Kulwinder K. Banger scite author profile

Many xenobiotics induce lesions within the nasal cavity of experimental animals which are site specific. This site selectivity may be due to regional deposition within the nasal cavity and/or the localisation of biotransformation enzymes. We have developed methodology which allows immunohistochemical localisation of xenobiotic biotransformation enzymes in transverse sections of the rat nasal cavity identical to those normally taken for pathological examination. We report the application of this methodology to six isoenzymes of the glutathione S-transferases (GSTs). All six isoenzymes were predominantly located within olfactory epithelium covering the ethmoturbinates (levels III and IV) and extending forwards into the dorsal meatus (level II). Squamous and transitional epithelia showed little or no staining while respiratory epithelium was weakly stained. Within the respiratory epithelium only the ciliated columnar cells and, to a lesser extent, some of the seromucous glands contained GSTs. Within olfactory epithelium the sustentacular cells, basal cells and subepithelial glands all stained positive for GSTs. The different cell types of olfactory epithelium preferentially express different GST isoenzymes: 1-1 and 2-2 were predominantly located in the subepithelial glands; 3-3, 4-4 and 8-8 in sustentacular and basal cells; 7-7 in basal cells.

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Olfactory toxicity of methyl iodide in the rat

Reed

Gaskell

Banger

et al. 1995

Arch Toxicol

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The monohalomethanes (methyl iodide, methyl bromide and methyl chloride) are widely used industrial methylating agents with pronounced acute and chronic toxicity in both experimental animals and man. Recently inhalation exposure of rats to methyl bromide has been shown to result in severe olfactory toxicity. This study examined the effects on the rat nasal cavity of inhalation of methyl iodide (100 ppm for 0.5-6 h), and demonstrated that methyl iodide is a more potent olfactory toxin than methyl bromide. Within the nasal cavity the olfactory epithelium was the principle target tissue, and it was only at high doses (600 ppm.h) that limited damage to transitional epithelium occurred. The squamous and respiratory epithelia were consistently unaffected. Within olfactory epithelium the sustentacular cells were the primary cellular target and damage to sensory cells appeared to be a secondary event. Methyl iodide induced olfactory damage was reversible, and 2 weeks after exposure almost complete repair had taken place.

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The characterization of glutathione S-transferases from rat olfactory epithelium

Banger

Lock

Reed

1993

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The glutathione S-transferases (GSTs) of rat olfactory epithelium have been characterized with regard to substrate specificity and subunit composition and compared to those of the liver. The presence of cytosolic GST activity in rat olfactory epithelium was confirmed and, using 1-chloro-2,4-dinitrobenzene as substrate, was found to be approximately one-third that of the liver. Olfactory microsomal GST activity was greater than that of liver microsomes and could be activated by treatment with the sulphydryl agent N-ethylmaleimide. The subunit and isoenzyme profile of GSTs in the olfactory epithelium was investigated using a number of techniques. (1) Olfactory GSTs were characterized using a range of relatively subunit-specific substrates. Activities ranged from 40-90% of those found in liver. Most noticeable was the extremely low olfactory activity with the substrate specific for subunit 1. (2) Immunoblotting with antibodies against specific rat hepatic GSTs confirmed the presence of a number of subunits and the absence of subunit 1. (3) F.p.l.c. chromatofocusing and reverse-phase h.p.l.c. indicated that the cytosolic GST profile of olfactory epithelium is unique and is made up of subunits 2, 3, 4, 7, 8 and 11 with subunits 3 and 4 predominating. There is an absence of isoenzymes containing subunit 1.

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Regulation of rat olfactory glutathione S-transferase expression

Banger

Lock

Reed³

1996

Biochemical Pharmacology

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