EC:1.6.5.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.3 (complex I)
8,901 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although a large number of mutations causing malfunction of complex I (NADH:ubiquinone oxidoreductase) of the OXPHOS system is now known, their cell biological consequences remain obscure. We previously showed that the bradykinin (Bk)-induced increase in mitochondrial [ATP] ([ATP](M)) is significantly reduced in primary skin fibroblasts from a patient with an isolated complex I deficiency. The present work addresses the mechanism(s) underlying this impaired response. Luminometry of fibroblasts from 6 healthy subjects and 14 genetically characterized patients expressing mitochondria targeted luciferase revealed that the Bk-induced increase in [ATP](M) was significantly, but to a variable degree, decreased in 10 patients. The same variation was observed for the increases in mitochondrial [Ca(2+)] ([Ca(2+)](M)), measured with mitochondria targeted aequorin, and cytosolic [Ca(2+)] ([Ca(2+)](C)), measured with fura-2, and for the Ca(2+) content of the endoplasmic reticulum (ER), calculated from the increase in [Ca(2+)](C) evoked by thapsigargin, an inhibitor of the ER Ca(2+) ATPase. Regression analysis revealed that the increase in [ATP](M) was directly proportional to the increases in [Ca(2+)](C) and [Ca(2+)](M) and to the ER Ca(2+) content. Our findings provide evidence that a pathological reduction in ER Ca(2+) content is the direct cause of the impaired Bk-induced increase in [ATP](M) in human complex I deficiency.
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PMID:Decreased agonist-stimulated mitochondrial ATP production caused by a pathological reduction in endoplasmic reticulum calcium content in human complex I deficiency. 1621 25

The Z variant of human alpha-1 proteinase inhibitor (A1PiZ) is a substrate for endoplasmic reticulum-associated protein degradation (ERAD). To identify genes required for the degradation of this protein, A1PiZ degradation-deficient (add) yeast mutants were isolated. The defect in one of these mutants, add3, was complemented by VPS30/ATG6, a gene that encodes a component of two phosphatidylinositol 3-kinase (PtdIns 3-kinase) complexes: complex I is required for autophagy, whereas complex II is required for the carboxypeptidase Y (CPY)-to-vacuole pathway. We found that upon overexpression of A1PiZ, both PtdIns 3-kinase complexes were required for delivery of the excess A1PiZ to the vacuole. When the CPY-to-vacuole pathway was compromised, A1PiZ was secreted; however, disruption of autophagy led to an increase in aggregated A1PiZ rather than secretion. These results suggest that excess soluble A1PiZ transits the secretion pathway to the trans-Golgi network and is selectively targeted to the vacuole via the CPY-to-vacuole sorting pathway, but excess A1PiZ that forms aggregates in the endoplasmic reticulum is targeted to the vacuole via autophagy. These findings illustrate the complex nature of protein quality control in the secretion pathway and reveal multiple sites that recognize and sort both soluble and aggregated forms of aberrant or misfolded proteins.
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PMID:Characterization of an ERAD gene as VPS30/ATG6 reveals two alternative and functionally distinct protein quality control pathways: one for soluble Z variant of human alpha-1 proteinase inhibitor (A1PiZ) and another for aggregates of A1PiZ. 1626 77

Extracellular and intraneuronal formation of amyloid-beta (Abeta) deposits have been demonstrated to be involved in the pathogenesis of Alzheimer's disease (AD). However, the precise mechanism of Abeta neurotoxicity is not completely understood. Previous studies suggest that binding of Abeta with a number of targets have deleterious effects on cellular functions. It has been shown that Abeta directly interacted with intracellular protein ERAB (endoplasmic reticulum amyloid beta-peptide-binding protein) also known as ABAD (Abeta-binding alcohol dehydrogenase) resulting in mitochondrial dysfunction and cell death. In the present study we have identified another mitochondrial enzyme, ND3 of the human complex I, that binds to Abeta1-42 by the screening of a human brain cDNA library expressed on M13 phage. Our results indicated a strong interaction between Abeta and a phage-displayed 25 amino acid long peptide TTNLPLMVMSSLLLIIILALSLAYE corresponding to C-terminal peptide domain of NADH dehydrogenase, subunit 3 (MTND3) encoded by mitochondrial DNA (mtDNA). This interaction may explain, in part, the inhibition of complex I activity in astrocytes and neurons in the presence of Abeta, described recently. To our knowledge, the present study is the first demonstration of interaction between Abeta and one of the subunits of the human complex I.
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PMID:Identification of amyloid-beta 1-42 binding protein fragments by screening of a human brain cDNA library. 1638 38

The data on the effect of He-Ne laser light (lambda = 632.8 nm) on mitochondria of yeasts in late log phase were reviewed. The qualitative analysis of the ultrathin sections of cells demonstrated a nonuniform thickness of the giant branched mitochondria typical for budding yeasts. Exposure to a dose of 460 J/m@2 accelerated cell proliferation, activated respiratory chain enzymes (cytochrome c oxidase and NADH dehydrogenase), and also changed the microstructure of the giant mitochondria--much of the narrow regions of the mitochondrial tube with sections < or = 0.06 microm2 were dilated (while no signs of organelle damage were observed). Relative surface area of the cristae increased in such mitochondria, which can be due to the activation of their respiration and ATP synthesis. The number of associations between mitochondria and endoplasmic reticulum increased in cells in early log phase, which reflects high capacity of mitochondria to absorb Ca2+. Altered giant mitochondria configuration can increase the efficiency of both energy transfer and Ca2+ distribution in the cytoplasm.
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PMID:[Structure of mitochondria and activity of their respiratory chain in subsequent generations of yeast cells exposed to He-Ne laser light]. 1653 77

Assembly and trafficking of neurotransmitter receptors are processes contingent upon interactions between intracellular chaperone systems and discrete determinants in the receptor proteins. Kainate receptor subunits, which form ionotropic glutamate receptors with diverse roles in the central nervous system, contain a variety of trafficking determinants that promote either membrane expression or intracellular sequestration. In this report, we identify the coatomer protein complex I (COPI) vesicle coat as a critical mechanism for retention of the kainate receptor subunit KA2 in the endoplasmic reticulum. COPI subunits immunoprecipitated with KA2 subunits from both cerebellum and COS-7 cells, and beta-COP protein interacted directly with immobilized KA2 peptides containing the arginine-rich retention/retrieval determinant. Association between COPI proteins and KA2 subunits was significantly reduced upon alanine substitution of this signal in the cytoplasmic tail of KA2. Temperature-sensitive degradation of COPI complex proteins was correlated with an increase in plasma membrane localization of the homologous KA2 receptor. Assembly of heteromeric GluR6a/KA2 receptors markedly reduced association of KA2 and COPI. Finally, the reduction in COPI binding was correlated with an increased association with 14-3-3 proteins, which mediate forward trafficking of other integral signaling proteins. These interactions therefore represent a critical early checkpoint for biosynthesis of functional KARs.
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PMID:Intracellular trafficking of KA2 kainate receptors mediated by interactions with coatomer protein complex I (COPI) and 14-3-3 chaperone systems. 1659 84

The various components obtained from etiolated corn (Zea mays L.) coleoptiles were fractionated by differential or sucrose gradient centrifugation. The endoplasmic reticulum, proplastids, Golgi, and mitochondria were localized by enzymic or other markers in the various fractions. A fifth fraction was also characterized. It contains glucan synthetase II activity, binding sites for N-naphthylphthalamic acid, NADH dehydrogenase activity which is both antimycin A- and cyanide-insensitive, and a b-type cytochrome. It is possible that this fraction is plasma membrane and that it may contain the blue-ultraviolet photoreceptor for phototropism in corn.
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PMID:Characterization of a Membrane Fraction Containing a b-type Cytochrome. 1665 73

Tapasin (tpn), an essential component of the MHC class I (MHC I) loading complex, has a canonical double lysine motif acting as a retrieval signal, which mediates retrograde transport of escaped endoplasmic reticulum (ER) proteins from the Golgi back to the ER. In this study, we mutated tpn with a substitution of the double lysine motif to double alanine (GFP-tpn-aa). This mutation abolished interaction with the coatomer protein complex I coatomer and resulted in accumulation of GFP-tpn-aa in the Golgi compartment, suggesting that the double lysine is important for the retrograde transport of tpn from late secretory compartments to the ER. In association with the increased Golgi distribution, the amount of MHC I exported from the ER to the surface was increased in 721.220 cells transfected with GFP-tpn-aa. However, the expressed MHC I were less stable and had increased turnover rate. Our results suggest that tpn with intact double lysine retrieval signal regulates retrograde transport of unstable MHC I molecules from the Golgi back to the ER to control the quality of MHC I Ag presentation.
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PMID:The double lysine motif of tapasin is a retrieval signal for retention of unstable MHC class I molecules in the endoplasmic reticulum. 1675 94

The mechanisms of liver injury in chronic hepatitis C virus (HCV) infection are poorly understood though HCV induces a state of hepatic oxidative stress that is more pronounced than that present in many other inflammatory diseases. This mini-review will focus on recent findings revealing an unexpected role of mitochondria in providing a central role in the innate immunity and in addition will illustrate the application of stably transfected human-derived cell lines, inducibly expressing the entire HCV open reading frame for in vitro studies on mitochondria. Results obtained by a comparative analysis of the respiratory chain complexes activities along with mitochondrial morpho-functional confocal microscopy imaging show a detrimental effect of HCV proteins on the cell oxidative metabolism with specific inhibition of complex I activity, decrease of mtDeltaPsi, increased production of reactive oxygen species. A possible de-regulation of calcium recycling between the endoplasmic reticulum and the mitochondrial network is discussed to provide new insights in the pathogenesis of hepatitis C.
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PMID:Mitochondrial dysfunction in hepatitis C virus infection. 1681 46

Hepatitis C virus has developed mechanisms to alter the redox state of hepatocytes and this is associated with changes in mitochondrial structure and function. Chronic hepatitis C patients manifest hepatic oxidative stress and this is exacerbated by alcohol consumption and associated with fibrosis progression. Several viral proteins, including core and NS5a appear to contribute to reactive oxygen species (ROS) generation by mechanisms that involve both mitochondria and endoplasmic reticulum (ER). Hepatitis C virus (HCV) core protein localizes to both ER and mitochondria and has effects at both sites. At the mitochondria a chain of events is initiated by core binding, which consists of increased Ca(2+) uptake, increased mitochondrial superoxide production, oxidation of the mitochondrial glutathione pool, inhibition of electron transport complex I activity, and sensitization of mitochondria to Ca(2+)- and ROS-induced membrane permeability transition. These effects have been observed in isolated mitochondria, cells bearing full-length HCV replicons, and liver mitochondria derived from HCV transgenic mice. In addition to these direct effects on mitochondria, core protein has been shown to causes a state of ER stress and an increase in the efficiency of ER to mitochondria Ca(2+) transfer. The resulting oxidized redox state has a number of potential consequences for liver function. It interferes with the antiviral innate immune responses and potentiates fibrosis and carcinogenesis. Alcohol exacerbates these effects by increasing core-induced ROS production, further oxidizing the mitochondrial glutathione pool. The resulting mitochondrial effects may contribute to liver injury and oxidative stress seen in chronic hepatitis C.
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PMID:Causes and consequences of mitochondrial reactive oxygen species generation in hepatitis C. 1695 69

14-3-3 proteins affect the cell surface expression of several unrelated cargo membrane proteins, e.g., MHC II invariant chain, the two-pore potassium channels KCNK3 and KCNK9, and a number of different reporter proteins exposing Arg-based endoplasmic reticulum localization signals in mammalian and yeast cells. These multimeric membrane proteins have a common feature in that they all expose coatomer protein complex I (COPI)- and 14-3-3-binding motifs. 14-3-3 binding depends on phosphorylation of the membrane protein in some and on multimerization of the membrane protein in other cases. Evidence from mutant proteins that are unable to interact with either COPI or 14-3-3 and from yeast cells with an altered 14-3-3 content suggests that 14-3-3 proteins affect forward transport in the secretory pathway. Mechanistically, this could be explained by clamping, masking, or scaffolding. In the clamping mechanism, 14-3-3 binding alters the conformation of the signal-exposing tail of the membrane protein, whereas masking or scaffolding would abolish or allow the interaction of the membrane protein with other proteins or complexes. Interaction partners identified as putative 14-3-3 binding partners in affinity purification approaches constitute a pool of candidate proteins for downstream effectors, such as coat components, coat recruitment GTPases, Rab GTPases, GTPase-activating proteins (GAPs), guanine-nucleotide exchange factors (GEFs) and motor proteins.
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PMID:14-3-3 proteins in membrane protein transport. 1697 91

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