Abstract
Male Sprague-Dawley rats, injected with the irreversible acetylcholinesterase (AChE) inhibitor soman (pinacolyl methylphosphonofluoridate) 25 μg/kg sc, showed no signs of toxicity. Pretreatment with iso-OMPA (tetra-isopropylpyrophosphoramide) 1 mg/kg sc 1 h before the soman administration, caused severe signs of hypercholinergic activity, similar to those seen with an acute signs-producing nonlethal dosage (100 μg soman/kg sc). Within 1 h iso-OMPA alone significantly reduced the activity of carboxylesterases (CarbE) in all tissues studied and butyrylcholinesterase (BuChE) activity was significantly reduced in plasma (22%) and liver (27%). Soman (25 μg/kg) alone significantly reduced the plasma activity of CarbE (15%), BuChE (53%) and AChE (18%), but had no effect on these enzymes of liver. The combined treatment of iso-OMPA and soman, however, reduced CarbE activity in liver (0%) and produced significantly greater effects than iso-OMPA or soman alone on AChE and BuChE in all the brain areas and skeletal muscles tested. The number of necrotic lesions found in skeletal muscles was many times higher with the combined treatment than seen with soman (25 μg/kg) alone, and was equal to those seen with an acute toxicity signs-producing dose of soman. It is concluded that the observed iso-OMPA-induced potentiation of soman toxicity is probably caused via reduced nonspecific binding sites (BuChE and CarbE) for soman leading to greater inhibition of AChE.
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References
Benschop HP, Konings CAG, Genderen JV, de Jong LPA (1984) Isolation, anticholinesterase properties, and acute toxicity in mice of the four stereoisomers of the nerve agent soman. Toxicol Appl Pharmacol 7: 61–74
Boskovic B (1979) The influence of 2-/o-cresyl/4H-1∶3∶2-benzo-dioxaphosphorin-2-oxide (CBDP) on organophosphate poisoning and its therapy. Arch Toxicol 42: 207–216
Clement JG (1982) Plasma aliesterase — a possible depot for soman (pinacolyl methylphosphonofluoridate) in the mouse. Biochem Pharmacol 31: 4085–4088
Clement JG (1984) Role of aliesterases in organophosphate poisoning. Fund Appl Toxicol 4: S96-S105
Ellman GL, Courtney KO, Andres V, Featherstone RM (1961) A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem Pharmacol 7: 88–95
Fonnum F, Sterri SH, Aas P, Johnson H (1985) Carboxylesterases, importance for detoxification of organophosphorus anticholinesterases and trichothecenes. Fund Appl Toxicol 5: S29-S38
Gupta RC, Patterson GT, Dettbarn W-D (1985) Mechanisms involved in the development of tolerance to DFP toxicity. Fund Appl Toxicol 5: S17-S28
Gupta RC, Patterson GT, Dettbarn W-D (1987) Biochemical and histochemical alterations following acute soman intoxication in rat. Toxicol Appl Pharmacol 87: 393–402
Hestrin S (1950) The reaction of acetylcholine and other carboxylic acid derivatives with hydroxylamine, and its analytical application. J Biol Chem 180: 249–261
Hoskin FCG (1985) Inhibition of a soman — and DFP — detoxifying enzyme by mipafox. Biochem Pharmacol 34: 2069–2072
Nordgren I, Lundgren G, Puu G, Karlen B, Holmstedt B (1985) Distribution and elimination of the stereoisomers of soman and their effect on brain acetylcholine. Fund Appl Toxicol 5: S252-S259
Steel RGD, Torrie J (1960) Principles and procedures of statistics. McGraw-Hill, New York, pp 99–156
Sterri S (1981) Factors modifying the toxicity of organophosphorus compounds including dichlorvos. Acta Pharmacol Toxicol 49 (suppl V): 67–71
Sterri SH, Lyngas S, Fonnum F (1981) Toxicity of soman after repetitive injection of sublethal doses in guinea pig and mouse. Acta Pharmacol Toxicol 49: 8–13
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Gupta, R.C., Dettbarn, W.D. iso-OMPA-induced potentiation of soman toxicity in rat. Arch Toxicol 61, 58–62 (1987). https://doi.org/10.1007/BF00324549
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DOI: https://doi.org/10.1007/BF00324549