Biogenesis of mitochondrial ATP synthase and its dysfunction leading to diseases / Biogenese de l’ATP synthase mitochondriale et des dysfonctions générant des maladies

Kabala, Anna Magdalena

18 December 2014

La F1FO-ATP synthase mitochondriale produit la majorité de l’énergie cellulaire chezles eucaryotes aérobes sous forme d’ATP par le processus des oxydations phosphorylantes.Chez la plupart des espèces, cette enzyme possède une origine génétique double, nucléaire etmitochondriale. Dans la première partie de ce travail, je décris la construction de modèles delevure de mutations du gène mitochondrial ATP6 de l’ATP synthase découvertes chez despatients atteints de maladies neurologiques (9185T>C and 9191T>C) ou dans des tumeurs(8716A>G, 8914C>A, 8932C>T, 8953A>G and 9131T>C). Le gène ATP6 code une sousunitéessentielle (a/6) du domaine FO de l’ATP synthase. J’ai trouvé que la mutation 9185T>Cn’affecte pas l’assemblage de l’ATP synthase, mais conduit à une diminution de la vitesse desynthèse d’ATP d’environ 30%. La mutation 9191T>C empêche presque entièrementl’incorporation de la sous-unité a/6 dans l’ATP synthase. Les cinq mutations identifiées dansles tumeurs ont un effet modeste à nul, indiquant que ces mutations ne favorisent pas latumorigenèse en affectant le processus énergétique mitochondrial, comme évoquéprécédemment. J’ai ensuite étudié la régulation de la synthèse des sous-unités a/6 et 9 dans lesmitochondries de levures. La sous-unité 9 est présente sous la forme d’un anneau de 10 copiesqui interagit avec la sous-unité 6. Durant la catalyse, la rotation de cet anneau provoque deschangements conformationnels favorisant la synthèse d’ATP dans le secteur F1 de l’ATPsynthase. Je montre que la synthèse de ces protéines est couplée à leur assemblage, demanière à ce qu’elles soient produites dans une stoechiométrie adéquate et pour éviterl’accumulation d’intermédiaires d’ATP synthase potentiellement délétères / Mitochondrial F1FO-ATP synthase produces most of the cellular energy in aerobiceukaryotes under the form of ATP in the process of oxidative phosphorylation. This enzymehas in most species a double genetic origin, nuclear and mitochondrial. In the first part of thiswork, I describe the construction of yeast models of ATP synthase mutations in themitochondrial ATP6 gene, that have been found in patients presenting with neurologicaldisorders (9185T>C and 9191T>C) and in tumors (8716A>G, 8914C>A, 8932C>T,8953A>G and 9131T>C). The ATP6 gene encodes an essential subunit (called a/6) of theATP synthase proton-translocating domain (FO). The 9185T>C mutation had no effect on theassembly of ATP synthase, but reduces the rate of ATP synthesis by 30%. The 9191T>Cmutation almost completely prevented incorporation of the subunit a/6 into the ATP synthase.The five mutations found in tumors had modest, if at all, effect, indicating that thesemutations probably do not favor tumorigenesis, as was hypothesized. In the second part of mythesis, I studied the regulation of synthesis of subunits a/6 and 9 in yeast mitochondria. Thesubunit 9 is present in 10 copies forming a ring that interacts with subunit 6. Protonmovements through the FO induce the rotation of the subunit 9-ring, which results inconformational changes that promote ATP synthesis in the catalytic sector (F1) of ATPsynthase. I discovered mechanisms that enable the coupling of the synthesis of these proteinsto their assembly, as a means to ensure the production of subunits 6 and 9 in the rightstoichiometry and to avoid accumulation of potentially harmful assembly intermediates of theATP synthase.

ATP synthase

Syndrome NARP

Cancer

Biogenese de l’ATP synthase

ATP synthase

NARP syndrome

Cancer

Biogenesis of ATP synthase

Mechanizmy regulace inhibičního faktoru IF1 / Mechanisms of regulation of inhibitory factor IF1

Sklenář, Filip

January 2020

Inhibitory factor 1 (IF1) is one of the major regulators of mitochondrial ATP synthase activity, a key enzyme of energy metabolism. Its inhibitory effects are known in conditions such as hypoxia or starvation, but the hypothesis that IF1 inhibits ATP synthase activity even under physiological conditions is still not entirely accepted. Disorders of ATP synthase regulation can be fatal to the cell and have been described, for example, in carcinogenesis and ischemia. It has also been found that silencing of the IF1 gene in pancreatic β-cells increases insulin secretion, and thus, IF1 may be important in the pathogenesis of type 2 diabetes. The goal of this work is to summarize the current knowledge about the IF1 protein and to obtain new results that will help elucidate the mechanism by which this protein regulates mitochondrial ATP synthase. Specifically, this work deals with the ratio of IF1 protein to ATP synthase in pancreatic β-cells, depending on different culture conditions. It further investigates the occurrence of post-translational modifications of the IF1 protein in pancreatic β-cells (INS- 1E model cells), which may play a role in the regulation of IF1 activity. It also deals with the cellular ATP/ADP ratio, which is one of the key factors for insulin secretion by pancreatic β-cells. An...

Effect of Structural Modulation of Polyphenolic Compounds on the Inhibition of Escherichia coli ATP Synthase

Ahmad, Zulfiqar, Ahmad, Mubeen, Okafor, Florence, Jones, Jeanette, Abunameh, Abdelmajeed, Cheniya, Rakesh P., Kady, Ismail O.

01 April 2012

In this paper we present the inhibitory effect of a variety of structurally modulated/modified polyphenolic compounds on purified F 1 or membrane bound F 1F o Escherichia coli ATP synthase. Structural modulation of polyphenols with two phenolic rings inhibited ATP synthase essentially completely; one or three ringed polyphenols individually or fused together inhibited partially. We found that the position of hydroxyl and nitro groups plays critical role in the degree of binding and inhibition of ATPase activity. The extended positioning of hydroxyl groups on imino diphenolic compounds diminished the inhibition and abridged position enhanced the inhibition potency. This was contrary to the effect by simple single ringed phenolic compounds where extended positioning of hydroxyl group was found to be effective for inhibition. Also, introduction of nitro group augmented the inhibition on molar scale in comparison to the inhibition by resveratrol but addition of phosphate group did not. Similarly, aromatic diol or triol with rigid or planar ring structure and no free rotation poorly inhibited the ATPase activity. The inhibition was identical in both F 1F o membrane preparations as well as in isolated purified F 1 and was reversible in all cases. Growth assays suggested that modulated compounds used in this study inhibited F 1-ATPase as well as ATP synthesis nearly equally.

ATP synthase inhibition

ATPase

E. coli ATP synthase

Enzyme inhibition

F F -ATP synthase 1 o

polyphenolic compounds

Chemistry

Dietary Bioflavonoids Inhibit Escherichia Coli ATP Synthase in a Differential Manner

Chinnam, Nagababu, Dadi, Prasanna K., Sabri, Shahbaaz A., Ahmad, Mubeen, Kabir, M. A., Ahmad, Zulfiqar

01 June 2010

The aim of this study was to determine if the dietary benefits of bioflavonoids are linked to the inhibition of ATP synthase. We studied the inhibitory effect of 17 bioflavonoid compounds on purified F1 or membrane bound F1Fo E. coli ATP synthase. We found that the extent of inhibition by bioflavonoid compounds was variable. Morin, silymarin, baicalein, silibinin, rimantadin, amantidin, or, epicatechin resulted in complete inhibition. The most potent inhibitors on molar scale were morin (IC50∼0.07mM)>silymarin (IC50∼0.11mM)>baicalein (IC50∼0.29mM)>silibinin (IC50∼0.34mM)>rimantadin (IC50∼2.0mM)>amantidin (IC50∼2.5mM)>epicatechin (IC50∼4.0mM). Inhibition by hesperidin, chrysin, kaempferol, diosmin, apigenin, genistein, or rutin was partial in the range of 40-60% and inhibition by galangin, daidzein, or luteolin was insignificant. The main skeleton, size, shape, geometry, and position of functional groups on inhibitors played important role in the effective inhibition of ATP synthase. In all cases inhibition was found fully reversible and identical in both F1Fo membrane preparations and isolated purified F1. ATPase and growth assays suggested that the bioflavonoid compounds used in this study inhibited F1-ATPase as well as ATP synthesis nearly equally, which signifies a link between the beneficial effects of dietary bioflavonoids and their inhibitory action on ATP synthase.

ATP synthesis

bioflavonoids

biological nanomotor

E. coli ATP synthase

F -ATPase 1

F F ATP synthase 1 o

Kinetic investigation of the mechanism underlying muscle contraction in myofibrils using T.I.R.F. microscopy

Burns, Ronald Ian Scott

January 1999

No description available.

571.4

Production and characterisation of conditionally immortal cystic fibrosis cell lines

Thomas, Emma J.

January 2000

No description available.

615.1

Molecular and genetic analysis of the vha16 gene in Drosophila melanogaster

Graham, Shirley

January 2000

No description available.

572.8

Inflammation affects ontogeny of L-carnitine hmeostasis mechanisms in the developing rat

2013 December 1900

ABSTRACT This thesis research involved investigations into the effects of inflammation on maturation of L-carnitine homeostasis in developing rat neonates. The overall hypothesis was an inflammatory stimulus will alter the ontogeny of L-carnitine homeostasis pathways and this depends upon when the inflammatory stimulus occurs in postnatal development. The objective was to investigate the potential effect of inflammation on carnitine transporter expression in different age groups of neonates and evaluation of effect of inflammation on ontogeny and activity of enzymes involved in carnitine biosynthesis and whether this differs depending upon when in postnatal development the inflammatory stimulus occurs. Rat pups at postnatal day 3, 7, and 14 received an intraperitoneal injection of lipopolysaccharide (LPS) at a dose known to cause a febrile reaction in rat neonates. L-Carnitine homeostasis pathways underwent significant ontogenesis during postnatal development in the rat. LPS administration caused a significant decrease in free L-carnitine levels in serum and heart tissue and a decrease in mRNA expression levels of the high affinity carnitine transporter, Octn2, in kidney, heart and intestine at all postnatal ages. Furthermore, significant decreases in mRNA expression levels of key enzymes involved in carnitine biosynthesis was observed, while an increase in carnitine palmitoyltransferase mRNA levels were observed at all postnatal ages. Reductions in butyrobetaine hydroxylase mRNA expression were paralleled by reductions in enzyme activity only at postnatal day 3 and 7. Heart creatine phosphate levels were deceased significantly in LPS treated groups in all postnatal ages; however, ADP and ATP levels were unaffected. Collectively, this research provided experimental evidence for a significant effect of inflammation on changes in L-carnitine homeostasis maturation in early neonatal stages. The maturation of physiological processes may be altered by external factors in early postnatal life.

L-carnitine, LPS, Octn2, ADP and ATP

HARMONIC INVESTIGATION IN LOW AND MEDIUM VOLTAGE NETWORKS USING COMPUTER SIMULATION AND MEASUREMENT DEVICES

Egner, Sean Robert William

31 October 2006

Student Number : 9811492X - MSc dissertation - School of Electrical and Information Engineering - Faculty of Engineering and the Built Environment / This dissertation discusses the development of an ATP model of a network to aid measurement techniques in a harmonic evaluation. A theoretical back- ground discussion of various pieces of equipment and their signi#12;cance to har- monics is included. National Electricity Regulator (NRS 048) standards are discussed with refer- ence to performing a basic investigation and short comings. A test study was performed on the Brandspruit Mine in Secunda. ATP models are developed for equipment relevant to the test case, these in- clude AC{AC converters, AC{DC converters, three phase transformers and cables. Finally the measured test case is compared to simulation results and conclusions drawn.

harmonics

ATP

modelling

variable speed drives

VSO

Zastoupení komponent ATP synthasomu v různých tkáních potkana a u pacientů s defektem ATP synthasy / The content of components of ATP synthasome in different rat tissues and in patients with defects in ATP synthase

Mikulová, Tereza

January 2012

The complexes of oxidative phosphorylation (OXPHOS) are situated in the inner mitochondrial membrane in higher structural and functional complexes, so-called supercomplexes, which facilitates substrate channeling. ATP synthase is also able to organize in higher structures. In mammalian mitochondria, ATP synthase is usually present in a dimeric form. There is evidence of its trimerization and even tetramerization. Furthermore, it seems that ATP synthase catalyzing the phosphorylation of ADP to ATP, adenine nucleotide translocator (ANT) ensuring the exchange of ADP for newly synthesized ATP across the inner mitochondrial membrane and phosphate carrier (PiC) allowing the import of inorganic phosphate (Pi) into the matrix of mitochondria are assembled in a supercomplex called ATP synthasome. This association among the components of phosphorylative apparatus seems to increase the efficiency of processes leading to the ATP synthesis. First, we studied amounts of the components of phosphorylative apparatus in connection with various ATP synthase contents among mitochondria isolated from nine rat tissues. Mitochondrial proteins were separated by denaturing electrophoresis (SDS-PAGE) and their content was analyzed using specific antibodies. In agreement with our expectations, the highest content of...