Search by property

This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

• Haendeler 2009 Arterioscler Thromb Vasc Biol  + ('''Objective'''—The enzyme telomerase and … '''Objective'''—The enzyme telomerase and its catalytic subunit the telomerase reverse transcriptase (TERT) are important for maintenance of telomere length in the nucleus. Recent studies provided evidence for a mitochondrial localization of TERT. Therefore, we investigated the exact localization of TERT within the mitochondria and its function.</br></br>'''Methods and Results'''—Here, we demonstrate that TERT is localized in the matrix of the mitochondria. TERT binds to mitochondrial DNA at the coding regions for ND1 and ND2. Binding of TERT to mitochondrial DNA protects against ethidium bromide–induced damage. TERT increases overall respiratory chain activity, which is most pronounced at Complex I and dependent on the reverse transcriptase activity of the enzyme. Moreover, mitochondrial reactive oxygen species are increased after genetic ablation of TERT by shRNA. Mitochondrially targeted TERT and not wild-type TERT revealed the most prominent protective effect on H₂O₂-induced apoptosis. Lung fibroblasts from 6-month-old TERT^-/- mice (F2 generation) showed increased sensitivity toward UVB radiation and heart mitochondria exhibited significantly reduced respiratory chain activity already under basal conditions, demonstrating the protective function of TERT ''in vivo''.</br></br>'''Conclusion'''—Mitochondrial TERT exerts a novel protective function by binding to mitochondrial DNA, increasing respiratory chain activity and protecting against oxidative stress–induced damage.iratory chain activity and protecting against oxidative stress–induced damage.)
• Virtual OroDM02  + ('''Oroboros Distributor Meeting'''. Virtual.)
• MiPNet26.07 Installation and startup support session  + ('''Oroboros Installation and startup support session'''.)
• MiPNet15.07 IOC59  + ('''Oroboros O2k-Workshop on High-Resolution Respirometry. Obergurgl, Tyrol, Austria; 2010 October 01 to 06. Satellite to [[MiP2010]].''' :>> Product: [[Oroboros O2k]], [[Oroboros O2k-Catalogue | O2k-Catalogue]])
• MiPNet28.11 IOC163 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria (2024 June 17-22).<br>)
• MiPNet28.12 IOC167 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria (2024 Sep 30 - Oct 05).<br>)
• MiPNet24.02 IOC141 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria; 2019 September.)
• MiPNet28.02 IOC162 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria (2023 October 02-07).<br>)
• MiPNet24.01 IOC139 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria; 2019.)
• MiPNet28.01 IOC160 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria (2023 June 19-24).<br>)
• MiPNet27.04 IOC155 Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolutio … '''Oroboros O2k-Workshop on high-resolution respirometry'''. Schroecken, Austria (2022 October 03-08).<br></br>Following the [[MiPNet27.05_Schroecken_BEC_tutorial-Living_Communications_pmP|BEC tutorial on mitochondrial membrane potential and protonmotive pressure]] (2022 Sep 30 - Oct 03).[[MiPNet27.05_Schroecken_BEC_tutorial-Living_Communications_pmP|BEC tutorial on mitochondrial membrane potential and protonmotive pressure]] (2022 Sep 30 - Oct 03).)
• MiPNet25.02 IOC Schroecken AT  + ('''Oroboros O2k-Workshop on high-resolution respirometry'''.)
• MiPNet25.17 Virtual O2k-Workshop PhotoBiology  + ('''Oroboros Virtual O2k-Workshop on high-resolution respirometry and PhotoBiology'''.)
• MiPNet26.02 Virtual O2k-Workshop:Q-Module  + ('''Oroboros Virtual O2k-Workshop on high-resolution respirometry and and measurement of the redox state of the Q-pool'''.)
• MiPNet25.16 Virtual O2k-Workshop HRR  + ('''Oroboros Virtual O2k-Workshops on high-resolution respirometry''' were offered during the COVID-19 lockdown and are discontinued.)
• MiPNet14.14 PermeabilizedFiberPreparation  + ('''Pesta D, Gnaiger E (2015) Preparation o … '''Pesta D, Gnaiger E (2015) Preparation of permeabilized muscle fibers for diagnosis of mitochondrial respiratory function. Mitochondr Physiol Network 14.14(02):1-5.''' </br></br>Application of [[permeabilized muscle fibers]] and [[high-resolution respirometry]] offer a sensitive diagnostic test of mitochondrial dysfunction in small [[biopsy]] specimens of human muscle. By using these techniques in conjunction with multiple [[substrate-uncoupler-inhibitor titration]] (SUIT) protocols, respirometric studies of human and animal tissue biopsies improve our fundamental understanding of mitochondrial respiratory control and the pathophysiology of mitochondrial myopathies.</br></br>[[Image:MiPNet14.14.jpg|right|200px|thumb]]</br>:>> Product: [[O2k-Catalogue: O2k-MultiSensor]], [[O2k-Core]], [[Oroboros O2k-Catalogue]][[Oroboros O2k-Catalogue]])
• Pasdois 2015 Fatty Acid Oxidation O2k-Network Discussion Forum  + ('''Protocol''': Couple palmitoylcarnitine (10µM) + malate (1mM) on isolated mitochondria and permeabilized fibers. In such case the buffer is always supplemented with 2mg/ml of BSA.)
• Ciapaite 2015 Fatty Acid Oxidation O2k-Network Discussion Forum  + ('''Protocol''': I use either palmitoyl-L-carnitine plus malate (25 µM + 2.5 mM) or palmitoyl-CoA + L-carnitine + malate (25 µM + 2 mM + 2.5 mM) as substrates. Respiratory control index is usually around 5-6 for healthy controls.)
• Robidoux 2015 Fatty Acid Oxidation O2k-Network Discussion Forum  + ('''Protocol''': Palmitate, Stearate, Oleate and Linoleate in intact cells. We use various BSA-fatty acid combinations that result in free fatty acid levels that are in the 2 to 12 nM range.)
• Chou 2015 Fatty Acid Oxidation O2k-Network Discussion Forum  + ('''Protocol''': final concentration of dig … '''Protocol''': final concentration of digitonin in chamber is 10μg/ml</br>cell number in chamber is 2 millions cell/ml, cell type PBMC, Malate (2mM), Palmitoyl-DLcarnitine-HCl (20μM), ADP (2.5mM), pyruvate (5mM), glutamate (10mM), succinate (10mM), rotenone (0.1μM), malonic acid(5mM), myxothiazol (0.5μM), antimycin A (2.5μM), TMPD (0.5mM), azide (100mM)cin A (2.5μM), TMPD (0.5mM), azide (100mM))
• Lanza 2010 Curr Opin Clin Nutr Metab Care  + ('''Purpose of review''': Mitochondrial con … '''Purpose of review''': Mitochondrial content and function vary across species, tissue types, and lifespan. Alterations in skeletal muscle mitochondrial function have been reported to occur in in aging and in many other pathological conditions. This review focuses on the state of the art ''in vivo'' and ''in vitro'' methodologies for assessment of muscle mitochondrial function.</br></br>'''Recent findings''': Classic studies of isolated mitochondria have measured function from maximal respiratory capacity. These fundamental methods have recently been substantially improved and novel approaches to asses mitochondrial functions ''in vitro'' have been emerged. Noninvasive</br>methods based on magnetic resonance spectroscopy (MRS) and near-infrared</br>spectroscopy (NIRS) permit ''in vivo'' assessment of mitochondrial function and are rapidly becoming more accessible to many investigators. Moreover, it is now possible to gather information on regulation of mitochondrial content by measuring the ''in vivo'' synthesis rate of individual mitochondrial proteins.</br></br>'''Summary: High-resolution respirometry has emerged as a powerful tool for ''in vitro'' measurements of mitochondrial function in isolated mitochondria and permeabilized fibers.''' Direct measurements of ATP production are possible by bioluminescence. Mechanistic data provided by these methods is further complimented by ''in vivo'' assessment using MRS and NIRS and the translational rate of gene transcripts.he translational rate of gene transcripts.)
• Votion 2010 Equine Vet J  + ('''REASONS FOR PERFORMING STUDY:''' Limite … '''REASONS FOR PERFORMING STUDY:''' Limited information exists about the muscle mitochondrial respiratory function changes that occur in horses during an endurance season.</br></br>'''OBJECTIVES:''' To determine effects of training and racing on muscle oxidative phosphorylation (OXPHOS) and electron transport system (ET-pathway) capacities in horses with high resolution respirometry (HRR).</br></br>'''METHODS:''' Mitochondrial respiration was measured in microbiopsies taken from the triceps brachii (tb) and gluteus medius (gm) muscles in 8 endurance horses (7 purebred Arabians and 1 crossbred Arabian) before training (T0), after two 10 week training periods (T1, T2) and after 2 CEI** endurance races (R1, R2). Muscle OXPHOS capacity was determined using 2 titration protocols without (SUIT 1) or with pyruvate (SUIT 2) as substrate. Electrons enter at the level of Complex I, Complex II or both complexes simultaneously (Complexes I+II). Muscle ET capacity was obtained by uncoupling Complexes I+II sustained respiration.</br></br>'''RESULTS:''' T1 improved OXPHOS and ET capacities in the tb as demonstrated by the significant increase of oxygen fluxes vs. T0 (Complex I: +67%; ET-pathway: +37%). Training improved only OXPHOS in the gm (Complex I: +34%). Among horses that completed the race, a significant decrease in OXPHOS (Complex I: ∼ -35%) and ET-pathway (-22%) capacities was found in the tb with SUIT 2 indicating a reduced aerobic glycolysis. Significant correlations between CK activities and changes in OXPHOS were found suggesting a relationship between exercise-induced muscle damage and depression of mitochondrial respiration.</br></br>'''CONCLUSIONS:''' For the first time, OXPHOS and ET capacities in equine muscle at different steps of an endurance season have been determined by HRR. Significant alterations in mitochondrial respiratory function in response to endurance training and endurance racing have been observed although these changes appeared to be muscle group specific.nges appeared to be muscle group specific.)
• MiPNet02.04 DatLab2 TimeConstant  + ('''Reck M, Wyss M, Lassnig B, Gnaiger E (1 … '''Reck M, Wyss M, Lassnig B, Gnaiger E (1997) DatLab 2. High time resolution. Mitochondr Physiol Network 02.04:1-11.''' »[http://www.bioblast.at/index.php/File:MiPNet02.04_DatLab2_TimeConstant.pdf Versions]</br></br>:>> Product: [[Oroboros O2k]], [[Oroboros O2k-Catalogue ]][Oroboros O2k-Catalogue ]])
• Research to Practice 2016 Melbourne AU  + ('''Research to Practice 2016, Melbourne, Victoria, AU; [http://researchtopractice2016.com.au Research to Practice 2016].''')
• New Frontiers in Cardiovascular Research 2016 Singapore SG  + ('''Research to Practice 2016, Singapore, SG''')

• SFRR Australasia 2016 Gold Coast AU  + ('''SFRR Australasia 2016, Gold Coast, AU; [http://www.sfrra2016.org/overview.php SFRR Australasia 2016].''')
• SFRR-E 2016 Budapest HU  + ('''SFRR-E 2016, Budapest, HU; [http://sfrr-e-2016.hu/ SFRR-E 2016].''')
• IOC166 Ljubljana SI  + ('''Satellite symposium and workshop "Skeletal Muscle Research – from Cell to Human"'''. Ljubljana, Slovenia (2024 Sep 26).<br>)
• MiPNet06.01 O2k-Overview  + ('''Summary:''' The Oroboros O2k provides t … '''Summary:''' The Oroboros O2k provides the instrumental basis for high-resolution respirometry. Compared to any of its competitors, the Oroboros O2k is a high-performance instrument, and high-resolution is distinguished from conventional approaches by a combination of unique features and specifications. These set a new standard in bioenergetics, mitochondrial physiology, clinical research and diagnosis of mitochondrial pathologies.nd diagnosis of mitochondrial pathologies.)
• MiPNet10.09 MiP2005  + ('''Summary:''' Whereas isolated mitochondr … '''Summary:''' Whereas isolated mitochondria remain one of the gold-standards in studies of bioenergetics and mitochondrial physiology, permeabilized tissues and cells have become an alternative with several advantages. But some disadvantages have to be considered, too, for optimum experimental design and critical evaluation of results.design and critical evaluation of results.)
• CSH Asia 2017 Suzhou CN  + ('''The Cold Spring Harbor Asia conference on Mitochondria'''. Suzhou, China; 2017 October.)
• MiPNet07.01 Advances  + ('''The [[Oroboros O2k]] … '''The [[Oroboros O2k]] with [[DatLab]] software is the sole-source instrument for [[high-resolution respirometry]] (HRR), with the option of modular [[O2k-MultiSensor]] extension and electronically controlled [[Titration-Injection microPump]] (TIP2k), and accessories including the [[ISS-Integrated Suction System\230 V\EU]] (ISS) and titration syringes.'''[[ISS-Integrated Suction System\230 V\EU]] (ISS) and titration syringes.''')
• Mickevicius 2016 Thesis  + ('''The aim of this research:''' To investi … '''The aim of this research:''' To investigate an effect of short time ischemia/reperfusion ''in vivo'' on rat kidney mitochondria oxidative phosphorylation.</br></br>'''Objectives:''' To evaluate the effect of 20 min ischemia and 30 min reperfusion on mitochondria oxidative phosforilation system and investigate rat mitochondrial respiration chain complex I, II and II + III activity.</br></br>'''Object of this research:''' Wistar breed rats males were used to perform this research.</br></br>'''Methods:''' Warm ischemia (37 ° C) to rat kidneys was induced by clamping renal arteries using vascular clamps. Ischemia was induced for 20 min and after that reperfusion lasted for 30 min. Kidneys were removed and mitochondria were isolated by using differential centrifugation method. The amount of proteins was measured via Buret method. Mitochondrial respiration rates were measured by Oxygraph-2k system and using glutamate/malate and succinate as substrates. Mitochondrial respiration chain complexes activity was measured spectrophotometrically.</br></br>'''Results:''' This research results show that short time (20 min) ischemia and reperfusion (30 min) does not affect the respiration rates when mitochondrial respiration chain complex I substrate glutamate/malate is being oxidized. This research shows that oxidizing mitochondrial respiration chain complex II substrate succinate evaluates respiration rate in state two after short-time ischemia 1.47 times but didn’t affect state three. Oxidizing succinate respiration control index decreases by 22 % which show that even after short-time ischemia mitochondrial membrane is getting damaged. Complex I activity decreased by 67% after 20 min ischemia and 30 min reperfusion.</br></br>'''Conclusions:''' Research showed that even short time of ischemia damages mitochondrial oxidative phosphorylation system. Short-time ischemia decreases mitochondrial respiration chain complex I.mitochondrial respiration chain complex I.)
• Tar 2014 J Biol Chem  + ('''This manuscript was withdrawn by the au … '''This manuscript was withdrawn by the author!'''</br></br>The conserved Blm10/PA200 activators bind to the proteasome core particle gate and facilitate turnover of peptides and unfolded proteins ''in vitro''. We report here that Blm10 is required for the maintenance of functional mitochondria. BLM10 expression is induced 25-fold upon a switch from fermentation to oxidative metabolism. In the absence of BLM10 Saccharomyces cerevisiae cells exhibit a temperature-sensitive growth defect under oxidative growth conditions and produce colonies with dysfunctional mitochondria at high frequency. Loss of BLM10 leads to reduced respiratory capacity, increased mitochondrial oxidative damage and reduced viability in the presence of oxidative stress or death stimuli. In the absence of BLM10 increased fragmentation of the mitochondrial network under oxidative stress is observed indicative of elevated activity of the mitochondrial fission machinery. The degradation of Dnm1, the main factor mediating mitochondrial fission, is impaired in the absence of BLM10 ''in vitro'' and ''in vivo''. These data suggest that the mitochondrial functional and morphological changes observed are related to elevated Dnm1 levels. This hypothesis is supported by the finding that cells that constitutively overexpress DNM1, display the same mitochondrial defects as blm10Δ cells. The data are consistent with a model in which Blm10-proteasome mediated turnover of Dnm1 is required for the maintenance of mitochondrial function and provides cytoprotection under conditions that induce increased mitochondrial damage and programmed cell death.hondrial damage and programmed cell death.)
• MiPNet14.10 O2k-Top 10  + ('''We summarize 10 compelling reasons for choosing the Oroboros O2k, for collaborating in the Oroboros Ecosystem, and for spreading our reproducibility committment. ‘Top 10’ reflects our corporate goals.''')
• Schiemer 2018 Schriften  + ('''Wolfgang Wieser (1924–2017) – a central … '''Wolfgang Wieser (1924–2017) – a central force in Austrian biology.'''</br></br>The most important stages in Wolfgang Wieser’s life and scientific career are illustrated in this paper. Wolfgang Wieser was a central personality in Austrian biology. His contributions to the development of an eco-physiological approach are outlined, including his books on evolutionary biology, especially in context of the cultural development of mankind.xt of the cultural development of mankind.)
• IOC48  + ('''Workshop at the 5th Meeting of ASMRM Jo … '''Workshop at the 5th Meeting of ASMRM Jointly with Chinese Mit'2008 Tianjin University of Sport.''' Tianjin , China; 2008 November 09.</br>:>> O2k-Workshop: [[Oroboros Events| Current dates]]</br>:>> Product: [[Oroboros O2k]], [[Oroboros O2k-Catalogue | O2k-Catalogue]][[Oroboros O2k-Catalogue | O2k-Catalogue]])
• MiPNet19.16 IOC98  + ('''[[File:Sunpoint Hsu Gnaiger Tsai Lu.JPG|right|500px|thumb|[[Hsu A| Ari Hsu]] … '''[[File:Sunpoint Hsu Gnaiger Tsai Lu.JPG|right|500px|thumb|[[Hsu A| Ari Hsu]], [[Gnaiger E| Erich Gnaiger]], [[Tsai S| Sunny Tsai]] and [[Lu A| Amelia Lu]] (left to right) in the Sunpoint Office at IOC98.'''</br>]]</br>[[Image:O2k-Workshops.png|left|130px|link=http://www.oroboros.at/?O2k-Workshops]]</br>'''98th OROBOROS O2k-Workshop on high-resolution respirometry and O2k-Fluorometry'''lution respirometry and O2k-Fluorometry''')
• Gnaiger IOC62-Introduction  + ('''[[High-resolution respirometry]]''' (HRR) provides a quantitative approach to bioenergetics and mitochondrial physiology with the [[Oroboros O2k]] (Oroboros Instruments) offering several sole-source features.)
• MitoFit Open Seminar 2017-07-14  + ('''[[Karabatsiakis 2017 MitoFit Open Seminar|MitoFit Open Seminar on immune cell bioenergetics]]'''. Innsbruck, AT)
• Leuner 2012 Antioxid Redox Signal  + (''AIMS'' Intracellular amyloid beta (Aβ) o … ''AIMS'' Intracellular amyloid beta (Aβ) oligomers and extracellular Aβ plaques are key players in the progression of sporadic Alzheimer's disease (AD). Still, the molecular signals triggering Aβ production are largely unclear. We asked whether mitochondrion-derived reactive oxygen species (ROS) are sufficient to increase Aβ generation and thereby initiate a vicious cycle further impairing mitochondrial function.</br></br>''RESULTS'' Complex I and III dysfunction was induced in a cell model using the respiratory inhibitors rotenone and antimycin, resulting in mitochondrial dysfunction and enhanced ROS levels. Both treatments lead to elevated levels of Aβ. Presence of an antioxidant rescued mitochondrial function and reduced formation of Aβ, demonstrating that the observed effects depended on ROS. Conversely, cells overproducing Aβ showed impairment of mitochondrial function such as comprised mitochondrial respiration, strongly altered morphology, and reduced intracellular mobility of mitochondria. Again, the capability of these cells to generate Aβ was partly reduced by an antioxidant, indicating that Aβ formation was also ROS dependent. Moreover, mice with a genetic defect in complex I, or AD mice treated with a complex I inhibitor, showed enhanced Aβ levels ''in vivo''.</br></br>''INNOVATION'' We show for the first time that mitochondrion-derived ROS are sufficient to trigger Aβ production ''in vitro'' and ''in vivo''.</br></br>''CONCLUSION'' Several lines of evidence show that mitochondrion-derived ROS result in enhanced amyloidogenic amyloid precursor protein processing, and that Aβ itself leads to mitochondrial dysfunction and increased ROS levels. We propose that starting from mitochondrial dysfunction a vicious cycle is triggered that contributes to the pathogenesis of sporadic AD.ibutes to the pathogenesis of sporadic AD.)
• Stride 2013 Eur J Heart Fail  + (''AIMS'': Heart failure (HF) with left ven … ''AIMS'': Heart failure (HF) with left ventricular systolic dysfunction (LVSD) is associated with a shift in substrate utilization and a compromised energetic state. Whether these changes are connected with mitochondrial dysfunction is not known. We hypothesized that the cardiac phenotype in LVSD could be caused by reduced mitochondrial oxidative phosphorylation (OXPHOS) capacity and reduced mitochondrial creatine kinase (miCK) capacity. The study aim was to test mitochondrial OXPHOS capacity in LVSD myocardium compared with OXPHOS capacity in a comparable patient group without LVSD.</br></br>''METHODS AND RESULTS'': Myocardial biopsies were obtained from the left ventricle during cardiac valve or left ventricular assist device (LVAD) surgery. Patients were stratified according to left ventricular ejection fraction (LVEF) into LVSD (LVEF <45%, n = 14) or CONTROL (LVEF >45%, n = 15). Mitochondrial respiration was measured in muscle fibres with addition of non-fatty acid substrates or octanoyl-l-carnitine, a medium chain fatty acid (MCFA). The ''in situ'' enzyme capacity of miCK was determined from APD titrations in the presence or absence of creatine. Maximal OXPHOS capacity with non-fatty acid substrates was lower in the LVSD group compared with the CONTROL group (P ≤ 0.05). ADP sensitivity always increased significantly (P ≤ 0.05) with the addition of creatine, after which the sensitivity was highest (P ≤ 0.05) in LVSD compared with CONTROL. The stimulation of OXPHOS from octanoyl-l-carnitine titrations elicited ∼40% lower respiration in LVSD compared with CONTROL (P ≤ 0.05).</br></br>''CONCLUSION'': Human LVSD is associated with markedly diminished OXPHOS capacity, particularly in MCFA oxidation. This offers a candidate mechanism for a compromised energetic state and decreased reliance on fatty acid utilization in HF.reased reliance on fatty acid utilization in HF.)
• Lou 2013 Cardiovasc Res  + (''AIMS'': Infarct-remodelled hearts are le … ''AIMS'': Infarct-remodelled hearts are less amenable to protection against ischaemia/reperfusion. Understanding preservation of energy metabolism in diseased vs. healthy hearts may help to develop anti-ischaemic strategies effective also in jeopardized myocardium.</br></br>''METHODS AND RESULTS'': Isolated infarct-remodelled/sham Sprague-Dawley rat hearts were perfused in the working mode and subjected to 15 min of ischaemia and 30 min of reperfusion. Protection of post-ischaemic ventricular work was achieved by pharmacological conditioning with sevoflurane. Oxidative metabolism was measured by substrate flux in fatty acid and glucose oxidation using [(3)H]palmitate and [(14)C]glucose. Mitochondrial oxygen consumption was measured in saponin-permeabilized left ventricular muscle fibres. Activity assays of citric acid synthase, hydroxyacyl-CoA dehydrogenase, and pyruvate dehydrogenase and mass spectrometry for acylcarnitine profiling were also performed. Six weeks after coronary artery ligation, the hearts exhibited macroscopic and molecular signs of hypertrophy consistent with remodelling and limited respiratory chain and citric acid cycle capacity. Unprotected remodelled hearts showed a marked decline in palmitate oxidation and acetyl-CoA energy production after ischaemia/reperfusion, which normalized in sevoflurane-protected remodelled hearts. Protected remodelled hearts also showed higher β-oxidation flux as determined by increased oxygen consumption with palmitoylcarnitine/malate in isolated fibres and a lower ratio of C16:1+C16OH/C14 carnitine species, indicative of a higher long-chain hydroxyacyl-CoA dehydrogenase activity. Remodelled hearts exhibited higher PPARα-PGC-1α but defective HIF-1α signalling, and conditioning enabled them to mobilize fatty acids from endogenous triglyceride stores, which closely correlated with improved recovery.</br></br>''CONCLUSIONS'': Protected infarct-remodelled hearts secure post-ischaemic energy production by activation of β-oxidation and mobilization of fatty acids from endogenous triglyceride stores.acids from endogenous triglyceride stores.)
• Carvalho-Kelly 2020 J Bioenerg Biomembr  + (''Acanthamoeba castellanii'' is a free-liv … ''Acanthamoeba castellanii'' is a free-living amoeba and the etiological agent of granulomatous amoebic encephalitis and amoebic keratitis. ''A. castellanii'' can be present as trophozoites or cysts. The trophozoite is the vegetative form of the cell and has great infective capacity compared to the cysts, which are the dormant form that protect the cell from environmental changes. Phosphate transporters are a group of proteins that are able to internalize inorganic phosphate from the extracellular to intracellular medium. Plasma membrane phosphate transporters are responsible for maintaining phosphate homeostasis, and in some organisms, regulating cellular growth. The aim of this work was to biochemically characterize the plasma membrane phosphate transporter in ''A. castellanii'' and its role in cellular growth and metabolism. To measure inorganic phosphate (Pi) uptake, trophozoites were grown in liquid PYG medium at 28 °C for 2 days. The phosphate uptake was measured by the rapid filtration of intact cells incubated with 0.5 μCi of ³²Pi for 1 h. The Pi transport was linear as a function of time and exhibited Michaelis-Menten kinetics with a K_m = 88.78 ± 6.86 μM Pi and V_max = 547.5 ± 16.9 Pi × h^-1 × 10^-6 cells. ''A. castellanii'' presented linear phosphate uptake up to 1 h with a cell density ranging from 1 × 105 to 2 × 106 amoeba × ml^-1. The Pi uptake was higher in the acidic pH range than in the alkaline range. The oxygen consumption of living trophozoites increased according to Pi addition to the extracellular medium. When the cells were treated with FCCP, no effect from Pi on the oxygen flow was observed. The addition of increasing Pi concentrations not only increased oxygen consumption but also increased the intracellular ATP pool. These phenomena were abolished when the cells were treated with FCCP or exposed to hypoxia. Together, these results reinforce the hypothesis that Pi is a key nutrient for ''Acanthamoeba castellanii'' metabolism.her, these results reinforce the hypothesis that Pi is a key nutrient for ''Acanthamoeba castellanii'' metabolism.)
• Votion 2023 MiP2023  + (''Acer pseudoplatanus'' contains toxins re … ''Acer pseudoplatanus'' contains toxins responsible for poisoning in various species [1], including humans [2]. In equids, this intoxication induces an often fatal rhabdomyolysis syndrome known as atypical myopathy (AM); [3]. Blood analysis reveals a severe metabolic disturbance characterised by hyperglycaemia, high triglycerides, and lipid intermediates [4].<br></br>Toxins inhibit several steps of the fatty acid β-oxidation cycle that leads to the accumulation of acyl-CoAs in the mitochondria, which are scavenged into acylcarnitines. Also, competitive inhibition of long-chain fatty acid transport into mitochondria results into their accumulation conjugated with carnitine. In addition, inhibition of the catabolic pathway of branched-chain amino acids, particularly leucine, leads to the accumulation of branched acylcarnitines [2; 5].<br></br>Acylcarnitines in tissues may explain parts of the pathophysiological process, such as the cardiac myopathy occurring in AM. Also, acylcarnitines accumulation could promote muscle insulin resistance and contribute to the hyperglycaemia observed in AM horses [4]. The disease also results from severe impairment of mitochondrial bioenergetics [6; 7]. In AM, the serum acylcarnitines profile contributes to the diagnosis of the disease, its prognosis and is also a valuable aid in monitoring ongoing metabolic disturbances.<br></br>In search of new therapeutic approaches for this environmental intoxication, we are currently designing toxicity assays with cultured cells [7] and zebrafish larvae. These models will help us to test different drugs by exploring their ability to prevent metabolic disturbances as indicated by the acylcarnitines profile. Indeed, in both models, the alteration of the acylcarnitine profile can be followed.</br><small></br># Renaud B et al, (2022) Acer pseudoplatanus: A Potential Risk of Poisoning for Several Herbivore Species. https://doi.org/10.3390/toxins14080512</br># Tanaka K, Isselbacher KJ, Shih V (1972) Isovaleric and -methylbutyric acidemias induced by hypoglycin A: mechanism of Jamaican vomiting sickness. https://doi.org/10.1126/science.175.4017.69 </br># Votion DM, Serteyn D (2008) Equine atypical myopathy: a review. https://doi.org/10.1016/j.tvjl.2008.02.004</br># Boemer F, Detilleux J, Cello C, Amory H, Marcillaud-Pitel C, Richard E, van Galen G, van Loon G, Lefere L, Votion DM (2017) Acylcarnitines profile best predicts survival in horses with atypical myopathy. https://doi.org/10.1371/journal.pone.0182761</br># Wouters CP et al, (2021) Metabolomic Signatures Discriminate Horses with Clinical Signs of Atypical Myopathy from Healthy Co-grazing Horses. https://doi.org/10.1021/acs.jproteome.1c00225</br># Lemieux H et al, (2016) Mitochondrial function is altered in horse atypical myopathy. https://doi.org/10.1016/j.mito.2016.06.005 </br># Kruse CJ, Stern D, Mouithys-Mickalad A, Niesten A, Art T, Lemieux H, Votion DM (2021) In Vitro Assays for the Assessment of Impaired Mitochondrial Bioenergetics in Equine Atypical Myopathy. https://doi.org/10.3390/life11070719</br></small>e Atypical Myopathy. https://doi.org/10.3390/life11070719 </small>)
• Chen 2020 Biochim Biophys Acta Mol Basis Dis  + (''Ad libitum'' high-fat diet (HFD) induces … ''Ad libitum'' high-fat diet (HFD) induces obesity and skeletal muscle metabolic dysfunction. Liver kinase B1 (LKB1) regulates skeletal muscle metabolism by controlling the AMP-activated protein kinase family, but its importance in regulating muscle gene expression and glucose tolerance in obese mice has not been established. The purpose of this study was to determine how the lack of LKB1 in skeletal muscle (KO) affects gene expression and glucose tolerance in HFD-fed, obese mice. KO and littermate control wild-type (WT) mice were fed a standard diet or HFD for 14 weeks. RNA sequencing, and subsequent analysis were performed to assess mitochondrial content and respiration, inflammatory status, glucose and insulin tolerance, and muscle anabolic signaling. KO did not affect body weight gain on HFD, but heavily impacted mitochondria-, oxidative stress-, and inflammation-related gene expression. Accordingly, mitochondrial protein content and respiration were suppressed while inflammatory signaling and markers of oxidative stress were elevated in obese KO muscles. KO did not affect glucose or insulin tolerance. However, fasting serum insulin and skeletal muscle insulin signaling were higher in the KO mice. Furthermore, decreased muscle fiber size in skmLKB1-KO mice was associated with increased general protein ubiquitination and increased expression of several ubiquitin ligases, but not muscle ring finger 1 or atrogin-1. Taken together, these data suggest that the lack of LKB1 in skeletal muscle does not exacerbate obesity or insulin resistance in mice on a HFD, despite impaired mitochondrial content and function and elevated inflammatory signaling and oxidative stress.</br></br><small>Copyright © 2020. Published by Elsevier B.V.</small>right © 2020. Published by Elsevier B.V.</small>)
• Oliveira 2022 Abstract Bioblast-Aedes  + (''Aedes aegypti'' females are natural vect … ''Aedes aegypti'' females are natural vectors of important arboviruses including Dengue, Zika and yellow fever. Mosquitoes activate innate immune response signaling pathways upon infection, which target the pathogens and limit their propagation. Despite the beneficial effects of immune activation for insect vectors, there are phenotypic costs that ultimately affect their fitness. However, the underlying mechanisms that mediate these fitness costs remain poorly understood. Given the high energy required to mount a proper immune response, we hypothesized that systemic activation of innate immunity would impair flight muscle mitochondrial function, compromising tissue energy demand and flight activity. Here, we investigated the dynamic effects of activation of innate immunity by intra-thoracic zymosan injection on ''A. aegypti'' flight muscle mitochondrial metabolism. Zymosan injection significantly increased defensin expression in fat bodies in a time-dependent manner and ultimately affecting induced flight activity. Although oxidant levels in flight muscle were hardly altered, [[P-L net OXPHOS capacity |''P''-''L'' net OXPHOS capacity]] ([[OXPHOS capacity |OXPHOS capacity ''P'']] minus [[LEAK respiration |LEAK respiration ''L'']]; ADP→ATP-linked) and [[ET capacity |electron transfer capacity ''E'']] (maximal mitochondrial oxygen consumption rates) supported by pyruvate & proline were significantly reduced at 24 h upon zymosan injection. These effects were parallel to significant and specific reductions in Complex I activity upon zymosan treatment. Finally, the magnitude of defensin up-regulation negatively correlated with maximal, ATP-linked, and NADH&proline-linked respiratory rates ''P'' and ''E'' in flight muscles. Despite strong reductions were observed in proline and [[E-P excess capacity |''E''-''P'' excess capacity]] 24 h upon zymosan injection, this effect was not correlated to the magnitude of innate immune response activation. Collectively, we demonstrate that activation of innate immunity in fat body strongly associates to reduced flight muscle Complex I activity with direct consequences on mitochondrial physiology and dispersal. Remarkably, our results indicate that a trade-off between dispersal and immunity exists in an insect vector, underscoring the potential consequences of disrupted flight muscle mitochondrial energy metabolism on arbovirus transmission.drial energy metabolism on arbovirus transmission.)
• Gaviraghi 2019 Anal Biochem  + (''Aedes aegypti'' is the most important an … ''Aedes aegypti'' is the most important and widespread vector of arboviruses, including dengue and zika. Insect dispersal through the flight activity is a key parameter that determines vector competence, and is energetically driven by oxidative phosphorylation in flight muscle mitochondria. Analysis of mitochondrial function is central for a better understanding of cellular metabolism, and is mostly studied using isolated organelles. However, this approach has several challenges and methods for assessment of mitochondrial function in chemically-permeabilized tissues were designed. Here, we described a reliable protocol to assess mitochondrial physiology using mechanically permeabilized flight muscle of single ''A. aegypti'' mosquitoes in combination with high-resolution respirometry. By avoiding the use of detergents, high respiratory rates were obtained indicating that substrate access to mitochondria was not limited. This was confirmed by using selective inhibitors for specific mitochondrial substrates. Additionally, mitochondria revealed highly coupled, as ATP synthase or adenine nucleotide translocator inhibition strongly impacted respiration. Finally, we determined that pyruvate and proline induced the highest respiratory rates compared to other substrates tested. This method allows the assessment of mitochondrial physiology in mosquito flight muscle at individual level, and can be used for the identification of novel targets aiming rational insect vector control.</br></br><small>Copyright © 2019. Published by Elsevier Inc.</small>right © 2019. Published by Elsevier Inc.</small>)
• Lou 2012 Cardiovasc Res  + (''Aims:'' Infarct-remodeled hearts are les … ''Aims:'' Infarct-remodeled hearts are less amenable to protection against ischemia-reperfusion. Understanding preservation of energy metabolism in diseased versus healthy hearts may help to develop anti-ischemic strategies also effective in jeopardized myocardium.</br></br>''Methods and Results:'' Isolated infarct-remodeled/sham Sprague-Dawley rat hearts were perfused in the working mode and subjected to 15 min of ischemia and 30 min of reperfusion. Protection of postischemic ventricular work was achieved by pharmacologic conditioning with sevoflurane. Oxidative metabolism was measured by substrate flux in fatty acid and glucose oxidation using [(3)H]palmitate and [(14)C]glucose. Mitochondrial oxygen consumption was measured in saponin-permeabilized left ventricular muscle fibers. Activity assays of citric acid synthase, hydroxyacyl-CoA dehydrogenase, and pyruvate dehydrogenase and mass spectrometry for acylcarnitine profiling were also performed. Six weeks after coronary artery ligation, hearts exhibited macroscopic and molecular signs of hypertrophy consistent with remodeling and limited respiratory chain and citric acid cycle capacity. Unprotected remodeled hearts showed a marked decline in palmitate oxidation and acetyl-CoA energy production after ischemia/reperfusion, which normalized in sevoflurane-protected remodeled hearts. Protected remodeled hearts also showed higher β-oxidation flux as determined by increased oxygen consumption with palmitoylcarnitine/malate in isolated fibers and a lower ratio of C16:1+C16OH/C14 carnitine species, indicative of a higher long-chain hydroxyacyl-CoA dehydrogenase activity. Remodeled hearts exhibited higher PPARα-[[PGC-1α]] but defective HIF-1α signaling and conditioning enabled them to mobilize fatty acids from endogenous triglyceride store, which closely correlated with improved recovery.</br></br>''Conclusions:'' Protected infarct-remodeled hearts secure postischemic energy production by activation of β-oxidation and mobilization of fatty acids from endogenous triglyceride stores.acids from endogenous triglyceride stores.)
• Furlanetto 2014 Thesis University of Parana  + (''Araucaria angustifolia'' is listed as cr … ''Araucaria angustifolia'' is listed as critically endangered by International Union for Conservation of Nature (IUCN) red list of threatened species. The development and propagation of this species is strongly affected by abiotic stress, such as the temperature variation. We previously shown the activation of plant uncoupling mitochondrial protein (PUMP) in embryogenic ''A. angustifolia'' cells submitted to cold stress, an effect associated to oxidative stress. In this work, we advanced in these studies by submitting these cells to cold stress (4 ± 1°C for 24h or 48h) and evaluating the cellular and mitochondrial response associated to oxidative stress, namely: the H2O2 levels, the activity of antioxidant enzymes and lipid peroxidation. In mitochondria from these cells were evaluated the activity of NAD(P)H alternative dehydrogenases and mitochondrial permeability transition (MPT). The cold stress did not affect the morphology and viability of embryogenic ''A. angustifolia'' cells; however, increased the H2O2 levels by ~35% (at 24h and 48h) and lipid peroxidation by ~15% and 30% after 24h and 48h of stress, respectively. The activity of catalase was decreased by ~20% after 48h of cold stress while ascorbate peroxidase (APx) and dehydroascorbate redutase (DHAR) activities were increased by ~100% and ~64%, respectively. For the cells exposition to cold stress by 24h only dehydroascorbate redutase (MDHAR) had the activity increased by ~172%. Glutathione reductase (GR) and superoxide dismutase activities remained unchanged under both stress conditions. In mitochondria, the cold stress promoted a significant inhibition of external alternative NAD(P)H dehydrogenases (~40% at 24h of stress and ~65% at 48h of stress) while the mitochondrial permeability transition (MPT) was slightly inhibited in both, 24h and 48h of stress. The cold stress induces the oxidative stress in embryogenic ''A. angustifolia'' cells, which result in up-regulation of the enzymatic defense mainly the activation of gluthatione-ascorbate cycle in a compensatory way to the inhibition of catalase and external NAD(P)H dehydrogenases. These results contribute to understanding the pathway to overcoming the cold in this gymnosperm and are important for the development of conservation methods of this species such as ''in vitro'' micropropagation.ies such as ''in vitro'' micropropagation.)