RJ Ferrante scite author profile

An impairment of energy metabolism may underlie slow excitotoxic neuronal death in neurodegenerative diseases. We therefore examined the effects of intrastriatal, subacute systemic, or chronic systemic administration of the mitochondrial toxin 3-nitropropionic acid (3-NP) in rats. Following intrastriatal injection 3-NP produced dose-dependent striatal lesions. Neurochemical and histologic evaluation showed that markers of both spiny projection neurons (GABA, substance P, calbindin) and aspiny interneurons (somatostatin, neuropeptide Y, NADPH-diaphorase) were equally affected. Subacute systemic administration of 3-NP produced age-dependent bilateral striatal lesions with a similar neurochemical profile. However, in contrast to the intrastriatal injections, striatal dopaminergic afferent projections were spared. Both freeze-clamp measurements and chemical shift magnetic resonance spectroscopy showed that 3-NP impairs energy metabolism in the striatum in vivo. Microdialysis showed no increase in extracellular glutamate concentrations after systemic administration of 3-NP. The lesions produced by intrastriatal injection or systemic administration of 3-NP were blocked by prior decortication. However, the NMDA antagonist MK-801 did not block the effects of intrastriatal 3-NP, consistent with a non-NMDA excitotoxic mechanism. In contrast to subacute systemic administration of 3-NP, chronic (1 month) administration produced lesions confined to the striatum in which there was relative sparing of NADPH-diaphorase interneurons, consistent with an NMDA excitotoxic process. Chronic administration showed growth-related proliferative changes in dendrites of spiny neurons similar to changes in Huntington's disease (HD). These results are consistent with in vitro studies showing that mild metabolic compromise can selectively activate NMDA receptors while more severe compromise activates both NMDA and non-NMDA receptors. Chronic administration of 3-NP over 1 month produces selective striatal lesions that replicate many of the characteristic histologic and neurochemical features of HD.

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Selective Sparing of a Class of Striatal Neurons in Huntington's Disease

Ferrante

Kowall

Beal

et al. 1985

Science

710

251

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A distinct subpopulation of striatal aspiny neurons, containing the enzyme nicotinamide adenine dinucleotide phosphate diaphorase, is preserved in the caudate nucleus in Huntington's disease. Biochemical assays confirmed a significant increase in the activity of this enzyme in both the caudate nucleus and putamen in postmortem brain tissue from patients with this disease. The resistance of these neurons suggests that the gene defect in Huntington's disease may be modifiable by the local biochemical environment. This finding may provide insight into the nature of the genetically programmed cell death that is a characteristic of the disease.

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Chronic mitochondrial energy impairment produces selective striatal degeneration and abnormal choreiform movements in primates.

Brouillet

Hantraye

Ferrante

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

454

239

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Although the gene defect responsible for Huntington disease (HD) has recently been identified, the pathogenesis of the disease remains obscure. One potential mechanism is that the gene defect may lead to an impairment of energy metabolism followed by slow excitotoxic neuronal injury. In the present study we examined whether chronic administration of 3-nitropropionic acid (3-NP), an irreversible inhibitor of succinate dehydrogenase, can replicate the neuropathologic and clinical features of HD in nonhuman primates. After 3-6 weeks of 3-NP administration, apomorphine treatment induced a significant increase in motor activity as compared with saline-treated controls. Animals showed both choreiform movements, as well as foot and limb dystonia, which are characteristic of HD. More prolonged 3-NP treatment in two additional primates resulted in spontaneous dystonia and dyskinesia accompanied by lesions in the caudate and putamen seen by magnetic resonance imaging. Histologic evaluation showed that there was a depletion of calbindin neurons, astrogliosis, sparing of NADPH-diaphorase neurons, and growth-related proliferative changes in dendrites of spiny neurons similar to changes in HD. The striosomal organization of the striatum and the nucleus accumbens were spared. These findings show that chronic administration of3-NP to nonhuman primates can replicate many of the characteristic motor and histologic features of HD, further strengthening the possibility that a subtle impairment of energy metabolism may play a role in its pathogenesis.Huntington disease (HD) is an inherited neurodegenerative disease characterized by choreiform movements, cognitive impairment, and emotional disturbance. Although the gene defect in HD has recently been identified, the mechanism by which it leads to neuronal degeneration remains obscure (1). A leading hypothesis is that excitotoxicity may contribute to the pathogenesis of HD (2, 3). Studies in both rodents and primates show striking similarities between striatal lesions produced by N-methyl-D-aspartate (NMDA) agonists and the neurochemical and histologic features of HD (4-6). Further evidence in support of an NMDA excitotoxic mechanism is the finding of a preferential loss of striatal NMDA receptors, which may occur early in the disease process (7,8). One means by which slow excitotoxic neuronal death may occur is as a consequence of a defect in energy metabolism (2, 3). Disruption of ATP synthesis may lead to partial neuronal depolarization with activation of voltage-dependent NMDA receptors and secondary excitotoxic neuronal damage (9-12). UnderThe publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.these circumstances ambient levels of glutamate are sufficient to induce neuronal death. Several studies have reported decreased glucose metabolism and abnormalities in electron transport enzymes in HD (2). We recently obtained in ...

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RJ Ferrante

Regional and progressive thinning of the cortical ribbon in Huntington’s disease

Neurochemical and histologic characterization of striatal excitotoxic lesions produced by the mitochondrial toxin 3-nitropropionic acid

Selective Sparing of a Class of Striatal Neurons in Huntington's Disease

Chronic mitochondrial energy impairment produces selective striatal degeneration and abnormal choreiform movements in primates.

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