Toxicological sciences : an official journal of the Society of Toxicology
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The purpose of this study was to examine a broad range of toxicologic responses in rats exposed to a multi-component pollutant atmosphere. Cumulative and adaptive respiratory tract responses to 3 concentrations of an inhaled particle-oxidant mixture were examined in Fisher 344 N rats exposed 4 h/day, 3 days/week for 4 weeks. The mixtures contained O3, NO2, NH4HSO4, carbon particles, and HNO3 vapor. ⋯ Progressively exacerbated breathing-pattern responses at high concentrations were associated with lung lesions and high cell-proliferation labeling in the nose transitional epithelium and terminal bronchioles. Attenuating or adaptive breathing-pattern responses occurred in the presence of smaller, but in many cases still significant, compromise of respiratory functions. Either attenuating or exacerbated breathing-pattern responses can occur in the presence of a significant dose-dependent compromise of other respiratory functions and lung tissue injury.
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Since their return from Persian Gulf War (PGW), many veterans have complained of symptoms including muscle and joint pain, ataxia, chronic fatigue, headache, and difficulty with concentration. The causes of the symptoms remain unknown. Because these veterans were exposed to a combination of chemicals including pyridostigmine bromide (PB), DEET, and permethrin, we investigated the effects of these agents, alone and in combination, on the sensorimotor behavior and central cholinergic system of rats. ⋯ Coexposure to PB, DEET, and permethrin did not have any effect over that of PB-induced increase in ligand binding. There was no significant change in ligand binding for nicotinic acetylcholine receptor (nAChR) associated with treatment with the chemical alone; a combination of PB and DEET or coexposure with PB, DEET, and permethrin caused a significant increase in nAChR ligand binding in the cortex. Thus, these results suggest that exposure to physiologically relevant doses of PB, DEET, and permethrin, alone or in combination, leads to neurobehavioral deficits and region-specific alterations in AChE and acetylcholine receptors.
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The mechanism of acute toxicity of the organophosphorus insecticides has been known for many years to be inhibition of the critical enzyme acetylcholinesterase (EC 3.1.1.7), with the resulting excess acetylcholine accumulation leading to symptoms of cholinergic excess. The bimolecular inhibition rate constant k(i) has been used for decades to describe the inhibitory capacity of organophosphates toward acetylcholinesterase. In the current study, a new approach based on continuous systems modeling was used to determine the appk(i)s of paraoxon and methyl paraoxon towards mouse brain acetylcholinesterase over a wide range of oxon concentrations. ⋯ Modeling studies using several different kinetic schemes, as well as studies using recombinant monomeric mouse brain acetylcholinesterase, suggested the existence of a second binding site in addition to the active site of the enzyme, to which paraoxon and methyl paraoxon bound, probably in a reversibly manner. Occupation of this site likely rendered more difficult the subsequent phosphorylation of the active site by other oxon molecules, probably by steric hindrance or allosteric modification of the active site. It cannot be ascertained from the current study whether the putative second binding site is identical to or shares common elements with the well-characterized propidium-specific peripheral binding site of acetylcholinesterase.
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Developmental exposure to polychlorinated biphenyls (PCBs) has been associated with cognitive deficits in children. Rodent studies have revealed impairments in learning tasks involving the hippocampus. The present study sought to examine hippocampal synaptic plasticity in the dentate gyrus and spatial learning in animals exposed to PCBs early in development. ⋯ No differences in baseline synaptic population spike (PS) and excitatory postsynaptic potential (EPSP) slope amplitudes were discerned between the groups prior to train delivery. Post-train I/O functions, however, revealed a decrement in the magnitude of evoked LTP in PCB-exposed animals, and an increase in the train intensity required to induce LTP. The observed dissociation between impaired hippocampal plasticity, in the absence of a detectable deficit in performance of a hippocampal-dependent task, may be due to task complexity, the maintenance of some degree of plasticity in the PCB-exposed animals, or the possibility that intact dentate gyrus LTP may not be requisite for water-maze learning.