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Hoffman Dc

Bio: Hoffman Dc is an academic researcher. The author has contributed to research in topics: Dopamine receptor & Sniffing. The author has an hindex of 1, co-authored 1 publications receiving 120 citations.

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TL;DR: The data suggest that the behavioral activation associated with MK-801 may represent a valid model for detecting potential therapeutic agents in the treatment of schizophrenia and should be viewed as preliminary, however, until neuroleptics are characterized in other glutamate-based models that minimize the possible influence of nonspecific motor effects.
Abstract: The effects of typical and atypical neuroleptics on MK-801-induced locomotor activity and stereotyped sniffing were tested. Pretreatment with the typical neuroleptic haloperidol (0.01,0.05, 0.1,0.5 mg/kg SC) and the dopamine D 2 receptor selective antagonist eticlopride (0.005, 0.01, 0.05 mg/kg SC) each resulted in significant and dose-dependent reductions of locomotor activity and sniffing. The atypical neuroleptic clozapine (1.0, 5.0, 10.0 mg/kg SC) was some-what unique in that all doses reduced locomotor activity, but only the highest dose (10.0 mg/kg) significantly reduced sniffing. The data support a functional interaction between glutamate and dopamine systems, and suggest that the behavioral activation associated with MK-801 may represent a valid model for detecting potential therapeutic agents in the treatment of schizophrenia. The data should be viewed as preliminary, however, until neuroleptics are characterized in other glutamate-based models that minimize or exclude the possible influence of nonspecific motor effects.

121 citations


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TL;DR: Selegiline may act through a mechanism unrelated to MAO-B to increase neurotrophic factor activity and upregulate molecules such as glutathione, SOD, catalase, and BCL-2 protein, which protect against oxidant stress and apoptosis.
Abstract: Current concepts of the pathogenesis of Parkinson's disease (PD) center on the formation of reactive oxygen species and the onset of oxidative stress leading to oxidative damage to substantia nigra pars compacta. Extensive postmortem studies have provided evidence to support the involvement of oxidative stress in the pathogenesis of PD; in particular, these include alterations in brain iron content, impaired mitochondrial function, alterations in the antioxidant protective systems (most notably superoxide dismutase [SOD] and reduced glutathione [GSH]), and evidence of oxidative damage to lipids, proteins, and DNA. Iron can induce oxidative stress, and intranigral injections have been shown to induce a model of progressive parkinsonism. A loss of GSH is associated with incidental Lewy body disease and may represent the earliest biochemical marker of nigral cell loss. GSH depletion alone may not result in damage to nigral neurons but may increase susceptibility to subsequent toxic or free radical exposure. The nature of the free radical species responsible for cell death in PD remains unknown, but there is evidence of involvement of hydroxyl radical (OH.), peroxynitrite, and nitric oxide. Indeed, OH. and peroxynitrite formation may be critically dependent on nitric oxide formation. Central to many of the processes involved in oxidative stress and oxidative damage in PD are the actions of monoamine oxidase-B (MAO-B). MAO-B is essential for the activation of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine to 1-methyl-4-phenylpyridinium ion, for a component of the enzymatic conversion of dopamine to hydrogen peroxide (H2O2), and for the activation of other potential toxins such as isoquinolines and beta-carbolines. Thus, the inhibition of MAO-B by drugs such as selegiline may protect against activation of some toxins and free radicals formed from the MAO-B oxidation of dopamine. In addition, selegiline may act through a mechanism unrelated to MAO-B to increase neurotrophic factor activity and upregulate molecules such as glutathione, SOD, catalase, and BCL-2 protein, which protect against oxidant stress and apoptosis. Consequently, selegiline may be advantageous in the long-term treatment of PD.

975 citations

Journal Article
TL;DR: It is shown that glycine enhances electrophysiological responses mediated by N-methyl-d-aspartate (NMDA)b-sensitive glutamatergic receptors through its role as a “spatially aggregating substance” to NMDA receptors.
Abstract: Since the finding by [Johnson and Ascher (1987)][1] demonstrating that glycine enhances electrophysiological responses mediated by N-methyl-d-aspartate (NMDA)b-sensitive glutamatergic receptors, considerable interest has been devoted to this topic (for reviews, see [Dingledine et al. , 1990][2]; [

646 citations

Journal ArticleDOI
TL;DR: This review discusses salient distinctions predominantly between prototypic atypical and typical antipsychotic drugs such as clozapine and haloperidol, respectively.
Abstract: Various criteria used to define atypical antipsychotic drugs include: 1) decrease, or absence, of the capacity to cause acute extrapyramidal motor side effects (acute EPSE) and tardive dyskinesia (TD); 2) increased therapeutic efficacy reflected by improvement in positive, negative, or cognitive symptoms; 3) and a decrease, or absence, of the capacity to increase prolactin levels. The pharmacologic basis of atypical antipsychotic drug activity has been the target of intensive study since the significance of clozapine was first appreciated. Three notions have been utilized conceptually to explain the distinction between atypical versus typical antipsychotic drugs: 1) dose-response separation between particular pharmacologic functions; 2) anatomic specificity of particular pharmacologic activities; 3) neurotransmitter receptor interactions and pharmacodynamics. These conceptual bases are not mutually exclusive, and the demonstration of limbic versus extrapyramidal motor functional selectivity is apparent within each arbitrary theoretical base. This review discusses salient distinctions predominantly between prototypic atypical and typical antipsychotic drugs such as clozapine and haloperidol, respectively. In addition, areas of common function between atypical and typical antipsychotic drug action may also be crucial to our identification of pathophysiological foci of the different dimensions of schizophrenia, including positive symptoms, negative symptoms, and neurocognitive deficits.

309 citations

Journal Article
TL;DR: MK-801-induced behavior represents a rat excitatory amino acid hypofunction model of psychosis that appears to be of clinical relevance and may be of value in the search for new antipsychotic agents.
Abstract: The objective of this study was to characterize the behavior induced by the N-methyl-D-aspartate receptor antagonist MK-801 (dizocilpine maleate) in rats as a model of psychosis. The temporal profile, dose dependence, age, and sex differences of the behavior are described. A gas chromatographic method for the analysis of MK-801 in plasma and brain was developed. Female rats showed 4 to 10 times more MK-801-induced behavior and displayed around 25 times higher serum and brain concentrations of MK-801 than male rats. Twenty-one neuroactive compounds, including a number of excitatory amino acid-active substances, were tested for the effect on MK-801-induced behavior. Neuroleptics blocked MK-801-induced behavior in a dose-dependent manner that correlated to their antipsychotic potency in humans. Adenosine receptor agonists and an N-methyl-D-aspartate receptor-associated glycine site antagonist showed putative antipsychotic effects. In conclusion, MK-801-induced behavior represents a rat excitatory amino acid hypofunction model of psychosis that appears to be of clinical relevance and may be of value in the search for new antipsychotic agents.

232 citations

Journal ArticleDOI
TL;DR: It is suggested that ketamine may provide an appropriate model to investigate the formative stages of symptom evolution in schizophrenia, and thereby provide a window into the earliest and otherwise inaccessible aspects of the disease process.
Abstract: Recent cognitive neuropsychiatric models of psychosis emphasize the role of attentional disturbances and inappropriate incentive learning in the development of delusions. These models highlight a pre-psychotic period in which the patient experiences perceptual and attentional disruptions. Irrelevant details and numerous associations between stimuli, thoughts and percepts are imbued with inappropriate significance and the attempt to rationalize and account for these bizarre experiences results in the formation of delusions. The present paper discusses delusion formation in terms of basic associative learning processes. Such processes are driven by prediction error signals. Prediction error refers to mismatches between an organism's expectation in a given environment and what actually happens and it is signalled by both dopaminergic and glutamatergic mechanisms. Disruption of these neurobiological systems may underlie delusion formation. We review similarities between acute psychosis and the psychotic state induced by the NMDA receptor antagonist drug ketamine, which impacts upon both dopaminergic and glutamatergic function. We conclude by suggesting that ketamine may provide an appropriate model to investigate the formative stages of symptom evolution in schizophrenia, and thereby provide a window into the earliest and otherwise inaccessible aspects of the disease process.

214 citations