Triphenyl phosphite neurotoxicity in the hen: inhibition of neurotoxic esterase and of prophylaxis by phenylmethylsulfonyl fluoride

Abstract

The neuropathic syndrome resulting in the cat and the rat from single or multiple doses of the phosphorous acid ester tiphenyl phosphite (TPP) has been reported to differ from the syndrome caused by numerous phosphoric acid esters, which is known as organophosphorous compound-induced delayed neurotoxicity (OPIDN). Since the hen is used to test compounds for OPIDN, we chose to study the neurotoxicity of single subcutaneous doses of TPP using this animal model. TPP (1000 mg/kg) produced progressive ataxia and paralysis which began to develop 5–10 days after dosing. Similar signs were observed when subcutaneous doses of the OPIDN-causing agents tri-o-cresyl phosphate (TOCP) or diisopropyl phosphorofluoridate (DFP) were administered. The minimum neurotoxic dose of TPP was 500 mg/kg. Prior administration of phenylmethylsulfonyl fluoride (PMSF) prevented the development of a neuropathy induced by DFP, but did not fully protect the hens from TPP or TOCP. PMSF slowed, but did not prevent, the neuropathy caused by TOCP. PMSF reduced the neurotoxicity of 500 mg/kg TPP, but increased the neurotoxicity of 1000 mg/kg TPP. TPP was found to be a very potent inhibitor of neurotoxic esterase (NTE), the putative target site for OPIDN, in vitro, with a k_i of about 2.1×10⁵ M⁻¹min⁻¹. Equimolar doses of either TPP (1000 mg/kg) and TOCP (1187 mg/kg) caused over 80% inhibition of neurotoxic esterase (NTE) in brain and sciatic nerve. This high level of NTE inhibition persisted for several weeks. This prolonged inhibition probably accounts for the inability of PMSF to block the neurotoxicity of TOCP. The dose-response curve for NTE inhibition 48 h after dosing indicated that a level of 70% inhibition correlated with the neurotoxicity of TPP. Subneurotoxic doses of TPP and DFP were found to have an additive effect which could be blocked by PMSF. These results indicate that TPP can cause OPIDN in the hen. The synergism between PMSF and the higher dose of TPP suggests the presence of a second neurotoxic effect as well.