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Neurotoxic Processes

However, in order to precisely define the nature of a neurotoxic process, its mechanism of production, and the quantitative determinants for the... [Pg.236]

CBl-dependent apoptosis of primary neurons may involve phospholipase A2-induced release of arachidonic acid, which promotes the activation of cyclooxygenases and lipoxygenases (Chan et al. 2003). This may generate free radicals and lead to lipid peroxidation and cell death. Activation of the JNK cascade may also contribute to this neurotoxic process (Downer et al. 2003) (Table 1). [Pg.634]

A particular mode of neurotoxicity was discovered for tricresyl phosphate that correlated with the presence of the o-cresyl isomer (or certain other specific aLkylphenyl isomers) in the triaryl phosphates. Many details of the chemistry and biochemistry of the toxic process have been elucidated (139,140,143—146). The use of low ortho-content cresols has become the accepted practice in industrial production of tricresyl phosphate. Standard in vivo tests, usually conducted with chickens sensitive to this mode of toxicity, have been developed for premarket testing of new or modified triaryl phosphates. As of 1992, the EPA called for extensive new toxicity and environmental data on this group of products (147). The Vederal e ster AoQ xm. ci. calling for this... [Pg.480]

A few OP compounds cause delayed neuropathy in vertebrates because they inhibit another esterase located in the nervous system, which has been termed neuropathy target esterase (NTE). This enzyme is described in Chapter 10, Section 10.2.4. OPs that cause delayed neuropathy include diisopropyl phosphofluoridate (DFP), mipafox, leptophos, methamidophos, and triorthocresol phosphate. The delay in the appearance of neurotoxic symptoms following exposure is associated with the aging process. In most cases, nerve degeneration is not seen with initial inhibition of the esterase but appears some 2-3 weeks after commencement of exposure, as the inhibited enzyme undergoes aging (see Section 16.4.1). The condition is described as OP-induced delayed neuropathy (OPIDN). [Pg.300]

Over 40 different types of polypeptide toxins have been found in marine animals (i). Many of these toxins are exquisitely selective in their actions, affecting a single process or receptor at minute concentrations. So far the sea anemone and gastropod Conus) toxins have attracted the most attention as molecular probes of ion channels. In this chapter, we discuss several approaches which are being used to investigate, at the molecular level, the interactions of the sea anemone neurotoxic polypeptides with sodium channels. [Pg.279]

The mechanisms of HIV-associated DSP are incompletely understood. Over the years, various hypotheses have been put forward, but recent data suggest that multiple mechanisms are likely to play a role in neuronal or axonal injury in DSP. These processes may be mediated by direct neurotoxicity of HIV or secreted viral proteins such as the envelope glycoprotein gpl20, or by indirect mechanisms... [Pg.64]

Chemokine Proteolytic Processing in HIV Infection Neurotoxic and Neuroimmune Consequences... [Pg.149]

In view of this neurotoxicity, we will review some data relevant to this process. First, we will review data showing that methamphetamine (METH), a prototypic psychomotor stimulant, which has been widely used for nonmedical purposes at doses often a good deal higher than therapeutie doses, is neurotoxic to dopamine (DA) and serotonin (5-hydroxytryptamine (5-HI)) systems. Second, we will examine the evidence that other substituted phenethylamines are also neurotoxic to certain transmitter systems. Last, we will examine the behavioral and pharmacological consequences of neurotoxicity that result from exposure to some of these amphetamine-related drugs. [Pg.146]

One of the main human health concerns about organophosphate esters is the potential for neurotoxicity reactions, in particular a condition known as organophosphate-induced delayed neurotoxicity (OPIDN). Tri-ort/20-cresyl phosphate (TOCP) has been identified as one of the more potent OPIDN neurotoxins in humans, and was formerly a constituent in some organophosphate ester hydraulic fluid products (Marino 1992 Marino and Placek 1994). Production processes now routinely remove virtually all the TOCP. For instance, tricresyl phosphate (TCP) products now typically are manufactured to contain over 98% meta and para isomers and virtually no TOCP (Marino and Placek 1994). Products containing these compounds associated with OPIDN have now entirely disappeared from commercial use, and the vast majority of the industrial organophosphate esters are based on triaryl phosphates with no halogenated components (Marino 1992). At waste disposal sites, however, site contaminants from older product formulations containing the ortho form may be encountered. [Pg.258]


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