Evaluation of metallothionein involvement in the modulation of mitochondrial respiration in mice / Marianne Pretorius.

Pretorius, Marianne

January 2011

Metallothioneins (MTs) are small, non-enzymatic proteins that are involved in cellular detoxification and metal homeostasis because of their high cysteine content. MTs have also been identified as one of the vast number of adaptive responses to mitochondrial respiratory chain (RC) deficiencies. Aside from this, numerous other studies have linked MTs to several mitochondrion-linked components, including reactive oxygen species (ROS) and oxidative stress, apoptosis, glutathione, energy metabolism and nuclear- and mitochondrial DNA transcription regulation. However, most of the reports concerning the putative link between MTs and mitochondria are from in vitro studies and relatively little supportive in vivo evidence has been reported. Information on the involvement of MTs with respiratory chain function is especially limited. Is was therefore the aim of this study to investigate the involvement of MTs in mitochondrial respiration and respiratory chain enzyme function by using an MT knockout (MTKO) mouse model, which was treated with the irreversible complex I inhibiting reagent, rotenone. The aim was achieved by implementing three objectives: firstly, the RC function was investigated as a complete working unit; secondly, the functional and structural properties of single units (enzymes) of the RC were investigated utilising enzyme activity assays and BN- PAGE/western blot analysis; and thirdly, the possible effect of MTs on mtDNA copy number was investigated. While some tendencies of variation in RC enzyme activity and expression were identified, no significant effect on the overall mitochondrial respiratory function, or any significant differences in the relative mtDNA copy number of MTKO mice were observed. Thus it is concluded, while MTs have in this study revealed relatively small changes in respiratory chain function, which may still prove to have biological ignificance in vivo, the exact nature of the putative role of MTs in mitochondrial respiration or oxidative phosphorylation remains undefined. / Thesis (MSc (Biochemistry))--North-West University, Potchefstroom Campus, 2012.

mitochondrion

metallothionein

oxidative phosphorylation

respiratory chain

mitochondrial disease

MTKO mouse model

complex I deficiency

rotenone

enzyme activity analyses

mitochondrial respiration analyses

Mitochondriální respirace u chladově adaptovaných potkanů. Srovnání tkání. / Mitochondrial respiration at cold acclimated rats. Comparison of tissues.

Flégrová, Eliška

January 2016

Acclimation to cold or hardening is known for many decades through its beneficial effects on human health. In contrast, sudden exposure to cold, cold shock, is a great risk of cerebral and cardiac injury, especially in the elderly. There is very little published data on the cellular and molecular mechanisms induced by cold adaptation in heart and brain. The aim of this work was to describe and compare different properties heart, liver, brain and brown adipose tissue mitochondria of rats housed at 25 ± 1 řC and at mild cold (9 ± 1 řC, 5 weeks). The high-resolution oxygraphy, spectrophotometry and Western blotting analyses were used. We found differences in the respiratory control between the heart and liver. Cold acclimation decreased activity of the Krebs cycle enzymes. Fatty acid contribution to the respiration reached the maximum in brown fat and the minimum in the hippocampus. However, further study is necessary.

Localized Heat Therapy Improves Mitochondrial Function in Human Skeletal Muscle

Marchant, Erik D.

15 April 2022

Physical activity results in various types of stress in skeletal muscle including energetic, oxidative, and heat stress. Acute exposure to stress impairs skeletal muscle mitochondrial function. In contrast, chronic intermittent exposure to mild stress through exercise training results in increased mitochondrial content and respiratory capacity. While oxidative and energetic stress have received much attention regarding their long-term effect on skeletal muscle mitochondria, heat stress is not well understood. The purpose of this work was to investigate the effects of localized heat therapy on human skeletal muscle mitochondria, and to compare these effects to those of high-intensity interval exercise training. To accomplish this purpose, 35 subjects were assigned to receive 6 weeks of sham therapy, heat therapy, or exercise training; all localized to the quadriceps muscles of the right leg. Two-hour sessions of short-wave diathermy were used for the heat therapy, and identical sessions were used for sham therapy, but the diathermy units were not activated. Forty-minute sessions of single-leg extension, high-intensity interval training were used for the exercise intervention. All interventions took place three times per week. Muscle biopsies were performed at baseline, and after three and six weeks of intervention. Muscle fiber bundles were isolated and permeabilized for measurement of oxygen consumption via high-resolution respirometry. The primary finding of this work was that heat therapy improves mitochondrial respiratory capacity by 24.8 ± 6.2% compared to a 27.9 ± 8.7% improvement following exercise training. Both heat and exercise significantly increased mitochondrial respiration compared to baseline measures (p<0.05). Fatty acid oxidation and citrate synthase activity were also increased following exercise training by 29.5 ± 6.8% and 19.0 ± 7.4%, respectively (p<0.05). However, contrary to our hypothesis, heat therapy did not increase fatty acid oxidation or citrate synthase activity. Neither heat nor exercise training increased mitochondrial respiratory protein content. Overall these results suggest that heat therapy significantly improves mitochondrial function, but not to the same degree as exercise training.

heat stress

heat therapy

thermic stress

short-wave diathermy

mitochondrial function

mitochondrial respiration

oxidative phosphorylation

respiratory capacity

skeletal muscle

high-intensity interval training

permeabilized fibers

Life Sciences

Vliv psychotropních látek na mitochondriální funkce. / The effect of psychotropic drugs on the mitochondrial functions.

Cikánková, Tereza

January 2020

Psychopharmaca are a large group of drugs widely used not only in psychiatry. Their systemic administration affects both the main diagnosis and the organism as a whole. The subject of our experiments is the effect of psychopharmaca on the changes in mitochondrial functions, which is beneficial for understanding of molecular mechanisms of therapeutic and adverse effects of drugs. The aim of this thesis was to study the in vitro effects of selected drugs on the cell energy metabolism. Selected antipsychotics (chlorpromazine, levomepromazine, haloperidol, risperidone, ziprasidone, zotepine, aripiprazole, clozapine, olanzapine, and quetiapine), antidepressants (bupropion, fluoxetine, amitriptyline, imipramine) and mood stabilizers (lithium, valproate, valpromide, lamotrigine, carbamazepine) were tested. In vitro effects of selected psychopharmaca were measured on isolated pig brain mitochondria. The activities of citrate synthase (CS) and electron transport chain (ETC) complexes (I, II+III, IV) were measured spectrophotometrically. Drug-induced changes of mitochondrial respiration rates linked to complex I (supported by malate and pyruvate) and complex II (supported by succinate) were evaluated by high resolution respirometry. Complex I was significantly inhibited by lithium, carbamazepine, fluoxetine,...

Examination of Mitochondrial Bioenergetics in Skeletal Muscle Biopsies from Adults with Type 1 Diabetes

Monaco, Cynthia

January 2021

The overall objective of this thesis was to examine mitochondrial bioenergetics in muscle biopsies from humans with type 1 diabetes (T1D) to gain a deeper understanding of the cellular mechanism(s) underlying changes to skeletal muscle health reported in T1D, a phenotype we have referred to as ‘diabetic myopathy’. It was hypothesized that humans with T1D, compared to their matched counterparts without diabetes (control), would demonstrate significant deficiencies in muscle mitochondrial function and ultrastructure/content as determined by the gold-standard in vitro methodology: high-resolution respirometry and transmission electron microscopy, respectively. It was further hypothesized that sex differences would not exist in mitochondrial function with T1D, and mitochondrial deficiencies would be more dramatic at an earlier age with T1D. Adults with uncomplicated T1D and strictly matched controls (age, sex, BMI, self-reported physical activity levels) were recruited from surrounding university-dwelling communities. Site-specific deficiencies in mitochondrial respiration, H2O2 emission, and calcium retention capacity were found in young, physically active adults with T1D despite normal mitochondrial content. Further experiments revealed that muscle mitochondrial respiration in women and men differentially adapt to the T1D environment where men with T1D have lower complex II but higher complex I respiration compared to women with T1D, while women (irrespective of T1D) have lower ADP sensitivity. Women with T1D also demonstrated lower H2O2 emission compared to men with T1D. In contrast, despite a lower mitochondrial content in middle- to older-aged adults with T1D, mitochondrial respiration (normalized to content) was either normal or increased in adults with T1D compared to control, with observable differences between sexes. Overall, this research has demonstrated that despite being recreationally to physically active, adults with uncomplicated T1D with moderately well-managed glycemia demonstrate alterations in skeletal muscle mitochondrial function and ultrastructure, including differences between sexes. / Dissertation / Doctor of Science (PhD) / Type 1 diabetes (T1D) is a complex disease that still has no known cure. Current treatment focuses on managing blood sugar levels with exogenous insulin injections and frequent blood sugar checks. However, over time, people with T1D still develop serious complications that inevitably impact their quality of life and lifespan. A potential adjuvant therapy to prevent complications in T1D is improving the health of skeletal muscle through exercise given its role in stabilizing blood sugar/lipid levels and whole-body insulin sensitivity. However, this area continues to be severely understudied in the T1D population. Thus, this thesis examined skeletal muscle metabolic ‘health’ from adults with T1D who do not have major diabetes complications and manage their blood glucose moderately-well. Through a series of novel experiments, we found that young and middle- to older-aged adults with T1D have alterations in the metabolic engines of their muscles, and depending on biological sex, the alterations manifest as either heightened or degraded cellular function. These findings are the first to provide a comprehensive cellular investigation of the impact of T1D on the metabolic health of skeletal muscle in people with T1D and provide the foundation for future research examining skeletal muscle as an essential and early adjuvant therapy in this population.

Mitochondria

Type 1 Diabetes

Mitochondrial Bioenergetics

T1D

Diabetic myopathy

Muscle biopsy

High-resolution respirometry

Mitochondrial respiration

ROS

Sex differences

Sexual dimorphism

Mitochondrial density

OXPHOS

Mitochondrial ultrastructure

Multi-Tissue Examination of Exercise or Metformin on the Consequences of Doxorubicin Treatment

MacKay, Amy Dee

01 April 2018

Doxorubicin (DOX) is an effective chemotherapeutic treatment with lasting deleterious side effects in heart and skeletal muscle. As an increased percentage of patients live many years past their cancer treatments, addressing the long-term side effects of chemotherapy treatment becomes critical. In an attempt to prevent heart and skeletal muscle damage caused by DOX, two co-treatments, exercise (EX) or metformin (MET) were studied for their effectiveness in maintaining muscle function, mitochondrial respiration and iron regulation. DOX is known to bind with iron, contributing to oxidative damage resulting in cardiac and skeletal muscle toxicity. However, the degree to which the toxic side effects are due to iron dysregulation is poorly understood. To address this gap in understanding, the changes in proteins involved with iron regulation following DOX treatment with or without EX or MET was examined in liver, heart, and skeletal muscle. To study the effects of EX or MET on DOX muscle toxicity and the effect of DOX on iron regulation, C2C12 myotube cell culture and a mouse model were used. Results from this research suggest that the some of the toxic effects of DOX treatment can be reduced with EX or MET treatments. EX is effective at preventing an impairment in muscle relaxation, promoting positive iron regulation changes in the liver and blunting DOX-induced changes in iron regulation in muscle. MET partially prevents loss of mitochondrial respiration and promotes positive changes in iron regulation in the liver. Additionally, study of DOX on iron regulation in liver, heart, and skeletal muscle suggests that DOX promotes iron dysregulation. However, the cellular response is protective against excessive iron dysregulation and increased oxidative stress. This cellular response is at least partially dependent on NF-κB activation.

doxorubicin

exercise

metformin

muscle function

mitochondrial respiration

iron regulation

oxidative stress

NF-κB

skeletal muscle

cardiac muscle

liver

Life Sciences

Physiology

Farmakologické modifikace potenciálních signálních systémů regulujících metabolismus adipocytů a hepatocytů a jejich vliv na obezitu / Pharmacological modifications of potential signal systems regulating metabolism of adipocytes and hepatocytes and their influence on obesity

Hodis, Jiří

January 2011

v anglickém jazyce: Thesis abstract: Background and aims: Both obesity and metabolic syndrome form severe health problems in the whole world. Nevertheless the armament of pharmacotherapy for both diseases remains unsatisfactory. We aimed our work to main organs in risk of the mentioned diseases -liver and visceral fat using hepatocytes and visceral adipocytes as model. We detected 3 main metabolic and signalization activities- glycogenolysis, Nitric oxide (NO) production and transcription of inducible NO synthase (iNOS) in hepatocytes, lipolysis, NO production and iNOS transcription rate in adipocytes. We directed our interest to combination of peroxisome proliferation activator receptor γ (PPARγ) agonist, antagonist and β3 adrenergic agonist in the culture of epididymal rat adipocytes in the first part of our work. While in the second part we investigated the influence of β and α adrenergic mimetics, adrenergic blockers in the culture of rat high glycogen content hepatocytes. Methods: NO production was detected under the active agents treatments by detection of NO oxidative products NO2 and NO3 in media. Glycogenolysis was measured as free glucose rise released by hepatocytes into the media. NOS transcription level was extrapolated after comparative polymerase chain reaction with reverse...

Psychopathology, mental disorders and mitochondrial disorders / Psychopathology, mental disorders and mitochondrial disorders

Sigitova, Ekaterina

January 2017

This study investigates the connection between different pathophysiological processes in mitochondria and psychopathological symptoms in patients with bipolar disorder. Changes in activity of selected components of the respiratory chain and overall respiratory rate of mitochondria were analyzed in patients with bipolar disorder when compared to healthy controls. Diagnostic scales and questionnaires, high-resolution respirometry, radiochemical and spectroscopic methods were used. 37 patients with a diagnosis of bipolar disorder (F31) and 21 healthy volunteers were involved in the study. Statistical analysis included the methods of parametric and nonparametric analysis, factor analysis, one-way analysis of variance and linear regression analysis. Obtained results revealed that cellular energetics plays a great role in the pathophysiology of bipolar disorder. There was a mild difference between different mitochondrial enzymes activity in patients within manic phases and depressive phases of the disease. Changes in mitochondrial respiration in patients with BD as compared to healthy controls were also shown. Mitochondrial respiration indexes for patients with BD in remission as compared to healthy controls were altered in accordance with the previous phase of the disease. Association between the...

Farmakologické modifikace potenciálních signálních systémů regulujících metabolismus adipocytů a hepatocytů a jejich vliv na obezitu / Pharmacological modifications of potential signal systems regulating metabolism of adipocytes and hepatocytes and their influence on obesity

Hodis, Jiří

January 2011

v anglickém jazyce: Thesis abstract: Background and aims: Both obesity and metabolic syndrome form severe health problems in the whole world. Nevertheless the armament of pharmacotherapy for both diseases remains unsatisfactory. We aimed our work to main organs in risk of the mentioned diseases -liver and visceral fat using hepatocytes and visceral adipocytes as model. We detected 3 main metabolic and signalization activities- glycogenolysis, Nitric oxide (NO) production and transcription of inducible NO synthase (iNOS) in hepatocytes, lipolysis, NO production and iNOS transcription rate in adipocytes. We directed our interest to combination of peroxisome proliferation activator receptor γ (PPARγ) agonist, antagonist and β3 adrenergic agonist in the culture of epididymal rat adipocytes in the first part of our work. While in the second part we investigated the influence of β and α adrenergic mimetics, adrenergic blockers in the culture of rat high glycogen content hepatocytes. Methods: NO production was detected under the active agents treatments by detection of NO oxidative products NO2 and NO3 in media. Glycogenolysis was measured as free glucose rise released by hepatocytes into the media. NOS transcription level was extrapolated after comparative polymerase chain reaction with reverse...

Reciprocal regulation of transketolase-like 1 and hypoxia-inducible factor 1 alpha in metabolic reprogramming and growth of diffuse midline glioma, H3 K27M-mutant

Waker, Christopher Andrew

12 August 2022

No description available.

Biomedical Research

Cellular Biology

Oncology

glioma

brain

metabolism

glycolysis

mitochondrial respiration

epigenetics

tumor

hypoxia

pentose phosphate pathway

transketolase-like 1

hypoxia-inducible factor 1 alpha

proliferation

chemotherapy

diffuse midline glioma

histone

H3 K27M

TKTL1

HIF1A