The Effects of Bioenergetic Stress and Redox Balance on the Expression of Genes Critical to Mitochondrial Function

Abstract Aims/hypothesis Treatment of vascular complications of diabetes remains inadequate. We reported that muscle pericytes (MPs) from limb muscles of vascular patients with diabetes mellitus display elevated levels of oxidative stress causing a dysfunctional phenotype. Here, we investigated whether treatment with dimethyl-2-oxoglutarate (DM-2OG), a tricarboxylic acid cycle metabolite with antioxidant properties, can restore a healthy metabolic and functional phenotype. Methods MPs were isolated from limb muscles of diabetes patients with vascular disease (D-MPs) and from non-diabetic control participants (ND-MPs). Metabolic status was assessed in untreated and DM-2OG-treated (1 mmol/l) cells using an extracellular flux analyser and anion-exchange chromatography–mass spectrometry (IC-MS/MS). Redox status was measured using commercial kits and IC-MS/MS, with antioxidant and metabolic enzyme expression assessed by quantitative RT-PCR and western blotting. Myogenic differentiation and proliferation and pericyte–endothelial interaction were assessed as functional readouts. Results D-MPs showed mitochondrial dysfunction, suppressed glycolytic activity and reduced reactive oxygen species-buffering capacity, but no suppression of antioxidant systems when compared with ND-MP controls. DM-2OG supplementation improved redox balance and mitochondrial function, without affecting glycolysis or antioxidant systems. Nonetheless, this was not enough for treated D-MPs to regain the level of proliferation and myogenic differentiation of ND-MPs. Interestingly, DM-2OG exerted a positive effect on pericyte–endothelial cell interaction in the co-culture angiogenesis assay, independent of the diabetic status. Conclusions/interpretation These novel findings support the concept of using DM-2OG supplementation to improve pericyte redox balance and mitochondrial function, while concurrently allowing for enhanced pericyte–endothelial crosstalk. Such effects may help to prevent or slow down vasculopathy in skeletal muscles of people with diabetes.

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Protection against Doxorubicin-Induced Cardiac Dysfunction Is Not Maintained Following Prolonged Autophagy Inhibition

International Journal of Molecular Sciences ◽

10.3390/ijms21218105 ◽

2020 ◽

Vol 21 (21) ◽

pp. 8105

Author(s):

Ryan N. Montalvo ◽

Vivian Doerr ◽

Oh Sung Kwon ◽

Erin E. Talbert ◽

Jeung-Ki Yoo ◽

...

Keyword(s):

Mitochondrial Function ◽

Cardiac Dysfunction ◽

Redox Balance ◽

Cardiovascular Complications ◽

Left Ventricular ◽

Dominant Negative ◽

Sprague Dawley ◽

Autophagosome Formation ◽

Underlying Mechanisms ◽

Autophagy Inhibition

Doxorubicin (DOX) is a highly effective chemotherapeutic agent used in the treatment of various cancer types. Nevertheless, it is well known that DOX promotes the development of severe cardiovascular complications. Therefore, investigation into the underlying mechanisms that drive DOX-induced cardiotoxicity is necessary to develop therapeutic countermeasures. In this regard, autophagy is a complex catabolic process that is increased in the heart following DOX exposure. However, conflicting evidence exists regarding the role of autophagy dysregulation in the etiology of DOX-induced cardiac dysfunction. This study aimed to clarify the contribution of autophagy to DOX-induced cardiotoxicity by specifically inhibiting autophagosome formation using a dominant negative autophagy gene 5 (ATG5) adeno-associated virus construct (rAAV-dnATG5). Acute (2-day) and delayed (9-day) effects of DOX (20 mg/kg intraperitoneal injection (i.p.)) on the hearts of female Sprague–Dawley rats were assessed. Our data confirm established detrimental effects of DOX on left ventricular function, redox balance and mitochondrial function. Interestingly, targeted inhibition of autophagy in the heart via rAAV-dnATG5 in DOX-treated rats ameliorated the increase in mitochondrial reactive oxygen species emission and the attenuation of cardiac and mitochondrial function, but only at the acute timepoint. Deviation in the effects of autophagy inhibition at the 2- and 9-day timepoints appeared related to differences in ATG5–ATG12 conjugation, as this marker of autophagosome formation was significantly elevated 2 days following DOX exposure but returned to baseline at day 9. DOX exposure may transiently upregulate autophagy signaling in the rat heart; thus, long-term inhibition of autophagy may result in pathological consequences.

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Sequential clinical manipulations of embryos results in alterations in expression of genes involved in innate immunity, apoptosis, and mitochondrial function

Fertility and Sterility ◽

10.1016/j.fertnstert.2019.07.771 ◽

2019 ◽

Vol 112 (3) ◽

pp. e255

Author(s):

Kristin Van Heertum ◽

Lisa Lam ◽

Michael J. Cartwright ◽

Brian Richardson ◽

Mark Cameron ◽

...

Keyword(s):

Innate Immunity ◽

Mitochondrial Function ◽

Expression Of Genes

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Regulation of skeletal muscle mitochondrial function by nuclear receptors: implications for health and disease

Clinical Science ◽

10.1042/cs20150246 ◽

2015 ◽

Vol 129 (7) ◽

pp. 589-599 ◽

Cited By ~ 20

Author(s):

Joaquin Perez-Schindler ◽

Andrew Philp

Keyword(s):

Physical Activity ◽

Skeletal Muscle ◽

Nuclear Receptors ◽

Mitochondrial Biogenesis ◽

Mitochondrial Function ◽

Metabolic Diseases ◽

Therapeutic Potential ◽

Muscle Metabolism ◽

Cellular Level ◽

Expression Of Genes

Skeletal muscle metabolism is highly dependent on mitochondrial function, with impaired mitochondrial biogenesis associated with the development of metabolic diseases such as insulin resistance and type 2 diabetes. Mitochondria display substantial plasticity in skeletal muscle, and are highly sensitive to levels of physical activity. It is thought that physical activity promotes mitochondrial biogenesis in skeletal muscle through increased expression of genes encoded in both the nuclear and the mitochondrial genome; however, how this process is co-ordinated at the cellular level is poorly understood. Nuclear receptors (NRs) are key signalling proteins capable of integrating environmental factors and mitochondrial function, thereby providing a potential link between exercise and mitochondrial biogenesis. The aim of this review is to highlight the function of NRs in skeletal muscle mitochondrial biogenesis and discuss the therapeutic potential of NRs for the management and treatment of chronic metabolic disease.

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Adipose Tissue Resting Energy Expenditure and Expression of Genes Involved in Mitochondrial Function Are Higher in Women than in Men

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/jc.2012-2764 ◽

2013 ◽

Vol 98 (2) ◽

pp. E370-E378 ◽

Cited By ~ 51

Author(s):

Intawat Nookaew ◽

Per-Arne Svensson ◽

Peter Jacobson ◽

Margareta Jernås ◽

Magdalena Taube ◽

...

Keyword(s):

Adipose Tissue ◽

Energy Expenditure ◽

Mitochondrial Function ◽

Resting Energy Expenditure ◽

Expression Of Genes ◽

Resting Energy

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Rooibos Flavonoids, Aspalathin, Isoorientin, and Orientin Ameliorate Antimycin A-Induced Mitochondrial Dysfunction by Improving Mitochondrial Bioenergetics in Cultured Skeletal Muscle Cells

Molecules ◽

10.3390/molecules26206289 ◽

2021 ◽

Vol 26 (20) ◽

pp. 6289

Author(s):

Sinenhlanhla X. H. Mthembu ◽

Christo J. F. Muller ◽

Phiwayinkosi V. Dludla ◽

Evelyn Madoroba ◽

Abidemi P. Kappo ◽

...

Keyword(s):

Mitochondrial Dysfunction ◽

Mitochondrial Function ◽

C2c12 Myotubes ◽

Antimycin A ◽

Mrna Levels ◽

Expression Of Genes ◽

Rooibos Tea ◽

The Impact ◽

Dietary Flavonoids

The current study investigated the physiological effects of flavonoids found in daily consumed rooibos tea, aspalathin, isoorientin, and orientin on improving processes involved in mitochondrial function in C2C12 myotubes. To achieve this, C2C12 myotubes were exposed to a mitochondrial channel blocker, antimycin A (6.25 µM), for 12 h to induce mitochondrial dysfunction. Thereafter, cells were treated with aspalathin, isoorientin, and orientin (10 µM) for 4 h, while metformin (1 µM) and insulin (1 µM) were used as comparators. Relevant bioassays and real-time PCR were conducted to assess the impact of treatment compounds on some markers of mitochondrial function. Our results showed that antimycin A induced alterations in the mitochondrial respiration process and mRNA levels of genes involved in energy production. In fact, aspalathin, isoorientin, and orientin reversed such effects leading to the reduced production of intracellular reactive oxygen species. These flavonoids further enhanced the expression of genes involved in mitochondrial function, such as Ucp 2, Complex 1/3, Sirt 1, Nrf 1, and Tfam. Overall, the current study showed that dietary flavonoids, aspalathin, isoorientin, and orientin, have the potential to be as effective as established pharmacological drugs such as metformin and insulin in protecting against mitochondrial dysfunction in a preclinical setting; however, such information should be confirmed in well-established in vivo disease models.

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Aberrant mitochondrial function in patient-derived neural cells from CDKL5 deficiency disorder and Rett syndrome

Human Molecular Genetics ◽

10.1093/hmg/ddz208 ◽

2019 ◽

Vol 28 (21) ◽

pp. 3625-3636

Author(s):

Smita Jagtap ◽

Jessica M Thanos ◽

Ting Fu ◽

Jennifer Wang ◽

Jasmin Lalonde ◽

...

Keyword(s):

Oxygen Consumption ◽

Rett Syndrome ◽

Mitochondrial Function ◽

Progenitor Cell ◽

Neural Progenitor Cell ◽

Neural Cells ◽

Wild Type ◽

Expression Of Genes ◽

Mutant Lines ◽

Differential Expression Of Genes

Abstract The X-linked neurodevelopmental diseases CDKL5 deficiency disorder (CDD) and Rett syndrome (RTT) are associated with intellectual disability, infantile spasms and seizures. Although mitochondrial dysfunction has been suggested in RTT, less is understood about mitochondrial function in CDD. A comparison of bioenergetics and mitochondrial function between isogenic wild-type and mutant neural progenitor cell (NPC) lines revealed increased oxygen consumption in CDD mutant lines, which is associated with altered mitochondrial function and structure. Transcriptomic analysis revealed differential expression of genes related to mitochondrial and REDOX function in NPCs expressing the mutant CDKL5. Furthermore, a similar increase in oxygen consumption specific to RTT patient–derived isogenic mutant NPCs was observed, though the pattern of mitochondrial functional alterations was distinct from CDKL5 mutant–expressing NPCs. We propose that aberrant neural bioenergetics is a common feature between CDD and RTT disorders. The observed changes in oxidative stress and mitochondrial function may facilitate the development of therapeutic agents for CDD and related disorders.

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Pioglitazone stimulates AMP-activated protein kinase signalling and increases the expression of genes involved in adiponectin signalling, mitochondrial function and fat oxidation in human skeletal muscle in vivo: a randomised trial

Diabetologia ◽

10.1007/s00125-008-1256-9 ◽

2009 ◽

Vol 52 (4) ◽

pp. 723-732 ◽

Cited By ~ 89

Author(s):

D. K. Coletta ◽

A. Sriwijitkamol ◽

E. Wajcberg ◽

P. Tantiwong ◽

M. Li ◽

...

Keyword(s):

Skeletal Muscle ◽

Protein Kinase ◽

Mitochondrial Function ◽

Human Skeletal Muscle ◽

Randomised Trial ◽

Fat Oxidation ◽

Expression Of Genes ◽

Amp Activated Protein Kinase ◽

Protein Kinase Signalling

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Improvement of bovine in vitro embryo production by vitamin K2 supplementation

Reproduction ◽

10.1530/rep-14-0324 ◽

2014 ◽

Vol 148 (5) ◽

pp. 489-497 ◽

Cited By ~ 8

Author(s):

Luis Manuel Baldoceda-Baldeon ◽

Dominic Gagné ◽

Christian Vigneault ◽

Patrick Blondin ◽

Claude Robert

Keyword(s):

Vitamin K ◽

Mitochondrial Function ◽

Blastocyst Stage ◽

Mitochondrial Activity ◽

Bovine Embryos ◽

Current Standard ◽

Expression Of Genes ◽

Mammalian Embryos ◽

Membrane Bound

Mitochondria play an important role during early development in mammalian embryos. It has been shown that properly controlled follicular preparation increases the likelihood ofin-vitro-produced bovine embryos reaching the blastocyst stage and that competent embryos exhibit heightened expression of genes associated with mitochondrial function. We hypothesized that apparently incompetent embryos could be rescued by restoring mitochondrial function. It has been shown that vitamin K2(a membrane-bound electron carrier similar to ubiquinone) can restore mitochondrial dysfunction in eukaryotic cells. The aim of this study was therefore to investigate the effects of vitamin K2on bovine embryonic developmentin vitro. The vitamin was found most effective when added 72 h after fertilization. It produced a significant (P<0.05) increase in the percentage of blastocysts (+8.6%), more expanded blastocysts (+7.8%), and embryos of better morphological quality. It improved the mitochondrial activity significantly and had a measurable impact on gene expression. This is the first demonstration that current standard conditions ofin vitroproduction of bovine embryos may be inadequate due to the lack of support for mitochondrial function and may be improved significantly by supplementing the culture medium with vitamin K2.

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Tongyang Huoxue Decoction (TYHX) Ameliorating Hypoxia/Reoxygenation-Induced Disequilibrium of Calcium Homeostasis and Redox Imbalance via Regulating Mitochondrial Quality Control in Sinoatrial Node Cells

Oxidative Medicine and Cellular Longevity ◽

10.1155/2021/3154501 ◽

2021 ◽

Vol 2021 ◽

pp. 1-20

Author(s):

Xing Chang ◽

Shunyu Yao ◽

Qiaomin Wu ◽

Yanli Wang ◽

Jinfeng Liu ◽

...

Keyword(s):

Quality Control ◽

Calcium Homeostasis ◽

Mitochondrial Function ◽

Calcium Release ◽

Sinoatrial Node ◽

Redox Balance ◽

Calcium Overload ◽

Mitochondrial Quality Control ◽

Redox Imbalance ◽

Β Tubulin

Sick sinus syndrome (SSS) is a disease with bradycardia or arrhythmia. The pathological mechanism of SSS is mainly due to the abnormal conduction function of the sinoatrial node (SAN) caused by interstitial lesions or fibrosis of the SAN or surrounding tissues, SAN pacing dysfunction, and SAN impulse conduction accompanied by SAN fibrosis. Tongyang Huoxue Decoction (TYHX) is widely used in SSS treatment and amelioration of SAN fibrosis. It has a variety of active ingredients to regulate the redox balance and mitochondrial quality control. This study mainly discusses the mechanism of TYHX in ameliorating calcium homeostasis disorder and redox imbalance of sinoatrial node cells (SANCs) and clarifies the protective mechanism of TYHX on the activity of SANCs. The activity of SANCs was determined by CCK-8 and the TUNEL method. The levels of apoptosis, ROS, and calcium release were analyzed by flow cytometry and immunofluorescence. The mRNA and protein levels of calcium channel regulatory molecules and mitochondrial quality control-related molecules were detected by real-time quantitative PCR and Western Blot. The level of calcium release was detected by laser confocal. It was found that after H/R treatment, the viability of SANCs decreased significantly, the levels of apoptosis and ROS increased, and the cells showed calcium overload, redox imbalance, and mitochondrial dysfunction. After treatment with TYHX, the cell survival level was improved, calcium overload and oxidative stress were inhibited, and mitochondrial energy metabolism and mitochondrial function were restored. However, after the SANCs were treated with siRNA (si-β-tubulin), the regulation of TYHX on calcium homeostasis and redox balance was counteracted. These results suggest that β-tubulin interacts with the regulation of mitochondrial function and calcium release. TYHX may regulate mitochondrial quality control, maintain calcium homeostasis and redox balance, and protect SANCs through β-tubulin. The regulation mechanism of TYHX on mitochondrial quality control may also become a new target for SSS treatment.

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