The up‐regulation of BACE1 mediated by hypoxia and ischemic injury: role of oxidative stress and HIF1α

Guglielmotto, Michela; Aragno, Manuela; Autelli, Riccardo; Giliberto, Luca; Novo, Erica; Colombatto, Sebastiano; Danni, Oliviero; Parola, Maurizio; Smith, Mark A.; Perry, George; Tamagno, Elena; Tabaton, Massimo

doi:10.1111/j.1471-4159.2008.05858.x

Cited by 213 publications

(168 citation statements)

References 59 publications

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“…On one hand, oxidative stress leads to downstream increases in Aβ-producing enzyme activity, specifically through increased BACE1 activity and presenilin 1 levels [166,167]. On the other hand, the presence of Aβ leads to increased generation of ROS, therefore puzzling researchers with the question of which pathology arose first in cases of sporadic AD.…”

Section: Disease-modifying Anti-alzheimer's Drugs (Dmaad) and Mitochomentioning

confidence: 98%

“…First, increased BACE protein levels and activity in postmortem AD brain [54,162] are linked to increased γ-secretase cleavage of AβPP [163] and correlate with oxidative stress levels [164]. Endogenously and exogenously-induced ROS overproduction increases both BACE1 and PS1 expression and activity [165][166][167][168], which are mediated through the activation of the JNK pathway [169][170][171] and results in increased Aβ production [161,172]. In addition, Jo and colleagues report γ-secretase is responsible for ROS-induced increases in β-secretase activity, since pharmacological or genetic loss of γ-secretase function ameliorates an increase in β-secretase [173].…”

Section: Secretase Enzyme and Mitochondrial Dysfunctionmentioning

confidence: 99%

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The Mitochondrial Secret(ase) of Alzheimer's Disease

Young

Bennett

2010

JAD

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Abstract. Alzheimer's disease (AD) is a neurodegenerative disorder characterized clinically by progressive decline in memory and cognition and pathologically by extracellular amyloid-β (Aβ) deposits and intraneuronal aggregates of hyperphosphorylated tau. Since its proposal in 1992, the amyloid cascade hypothesis implicates Aβ overproduction as a causative event in disease pathogenesis, and this thinking has predominated the field's understanding of AD pathogenesis and the development of potential therapeutics (i.e., Aβ-reducing agents). Though Aβ has been shown to induce AD pathology, unanswered questions for sporadic AD development suggests this hypothesis is best applied to familial disease only. The more recent mitochondrial cascade hypothesis is supported by data showing that early impairments of mitochondrial dysfunction and oxidative stress may precede Aβ overproduction and deposition. However, the development of Aβ-reducing agents continues. Unfortunately, these agents have not been efficiently tested for their effect on one of the earliest AD pathologies, i.e., mitochondrial dysfunction. This paper will review supporting data for the amyloid and mitochondrial cascade hypotheses, reports of the effects of secretase inhibitors on AD-phenotypic cells and animals, and begin to look at a potential role for γ-secretase, which is localized to mitochondria, in AD-related mitochondrial dysfunction.

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Section: Disease-modifying Anti-alzheimer's Drugs (Dmaad) and Mitochomentioning

confidence: 98%

Section: Secretase Enzyme and Mitochondrial Dysfunctionmentioning

confidence: 99%

The Mitochondrial Secret(ase) of Alzheimer's Disease

Young

Bennett

2010

JAD

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“…Since the main culprit of Ab aggregation is the b-secretase (BACE1), the inhibition of this enzyme is believed to play an important role in the prevention of AD (Tresadern et al, 2011). Oxidative stress has been found to elevate BACE1 levels in cultured neurons and animal models (Guglielmotto et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Enhancement of β-secretase inhibition and antioxidant activities oftempeh, a fermented soybean cake through enrichment of bioactive aglycones

Ahmad

Ramasamy

Majeed

et al. 2015

Pharmaceutical Biology

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Mani (2015) Enhancement of β-secretase inhibition and antioxidant activities of tempeh, a fermented soybean cake through enrichment of bioactive aglycones, Pharmaceutical Biology, 53:5, 758-766, DOI: 10.3109/13880209.2014 Context: Soybean and its fermented products are the most common source of isoflavones in human food.Objective: The present study quantifies the major glycosides and aglycones in soybean and its fermented product tempeh isoflavone extracts. The comparision of antioxidant effects and BACE1 inhibitory activity between the isoflavones of soybean and tempeh were also established. Materials and methods:The major isoflavones such as daidzein and genistein (aglycones), and their sugar conjugates (glycosides) daidzin and genistin in soybean and tempeh isoflavones were quantified using HPLC analysis. Comparative studies on BACE 1 (b-site amyloid precursor protein cleaving enzyme 1 or b-secretase 1) inhibition and free-radical scavenging activities (diphenyl-1-picrylhydrazyl (DPPH) and ferrous ion chelating ability) were conducted.Results: The amount of actives (mg/100 g) in soybean isoflavone compared with tempeh isoflavone is as follows: daidzein 16.72 mg/100 g versus 38.91 mg/100 g, genistein 11.10 mg/ 100 g versus 24.03 mg/100 g, daidzin 6.16 mg/100 g versus 0.69 mg/100 g, and genistin 24.61 mg/100 g versus 6.57 mg/100 g. The IC 50 values of soybean and tempeh isoflavones against BACE1 were 10.87 and 5.47 mg/ml, respectively. The tempeh isoflavone had a more potent DPPH free-radical scavenging activity (IC 50 ¼ 2.67 mg/ml) than the soybean isoflavone (IC 50 ¼ 10 mg/ml). The ferrous ion chelating ability of the isoflavones was practically similar (IC 50 ¼ 10.40 mg/ml, soybean and 11.13 mg/ml, tempeh). Discussion and conclusion: The present study indicates that tempeh is a healthy supplement to alleviate oxidative stress through the enrichment of aglycones.

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“…Повторные гипоксии-ишемии приводят к концентрированию пуриновых производных (адено-зин и гипоксантин), которые усиливают повреждение нейронов при реоксигенации [64]. Активация оксидаз и синтазы оксида азота (Nitric oxide synthase, NOS), повы-шение регуляции индуцируемого гипоксией фактора HIF-1␣, а также снижение экспрессии антиоксидантных ферментов, таких как супероксиддисмутаза, каталаза и глутатионпероксидаза, генерируют взрыв реактивного кислорода (Reactive oxygen species, ROS) на реоксиге-нацию [65]. Дополнительно к этому NOS и оксид азота образуют сильный окислитель -пероксинитрит [66].…”

Section: обзор литературыunclassified

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

Каркашадзе¹,

Аникин²,

Зимина³

et al. 2016

Pediatr. farmakol.

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ВВЕДЕНИЕ Общемировой научно-технический прогресс в отно-шении исследовательских технологий за последние де-сятилетия привел к качественному и количественно-му скачку нейронаук. Наиболее активно наполняется новыми данными поле фундаментальных представлений о развитии головного мозга, что обусловливает интересы ученых к таким областям медицины, как перинатальная неврология и неврология раннего возраста. Несмотря на расширение представлений о вкладе генетической составляющей, по-прежнему большое внимание уделяет-ся изучению прямых патофизиологических механизмов гипоксически-ишемических поражений (ГИП) головного мозга у новорожденных. К настоящему моменту накоплен массив новых данных в этой области, что подталкивает медицину к внедрению передовых лечебных технологий.Цель работы -провести литературный обзор совре-менных научных данных о механизмах гипоксически-ише-мических повреждений мозга у новорожденных и разра-батываемых на их основании новых методов лечения. ПАТОФИЗИОЛОГИЧЕСКИЕ МЕХАНИЗМЫ ГИПОКСИЧЕСКИ-ИШЕМИЧЕСКИХ ПОРАЖЕНИЙТрадиционно основные лечебные тактики в острый период гипоксически-ишемических перинатальных поражений головного мозга (ГИППГМ) предусма-тривают медикаментозное поддержание сердечно-легочных функций и противосудорожную защиту [1]. Послед ние достижения в раскрытии патофизиологи-ческих механизмов непосредственно ГИП дают опору для поиска и внедрения новых лечебных технологий. У доношенных детей основным прямым механизмом ГИП является внутриутробная асфиксия, вызванная проблемами кровообращения, в том числе в области плацентарных артерий, отслойкой плаценты или вос-палительным процессом. За этим следуют снижение объема кислорода и углекислого газа в крови и тяже-лый лактат-ацидоз. Выраженное снижение сердечного выброса в условиях гипоксии, называемое гипоксией-ишемией, в течение 12-36 ч приводит к поражению головного мозга [2].

show abstract

The up‐regulation of BACE1 mediated by hypoxia and ischemic injury: role of oxidative stress and HIF1α

Cited by 213 publications

References 59 publications

The Mitochondrial Secret(ase) of Alzheimer's Disease

The Mitochondrial Secret(ase) of Alzheimer's Disease

Enhancement of β-secretase inhibition and antioxidant activities oftempeh, a fermented soybean cake through enrichment of bioactive aglycones

Recent Information on the Pathogenesis and Treatment of Hypoxic-Ischemic Brain Lesions in Newborns

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