2011
DOI: 10.1172/jci45691
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Energy deficit in Huntington disease: why it matters

Abstract: Huntington disease (HD) is an autosomal dominant neurodegenerative disease with complete penetrance. Although the understanding of the cellular mechanisms that drive neurodegeneration in HD and account for the characteristic pattern of neuronal vulnerability is incomplete, defects in energy metabolism, particularly mitochondrial function, represent a common thread in studies of HD pathogenesis in humans and animal models. Here we review the clinical, biochemical, and molecular evidence of an energy deficit in … Show more

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Cited by 188 publications
(119 citation statements)
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References 126 publications
(123 reference statements)
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“…Moreover, reduced ATP production was observed in muscle of both presymptomatic and symptomatic HD patients (Lodi et al 2000). In fact, the onset of energyrelated manifestations at the presymptomatic stages of the disease, such as alterations in brain and muscle metabolism and weight loss, suggest that the energy deficit is likely to be an early phenomenon in the cascade of events leading to HD pathogenesis (Mochel and Haller 2011). Conversely, in HD N171-82Q mice model, increased glucose metabolism and ATP levels were found in brain tissue, suggesting that the neuronal damage in HD tissue may be associated with increased energy metabolism at the tissue level, leading to modified levels of various intermediary metabolites (Olah et al 2008).…”
Section: Changes In Energy Metabolismmentioning
confidence: 99%
“…Moreover, reduced ATP production was observed in muscle of both presymptomatic and symptomatic HD patients (Lodi et al 2000). In fact, the onset of energyrelated manifestations at the presymptomatic stages of the disease, such as alterations in brain and muscle metabolism and weight loss, suggest that the energy deficit is likely to be an early phenomenon in the cascade of events leading to HD pathogenesis (Mochel and Haller 2011). Conversely, in HD N171-82Q mice model, increased glucose metabolism and ATP levels were found in brain tissue, suggesting that the neuronal damage in HD tissue may be associated with increased energy metabolism at the tissue level, leading to modified levels of various intermediary metabolites (Olah et al 2008).…”
Section: Changes In Energy Metabolismmentioning
confidence: 99%
“…Reduced ATP synthesis was found in immortalized HD striatal neuronal cell lines. 1 According Mochel et al, various mechanisms that underlie the energy deficit in HD phenotype have been proposed, including impaired oxidative phosphorylation, oxidative stress, impaired mitochondrial calcium handling, abnormal mitochondria trafficking, and deregulation of key factors of mitochondrial biogenesis or decreased glycolysis.…”
mentioning
confidence: 99%
“…In fact, decreased ATP/ADP ratio was observed in HD patient-derived lymphoblastoid cell lines, which inversely correlated with the length of the mutant polyglutamine tract. 1 Mutant huntingtin was reported to affect the activity of mitochondrial complex I in the skeletal muscles of patients with HD. 3 Schapira mentioned that complex I deficiency had been found in HD platelets.…”
mentioning
confidence: 99%
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“…Вследствие возникновения этого тракта мутантный хантингтин перестает выполнять свою физиологическую функцию в клетках, а также нарушает работу и транспорт митохондрий (Orr et al, 2009;Mochel, Haller, 2011;Song et al, 2011), транскрипционный аппа-рат (Baydyuk, Xu, 2012;Seredenina, LuthiCarter, 2012) и другие клеточные процессы. В дальнейшем мутантный белок образует цитоплазматические агрегаты и ядерные включения в средних шипиковых нейронах стриатума, а на поздних стадиях заболевания -в клетках коры головного мозга (Labbadia, Morimoto, 2013).…”
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