Fungal response to plant sugars: nutrition, metabolic state changes, and differentiation switching / 糸状菌の植物糖応答：栄養利用，代謝状態変化，ならびに形態分化スイッチング

Yoshida, Hiroshi

25 March 2019

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21837号 / 農博第2350号 / 新制||農||1069(附属図書館) / 学位論文||H31||N5209(農学部図書室) / 京都大学大学院農学研究科地域環境科学専攻 / (主査)教授 田中 千尋, 教授 本田 与一, 准教授 刑部 正博 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM

arabinose

conidiation

hexose monophosphate shunt

NADPH oxidase

reactive oxygen species

xylan

610

Valproic Acid Leads to an Increase in ROS Generation by Inhibiting the Deacetylation of Mitochondrial SOD

Lucas, Stephen Marc

03 August 2020

Valproic Acid Promotes Acetylation of Superoxide Dismutase-2 During Neurogenesis. Valproic acid (VPA) is a known developmental toxicant associated with a high prevalence of neural tube defects (NTD). The mechanism of VPA-induced NTD is unclear, but oxidative stress may be implicated. To understand how embryotoxic oxidative stress may occur, we measured superoxide dismutase (SOD) activity following VPA treatment in the embryonic pluripotent P19 mouse carcinoma cell line. In undifferentiated P19 cultures treated with VPA (5 mM), dichlorofluorescein fluorescence increased 15% compared to untreated controls over 20 min, indicating a modest, yet statistically significant increase in ROS generation. Undifferentiated P19 cells were treated with VPA for 6 h, after which total SOD and mitochondrial SOD (SOD2) activities were measured. VPA treatment decreased total SOD activity by approximately 20% but SOD2 activity was undetectable; but this was not a consequence of changes to SOD (SOD1 or SOD2) protein concentrations. Interestingly, glutathione redox state increased from -262 mV to -245 mV after a 6 h treatment with VPA, indicating significant oxidation of the cellular redox environment. Measurement of mitochondrial superoxide levels showed an increase following VPA treatments. While it is unlikely that VPA works directly as an oxidant, these data suggest that VPA may promote oxidative stress through an alternative means, such as via the inhibition of SOD activity and thus, allow for an increase in ROS. Importantly, VPA is a known deacetylase inhibitor, and SOD2 function is regulated by acetylation. As such, we evaluated the acetylation state of SOD2 to determine potential disruption via acetylation. Treated undifferentiated P19 cells showed a significant increase in SOD2 acetylation. However, in fully differentiated P19-derived neurons, cells showed no such SOD2 acetylation. Additionally, pretreatment with dithiole-3-thione (D3T), a Nrf2 activator of the antioxidant response, attenuated VPA-induced mitochondrial ROS production and SOD2 acetylation and improved SOD2 activity, suggesting Nrf2 as a potential means to reduce VPA-mediated oxidative stress. To evaluate the effects in the embryo proper, gestational day 8 mouse embryos were treated with VPA in culture for 6 h. Similar to P19 cells, VPA-treated neurulating embryos showed significant SOD2 acetylation and a concomitant decrease in total SOD activity. These data support a similar consequence of VPA-induced oxidative stress in embryos as is demonstrated in our cellular model. Since no SOD2 acetylation is observed in differentiated neurons and VPAinduced SOD2 acetylation occurs more prevalently in undifferentiated/differentiating cells, these data purport means by which VPA preferentially induces oxidative stress in developing systems.

SOD2

reactive oxygen species

neural tube defects

deacetylation inhibition

Life Sciences

Investigating a novel in vitro embryo culture system – The Walking Egg Affordable Assisted Reproductive Technology

Boshoff, Gerhardus Marthinus

January 2017

Introduction: The desire to have a biological child transcends race, religion and socio-economic status. However for those faced with infertility, the financial resources needed to conceive are often not available. Current research in assisted reproduction has gravitated towards cost reduction to address restricting financial factors, without compromising quality of treatment. One such initiative is the development of a low-cost embryo culture method by The Walking Egg foundation. This method utilizes a standard chemical reaction and simple equipment to equilibrate culture media pH and to regulate temperature; both aspects were investigated in this study. An exploration into the insemination concentration to achieve oocyte fertilization was also undertaken. Methods: Quality control of temperature regulation on six different heating devices, including a comparison of inter- and intra-variations was carried out. The utilization of citric acid and bicarbonate of soda for carbon dioxide production, which subsequently facilitate setting of pH values, was tested by injecting increasing citric acid volumes (1.2 ml – 3.0 ml in 0.2 ml increments) into set volumes of bicarbonate of soda. Further investigation evaluated gas production at various temperatures (37°C, 25°C and 15°C), at increasing intervals (16 – 30 hours) of equilibration and these were compared by measuring pH of the culture media. The influence of altitude on pH was explored by repeating the chemical reaction experiment at five different locations in South Africa. Furthermore, the addition of water to citric acid before gas generation was explored. The minimal insemination concentration needed for fertilization was determined by the addition of decreasing numbers of spermatozoa to non-fertilized bisected oocytes. The experiment was repeated with a selected sperm insemination number in 1 ml or 50 μl culture media to compare the tested culture system with conventional culture. Spermatozoa bound to the hemi-zonae were counted with the aid of an inverted phase contrast microscope. Hemi-zonae with bound sperm were also stained with ethidium homodimer and evaluated using a confocal laser-scanning microscopy system. After removal of hemi-zonae, the spermatozoa in culture were isolated for deoxyribonucleic acid fragmentation analyses and reactive oxygen species presence in the culture media was measured. Additionally, reactive oxygen species generation in simulated culture was measured over time. Results: All the equipment tested bar one, the warming oven, proved useable with the simplified Walking Egg in vitro fertilization culture system. By decreasing the citric acid volumes, it was indicated that 1.8 ml citric acid, diluted with 1.2 ml water, is the optimal volume to facilitate the required culture media pH. Omitting the water dilution from citric acid volumes affected the culture media pH adversely, however reducing the temperature during gas equilibration did not. A change in altitude had no effect on culture media pH. Lower insemination numbers resulted in decreased sperm binding, with 2 x 103 motile sperm insemination providing the lowest number to still obtain sufficient sperm–zona binding (≥20 sperm bound). Incubation in 1 ml vs. 200 μl culture media indicated decrease in sperm bound. Sperm deoxyribonucleic acid fragmentation and the presence of reactive oxygen species in the culture media were similar in both the test and control groups. A comparison over time revealed less reactive oxygen species in 1 ml culture media, from the simplified Walking Egg in vitro fertilization culture system after three days of culture, than 200 μl culture media drops under oil, from conventional culture after 18 hours, however the results were not statistically significant. Discussion: Purpose-made heating devices provide superior stabilization of culture media temperature. When selecting a heating device, intra-variations should be considered. Culture media can be manipulated to the required pH by carbon dioxide production, with meticulous attention paid to the citric acid volumes used. However, if gas generation is performed at room temperature, equilibration time must be increased. In conventional culture, the minimum insemination number can be reduced to 2 x 103 motile sperm. Due to lower binding of sperm in large volumes of culture media, 2 – 5 x 103 motile sperm should be considered for the simplified culture system, depending on a holistic consideration of all sperm parameters. Extended culture for at least three days with the simplified culture system can be performed without increasing reactive oxygen species present in culture media. Further research of this novel culture method should include the application of the culture method in a South African environment. / Dissertation (MSc)--University of Pretoria, 2017. / Obstetrics and Gynaecology / MSc / Unrestricted

Affordable assisted reproduction

Developing countries

DNA fragmentation

pH

Quality control

Reactive oxygen species

Temperature

The walking egg

Úloha signalizační dráhy Hippo v regulaci metabolismu nádorových buněk. / The role of Hippo Signalling pathway in tumor cell metabolism

Lettlová, Sandra

January 2013

Vitamine E analogues α-tocopheryl succinate (α-TOS) and mitochondrially targeted vitamine E succinate (MitoVES) are anti-cancer agents from the group of "mitocans", the compounds acting via mitochondria which present a promising invariant target for cancer cell therapy. α-TOS and MitoVES induce apoptosis selectively in various cancer cell types involving generation of reactive oxygen species (ROS). Generated superoxid anion radicals in response to α-TOS and MitoVES are believed to be converted into hydrogen peroxide that is known to activate Mammalian sterile 20-like kinase (Mst1), the central component of Hippo signalling pathway, that presents an universal size control mechanism in all metazoans and its deregulation is linked to tumourigenesis. MitoVES and α-TOS were both reported to activate Mst1 that phosphorylates Forkhead box O1 (FoxO1) transcription factor resulting in its transport to nucleus where induce the expression of pro-apoptotic genes, including NOXA, and thus promote apoptosis. The target of Hippo signalling pathway is transcriptional co- activator Yes-associated protein (Yap) which was found in Drosophila melanogaster to regulate the expression of transcription factor c-Myc which is known as the most prominent human oncogene. This thesis focused on involvement of Hippo signalling...

Ovlivnění jaterního metabolismu ethanolu dihydromyricetinem / Effect of dihydromyricetin on hepatic ethanol metabolism

Boubínová, Gabriela

January 2020

Dihydromyricetin (DMH) is a natural flavonoid compound with positive effects on the human organism. In traditional Chinese medicine, plants containing DMH were used to treat liver diseases and to reduce alcohol intoxication. The effects of DHM on ethanol metabolism are not yet completely understood. Effects of DHM during alcohol intoxication were studied on primary hepatocytes of rats. DCFDA and DHR probes were used to prove that DHM (depending on concentration) reduces the number of reactive oxygen and nitrogen species in primary hepatocytes. However, the hepatoprotective effects of DHM were not achieved when presence of the alanine aminotransferase (ALT) was used to measure the damage of cells exposed to alcohol. Further, the effects of DHM on alcohol metabolism were studied in vivo. Rats were administered with single dose of ethanol or ethanol combined with DHM. Measured blood levels of ethanol and acetaldehyde show that DHM has no effects on the rate or levels of alcohol metabolism. The effects of DHM were also studied with repeated alcohol administration. In the group that was administered also DHM, increased blood levels of ethanol were measured. This points that DHM slow down the metabolic rate of ethanol. Obtained results did not prove any positive effects of DHM on alcohol metabolism....

Evaluation des Antwortverhaltens des genetisch kodierten optischen Redox-Indikators HyPer / Evaluation of the response properties of the genetically encoded optical redox-sensor HyPer

Weller, Jonathan

25 June 2020

No description available.

610

HyPer

reaktive Oxygen-Spezies

HyPer

Redoxsignaling

Oxidative stress

Reactive oxygen species

Free radicals

Medizin (PPN619874732)

Aging and kinase kinetics of Y77E11.A and Y17G7B.10 in C. Elegans

Goodlaxson, Jacob

12 April 2019

Aging and kinase kinetics of Y77E11.A and Y17G7B.10 in C. Elegans Jacob Goodlaxson, Department of Biomedical Sciences, College of Medicine, East Tennessee State University, Johnson City, TN. The free radical theory of aging suggests that free radical induced oxidative damage may play a role in the pathogenesis of age-related neurological diseases. The reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) protects against redox stress by providing reducing equivalents to antioxidants such as glutathione and thioredoxin. A measurement of the kinase kinetics of nicotinamide adenine dinucleotide demonstrated a decline in the rate of conversion from NAD into NADP. A homeostatic relationship of NADPH and NADP+ in mitochondria and cytosol may prevent the progression of aging due to the amelioration of the reactive oxygen species (ROS), and other charged particles. The NAPD+ cation is the chief acceptor of negatively charged particles which ionize and create free radical ions. Two previously uncharacterized proteins, Y77E11.A (NADK1) and Y17G7B.10 (NADK2), were studied for their possible kinetic role in producing and maintaining NADPH levels. The roles of NADK1 and NADK2 were determined by taking whole worm lysates of Caenorhabditis elegans deficient of these proteins, followed by supplementation with NAD, then monitoring of NADP levels. These two proteins were statistically important in the conversion of NAD to NADP+. These NADK’s displayed statistically significant reduction in NADP production which could lead to more redox stress. This research indicates that pro-longevity therapies should aim to maintain elevated levels of NADPH and NADP+ to hinder the aging process.

Aging

Reactive Oxygen Species

Alzheimer's

Kinase

NADPH

Stress Response

Alzheimers Disease

Control of Uncoupling Protein-1 (UCP1) by Phosphorylation and the Metabolic Impact of Ectopic UCP1 Expression in Skeletal Muscle of Mice

Adjeitey, Cyril

January 2013

UCP1 is a member of the mitochondrial transmembrane anion carrier protein superfamily and is required to mediate adaptive thermogenesis in brown adipose tissue (BAT). Once activated, UCP1 uncouples mitochondrial respiration from ATP synthesis, thereby wasting the protonmotive force formed across the mitochondrial inner membrane as heat. It is hypothesized that proton leaks through UCP1 could be a molecular target to combat certain forms of obesity. Although it is well established that UCP1 is regulated by allosteric mechanisms, alternative methods such as post-translational modification still remain to be explored. The aims of the present study were to confirm the phosphorylation of UCP1 and the physiological relevance of this modification. Using isoelectric focusing, we confirmed that UCP1 displayed acidic shifts consistent with phosphorylation in BAT mitochondria isolated from cold exposed versus warm acclimated mice. A mouse model that ectopically expressed UCP1 in skeletal muscle was used to explore the link between the mitochondrial redox status and UCP1 function. Our results show that the expression of UCP1 in skeletal muscle led to decreases in body and tissues weights. In contrast, glucose uptake into skeletal muscle, food intake and energy expenditure was increased with the expression of UCP1. Finally, proton leaks through UCP1 were determined to be increased in isolated mitochondria from transgenic versus wild-type mice. Taken together these results indicate a complex interplay between mitochondrial redox status, post-translational modification and UCP1 function. Elucidation of novel mechanisms regulating UCP1 offers alternatives strategies that can be explored in order to modulate BAT thermogenesis.

UCP1

reactive oxygen species

proton leak

glutathione

redox

obesity

covalent modification

phosphorylation

Oxidative Stress, Proton Fluxes, and Chloroquine/Hydroxychloroquine Treatment for COVID-19

Klouda, Christina B., Stone, William L.

01 September 2020

Chloroquine (CQ) and hydroxychloroquine (HCQ) have been proposed as treatments for COVID-19. These drugs have been studied for many decades, primarily in the context of their use as antimalarials, where they induce oxidative stress-killing of the malarial parasite. Less appreciated, however, is evidence showing that CQ/HCQ causes systemic oxidative stress. In vitro and observational data suggest that CQ/HCQ can be repurposed as potential antiviral medications. This review focuses on the potential health concerns of CQ/HCQ induced by oxidative stress, particularly in the hyperinflammatory stage of COVID-19 disease. The pathophysiological role of oxidative stress in acute respiratory distress syndrome (ARDS) has been well-documented. Additional oxidative stress caused by CQ/HCQ during ARDS could be problematic. In vitro data showing that CQ forms a complex with free-heme that promotes lipid peroxidation of phospholipid bilayers are also relevant to COVID-19. Free-heme induced oxidative stress is implicated as a systemic activator of coagulation, which is increasingly recognized as a contributor to COVID-19 morbidity. This review will also provide a brief overview of CQ/HCQ pharmacology with an emphasis on how these drugs alter proton fluxes in subcellular organelles. CQ/HCQ-induced alterations in proton fluxes influence the type and chemical reactivity of reactive oxygen species (ROS).

chloroquine

COVID-19

hydroxychloroquine

oxidative stress

proton fluxes

reactive oxygen species

SARS-CoV-2

β-Glucan Size Controls Dectin-1-Mediated Immune Responses in Human Dendritic Cells by Regulating IL-1β Production

Elder, Matthew J., Webster, Steve J., Chee, Ronnie, Williams, David L., Hill Gaston, J. S., Goodall, Jane C.

07 July 2017

Dectin-1/CLEC7A is a pattern recognition receptor that recognizes β-1,3 glucans, and its stimulation initiates signaling events characterized by the production of inflammatory cytokines from human dendritic cells (DCs) required for antifungal immunity. β-glucans differ greatly in size, structure, and ability to activate effector immune responses from DC; as such, small particulate β-glucans are thought to be poor activators of innate immunity. We show that β-glucan particle size is a critical factor contributing to the secretion of cytokines from human DC; large β-glucan-stimulated DC generate significantly more IL-1β, IL-6, and IL-23 compared to those stimulated with the smaller β-glucans. In marked contrast, the secretion of TSLP and CCL22 were found to be insensitive to β-glucan particle size. Furthermore, we show that the capacity to induce phagocytosis, and the relative IL-1β production determined by β-glucan size, regulates the composition of the cytokine milieu generated from DC. This suggests that β-glucan particle size is critically important in orchestrating the nature of the immune response to fungi.

dectin-1

dendritic cell

IL-1β

phagocytosis

reactive oxygen species

β-glucan

Surgery