism, GSH status in these tissues has been examined. GSH content and apparent first-order rate constants for GSH turnover and synthesis were determined for respiratory epithelium covering the anterior ventral septum and naso and maxillo turbinates, olfactory epithelium covering the dorsal posterior septum, and olfactory epithelium of the dorsal meatus from male Fischer-344 rats.

Disposition and metabolism of acrylic acid in C3H mice and Fischer 344 rats after oral or cutaneous administration.

Acrylic acid (AA) is used in large amounts to produce acrylic esters and polymers. Here we report on the disposition and metabolism of [1-14C]AA in male C3H mice and Fischer 344 (F344) rats after oral (40 and 150) mg/kg) or cutaneous (10 and 40 mg/kg) administration. Although these and other strains of rodents have been used frequently in toxicity studies of AA, results of pharmacokinetic studies are available for only the Sprague-Dawley rat.

The regional hydrolysis of ethyl acrylate to acrylic acid in the rat nasal cavity.

Cytotoxicity is primarily limited to the olfactory epithelium of the dorsal meatus region of the nasal cavity of rodents following inhalation exposure to acrylic monomers. To investigate the biochemical basis for this effect, three regions of the Fischer F344N rat nasal cavity were evaluated for carboxylesterase activity for the representative acrylic ester, ethyl acrylate. Prior studies have indicated that the rodent olfactory epithelium is sensitive to the cytotoxic effects of short chain organic acids.

The disposition and metabolism of acrylic acid and ethyl acrylate in male Sprague-Dawley rats.

Following oral dosing of [2,3-14C]acrylic acid (AA; 4, 40, or 400 mg/kg) and [2,3-14C]ethyl acrylate (EA; 2, 20, or 200 mg/kg), the dosed radioactivity was rapidly excreted, with 50-75% of the dose for both compounds eliminated within 24 hr. The primary excretory metabolite for both compounds is carbon dioxide, accounting for 44-68% of the dose. HPLC analysis of the urine of AA- and EA-dosed animals indicated the presence of 3-hydroxypropionic acid.