Lack of Oxygen Deactivates Mitochondrial Complex I

Galkin, Alexander; Abramov, Andrey Y.; Frakich, Nanci; Duchen, Michael R.; Moncada, Salvador

doi:10.1074/jbc.m109.054346

Cited by 121 publications

(132 citation statements)

References 54 publications

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“…Recently, mitochondrial complex I blockade by rotenone has been considered a very reproducible in vitro model of hypoxia occurred in physiopatological events related to cerebral ischemia. 42 CGP37157 not only failed against the O/R exposure, but in fact augmented cell-damaging effects of O/R in chromaffin cells. 27 Herein, SH-SY5Y cells were incubated with CGP37157 or ITH12505 before the addition of O/R, and coincubated with compounds plus O/R for an additional 24 h period.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Benzothiazepine CGP37157 and Its Isosteric 2′-Methyl Analogue Provide Neuroprotection and Block Cell Calcium Entry

González‐Lafuente

Egea

León

et al. 2012

ACS Chem. Neurosci.

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Benzothiazepine CGP37157 is widely used as tool to explore the role of mitochondria in cell Ca 2+ handling, by its blocking effect of the mitochondria Na + /Ca 2+ exchanger. Recently, CGP37157 has shown to exhibit neuroprotective properties. In the trend to improve its neuroprotection profile, we have synthesized ITH12505, an isosteric analogue having a methyl instead of chlorine at C2′ of the phenyl ring. ITH12505 has exerted neuroprotective properties similar to CGP37157 in chromaffin cells and hippocampal slices stressed with veratridine. Also, both compounds afforded neuroprotection in hippocampal slices stressed with glutamate. However, while ITH12505 elicited protection in SH-SY5Y cells stressed with oligomycin A/rotenone, CGP37157 was ineffective. In hippocampal slices subjected to oxygen/glucose deprivation plus reoxygenation, ITH12505 offered protection at 3−30 μM, while CGP37157 only protected at 30 μM. Both compounds caused blockade of Ca 2+ channels in high K + -depolarized SH-SY5Y cells. An in vitro experiment for assaying central nervous system penetration (PAMPA-BBB; parallel artificial membrane permeability assay for blood-brain barrier) revealed that both compounds could cross the blood−brain barrier, thus reaching their biological targets in the central nervous system. In conclusion, by causing a mild isosteric replacement in the benzothiazepine CGP37157, we have obtained ITH12505, with improved neuroprotective properties. These findings may inspire the design and synthesis of new benzothiazepines targeting mitochondrial Na + /Ca 2+ exchanger and L-type voltage-dependent Ca 2+ channels, having antioxidant properties.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Benzothiazepine CGP37157 and Its Isosteric 2′-Methyl Analogue Provide Neuroprotection and Block Cell Calcium Entry

González‐Lafuente

Egea

León

et al. 2012

ACS Chem. Neurosci.

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“…Deactivation occurs when all reactive redox centers of CI are in the reduced state. During hypoxia, a deactivation of CI was observed in epithelial kidney cells (27). The authors proposed that the deactivation of CI could be a protective mechanism for a potential burst of free radicals during reoxygenation (27).…”

Section: Discussionmentioning

confidence: 99%

“…During hypoxia, a deactivation of CI was observed in epithelial kidney cells (27). The authors proposed that the deactivation of CI could be a protective mechanism for a potential burst of free radicals during reoxygenation (27). Unfortunately, they did not investigate the stability of the CI and supercomplexes during hypoxia.…”

Section: Discussionmentioning

confidence: 99%

Cells Lacking Rieske Iron-Sulfur Protein Have a Reactive Oxygen Species-Associated Decrease in Respiratory Complexes I and IV

Díaz

Enríquez

Moraes

2012

Molecular and Cellular Biology

115

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Mitochondrial respiratory complexes of the electron transport chain (CI, CIII, and CIV) can be assembled into larger structures forming supercomplexes. We analyzed the assembly/stability of respiratory complexes in mouse lung fibroblasts lacking the Rieske iron-sulfur protein (RISP knockout [KO]cells), one of the catalytic subunits of CIII. In the absence of RISP, most of the remaining CIII subunits were able to assemble into a large precomplex that lacked enzymatic activity. CI, CIV, and supercomplexes were decreased in the RISP-deficient cells. Reintroduction of RISP into KO cells restored CIII activity and increased the levels of active CI, CIV, and supercomplexes. We found that hypoxia (1% O 2 ) resulted in increased levels of CI, CIV, and supercomplex assembly in RISP KO cells. In addition, treatment of control cells with different oxidative phosphorylation (OXPHOS) inhibitors showed that compounds known to generate reactive oxygen species (ROS) (e.g., antimycin A and oligomycin) had a negative impact on CI and supercomplex levels. Accordingly, a superoxide dismutase (SOD) mimetic compound and SOD2 overexpression provided a partial increase in supercomplex levels in the RISP KO cells. Our data suggest that the stability of CI, CIV, and supercomplexes is regulated by ROS in the context of defective oxidative phosphorylation.

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“…As far as stroke, mitochondrial complex I blockade by rotenone has been considered a very reproducible in vitro model of hypoxia occurring in physiopathological events related to cerebral ischemia. 27 O/R block complexes I and V, respectively, of the mitochondrial electron transport chain, thereby causing free radical generation and blockade of ATP synthesis. 28 Thus, SH-SY5Y cells were incubated for 24 h with ITH12246 before the addition of O/R, and coincubated with compounds plus O/R for an additional 24 h period.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

PP2A Ligand ITH12246 Protects against Memory Impairment and Focal Cerebral Ischemia in Mice

Lorrio

Romero

González‐Lafuente

et al. 2013

ACS Chem. Neurosci.

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ITH12246 (ethyl 5-amino-2-methyl-6,7,8,9-tetrahydrobenzo[b] [1,8]naphthyridine-3-carboxylate) is a 1,8-naphthyridine described to feature an interesting neuroprotective profile in in vitro models of Alzheimer's disease. These effects were proposed to be due in part to a regulatory action on protein phosphatase 2A inhibition, as it prevented binding of its inhibitor okadaic acid. We decided to investigate the pharmacological properties of ITH12246, evaluating its ability to counteract the memory impairment evoked by scopolamine, a muscarinic antagonist described to promote memory loss, as well as to reduce the infarct volume in mice suffering phototrombosis. Prior to conducting these experiments, we confirmed its in vitro neuroprotective activity against both oxidative stress and Ca 2+ overload-derived excitotoxicity, using SH-SY5Y neuroblastoma cells and rat hippocampal slices. Using a predictive model of blood-brain barrier crossing, it seems that the passage of ITH12246 is not hindered. Its potential hepatotoxicity was observed only at very high concentrations, from 0.1 mM. ITH12246, at the concentration of 10 mg/kg i.p., was able to improve the memory index of mice treated with scopolamine, from 0.22 to 0.35, in a similar fashion to the well-known Alzheimer's disease drug galantamine 2.5 mg/kg. On the other hand, ITH12246, at the concentration of 2.5 mg/kg, reduced the phototrombosis-triggered infarct volume by 67%. In the same experimental conditions, 15 mg/kg melatonin, used as control standard, reduced the infarct volume by 30%. All of these findings allow us to consider ITH12246 as a new potential drug for the treatment of neurodegenerative diseases, which would act as a multifactorial neuroprotectant.

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Lack of Oxygen Deactivates Mitochondrial Complex I

Cited by 121 publications

References 54 publications

Benzothiazepine CGP37157 and Its Isosteric 2′-Methyl Analogue Provide Neuroprotection and Block Cell Calcium Entry

Benzothiazepine CGP37157 and Its Isosteric 2′-Methyl Analogue Provide Neuroprotection and Block Cell Calcium Entry

Cells Lacking Rieske Iron-Sulfur Protein Have a Reactive Oxygen Species-Associated Decrease in Respiratory Complexes I and IV

PP2A Ligand ITH12246 Protects against Memory Impairment and Focal Cerebral Ischemia in Mice

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