Studying the Role of Peroxiredoxin 1 in ROS Modulation and Drug Resistance / Etude du rôle de la Peroxiredoxine 1 dans la modulation redox et la résistance aux drogues anticancéreuses

He, Tiantian

04 July 2014

Les peroxyrédoxines sont des enzymes essentielles de la cellule. Outre leur rôle d’antioxydant, elles sont aussi des régulateurs de la signalisation cellulaire et des suppresseurs de tumeurs. La péroxiredoxine 1 (Prx1) est la plus abondante parmi les six isoformes de peroxyrédoxines humaines. Elle est fréquemment surexprimée dans plusieurs types de cellules cancéreuses, et on a pu associer Prx1 aux processus de carcinogenèse et de métastase, ainsi qu’à la résistance à la radiothérapie ou la chimiothérapie. Ainsi, Prx1 pourrait donc être une cible anticancéreuse intéressante. Au cours de ce travail de thèse, nous avons d’abord évalué l'impact d’une diminution de Prx1 (Prx1 knockdown (Prx1–)) sur la sensibilité cellulaire à des dizaines de médicaments anticancéreux dont la vinblastine, le taxol, la doxorubicine, la daunorubicine, l’actinomycine D, et le 5-fluorouracile, et d’agents connus pour provoquer la production d’espèces réactives de l’oxygène (ROS), dont le peroxyde d'hydrogène, le 2-phényléthyle isothiocyanate, le β-lapachone (β-lap) et la ménadione. Nous avons mis en évidence qu’une diminution de Prx1 augmente significativement la sensibilité des cellules à l'effet cytotoxique de la β-lap et de la ménadione, deux naphtoquinones possédant une activité anti-tumorale.Nous avons étudié les mécanismes responsables de l'augmentation de la cytotoxicité de la β-lap dans un contexte Prx1–. Nous montrons que la toxicité accrue de la β-lap dans des cellules Prx1– est due à une accumulation intracellulaire de ROS. Cet effet est dépendant de l’activité NADPH quinone oxydoréductase (NQO1) et s’accompagne d’une phosphorylation de c-Jun N-terminal kinases (JNK), protein 38 (p38), extracellular signal-regulated kinases (Erk) et des mitogen-activated protein kinases (MAPK), mais aussi d’une diminution des niveaux protéiques de la thiorédoxine 1. En se basant sur le fait que Prx1 est une enzyme antioxydante et un partenaire d'au moins ASK1 et JNK, deux éléments clés de la voie MAPK, nous proposons que la sensibilisation à la β-lap, observée après diminution de Prx1, est provoquée par une action synergique entre l'accumulation de ROS et l'induction de la voie MAPK, conduisant ainsi à l'apoptose.Nous avons ensuite étudié les mécanismes responsables de l'augmentation de la cytotoxicité de la ménadione dans le contexte Prx1–. La sensibilité accrue des cellules à l'effet cytotoxique de la ménadione et également associée à l'accumulation rapide et massive des ROS intracellulaire et à une mort cellulaire ressemblant à la nécrose programmée (necroptosis). L’accumulation de ROS induite par la ménadione et très rapidement détectée dans le cytosol, le noyau, et de façon encore plus importante, dans la matrice mitochondriale. Ce phénomène est en corrélation avec l'oxydation importante des thiorédoxine 2 et peroxiredoxine 3, deux protéines antioxydantes localisées dans la mitochondrie. La diminution de l’expression de Prx1 s’accompagne d’une augmentation des quantités tant de l’ARNm que de la protéine NRH: quinone oxydoréductase 2 (NQO2). Cette augmentation de l'activité de NQO2 est en grande partie responsable de l'accumulation intracellulaire de ROS et de la mort cellulaire après le traitement à la ménadione. Nos données révèlent que l’accumulation de ROS dans les cellules Prx1– provient de la résultante entre l’augmentation de leur production par NQO2 au cours du métabolisme de la ménadione et la diminution de leur élimination par Prx1. Enfin et de façon surprenante, selon la nature des naptoquinones (β-lap ou ménadione), les voies métaboliques qui conduisent à l'accumulation des ROS, ou les voies de signalisation et les mécanismes de mort cellulaire impliqués semblent être distincts. / Peroxiredoxins have multiple cellular functions as major antioxidants, signaling regulators, molecular chaperones and tumor suppressors. Peroxiredoxin 1 (Prx1) is the most abundant among the six isoforms of human peroxiredoxins. It is frequently over-expressed in various cancer cells, which is known associated with carcinogenesis, metastasis and resistance to radiotherapy or chemotherapy. Prx1 could thus be an interesting anticancer target. In this study, we first evaluated the impact of Prx1 knockdown (Prx1–) on cellular sensitivity to dozens of anticancer drugs including vinblastine, taxol, doxorubicin, daunorubicin, actinomycin D, and 5-fluorouracil, and of reactive oxygen species (ROS)-generating agents, including hydrogen peroxide, 2-phenylethyl isothiocyanate, β-lapachone (β-lap) and menadione. We observed that Prx1 knockdown significantly enhanced cancer cell sensitivity to β-lap and menadione, two naphthoquinones with anti-cancer activity.We first investigated the underlying mechanisms responsible for the specifically enhanced cytotoxicity to β-lap in a Prx1 knockdown context. Prx1 knockdown markedly potentiated β-lap-induced cytotoxicity through ROS accumulation. This effect was largely NAD(P)H:quinone oxidoreductase 1 (NQO1)-dependent and associated with the phosphorylation of c-Jun N-terminal kinases (JNK), protein 38 (p38) and extracellular signal-regulated kinases (Erk) proteins in mitogen-activated protein kinase (MAPK) pathways, and a decrease in thioredoxin 1 protein levels. Based on the fact that Prx1 is a major ROS scavenger and a partner of apoptosis signaling kinase 1 (ASK1) and JNK, two key components of MAPK pathways, we propose that Prx1 knockdown-induced sensitization to β-lap is achieved through the combined action of ROS accumulation and MAPK pathway activation, leading to cell apoptosis.We then investigated the underlying mechanisms responsible for the specifically enhanced cytotoxicity to menadione in Prx1– cells. Enhanced sensitivity to menadione was associated with a rapid and significant intracellular ROS accumulation and necroptotic-like cell death. Menadione-induced ROS accumulation occurred immediately in the cytosol, the nucleus, and even more noticeably in the mitochondrial matrix, correlated with significant oxidation of both mitochondria-localized thioredoxin 2 and peroxiredoxin 3. Prx1 knockdown significantly up-regulated mRNA and protein levels of NRH: quinone oxidoreductase 2 (NQO2). Increased activity of NQO2 was largely responsible for menadione-induced ROS accumulation and consequent cell death. Our data indicate that massive ROS accumulation results from the combined effect of increased ROS generation by higher NQO2 activity during menadione metabolism, and diminished Prx1 scavenging activity. Finally and noteworthy, the metabolic pathways that lead to ROS accumulation, downstream signaling pathways and cell death mechanisms appear to be distinct for β-lap and menadione.

Espèces réactives de l’oxygène

Péroxyredoxine 1

Β-lapachone

Ménadione

NADPH quinone oxydoréductase

NRH: quinone oxydoréductase 2

Thioredoxine 1

Thioredoxine 2

La mort des cellules cancéreuses

HyPer

Necropotose

Reactive oxygen species

Peroxiredoxin 1

Β-lapachone

Menadione

NAD(P)H:quinone oxidoreductase 1

NRH:quinone oxidoreductase 2

Thioredoxin 1

Thioredoxin 2

Mitogen-activated protein kinase

C-Jun N-terminal kinases

Extracellular signal-regulated kinases

Anti-cancer

HyPer

Redox western blot

Cell death

Necroptosis

Polyfunkční dům / Mixed-use building

Hort, Martin

January 2020

Diploma thesis describes the design and processing of project documentation of the multifunctional building. The multifunctional building is located in the central part of the town Náměšť nad Oslavou. The building has 4 floors. It is partly cellared building with flat roof and walkable terraces. This building is consisted of 2 functional parts, the first part is designed for living and the second one is designed for contact with the customer. There are shops and offices. The first floor is wheelchair accessible. In the basement there is a technical background of the building and cellars for housing units. In this multifunctional building we can find 13 residential units and five offices. All of the floors are connected with staircase and lift. The Carpark and the private garden with playground are also part of this residential area. This building is based on concrete blocks. Load-bearing, peripheral walls and connecting walls are made of ceramic blocks. A monolitic ceiling construction is the combination of the iron and the concrete. Two types of insulation are used in peripheral walls. The first one is called ETICS, external thermal insulation composite system, made of polystyrene. The second type of insulation is facade cladding system where the main insulation layer is made of mineral wool. The insulation layer is replaced by XPS polystyrene where facade is in contact with the ground. Facade cladding panels are made of cement and wood fibers called Cembrit.

Modernizace bytového domu Vlhká 22, Brno / Modernization of apartment house Vlhká 22, Brno

Neduchal, Zbyněk

January 2020

The diploma thesis processes project documentation in the stage of construction for modernization of an apartment house near the center on the street Vlhká 22 in Brno. The building is divided into four residential floors and nonresidential basement and attic. On the first floor there are two residential units and the other four residential units. The foundation structures are made of solid bricks. The vertical load-bearing and non-load-bearing structures are also made of solid bricks. Exceptionally drywall partitions. In the basement, the ceiling structures are made of brick barrel vaults, above the above-ground floors there are wooden beamed ceilings. The roof structure of the building is made of purlin system with standing stool and covering of ceramic roof tiles. Three additional housing units will be built in the attic. In the basement, the masonry will be undercut by a chain saw, partly by pressure grouting and partly by a new layer with a waterproofing layer. All wood-beamed ceilings will be replaced with prefabricated ceiling beams with aerated concrete inserts without overhead slab. The garden part of the building will be insulated with mineral wool. The roof structure will be constructed from the street side as a shed roof and in the garden part a flat roof with a gradient layer of expanded polystyrene thermal insulation and a waterproofing layer of thermoplastic poleolefin.

Analýza a optimalizace datové komunikace pro telemetrické systémy v energetice / Analysis and Optimization of Data Communication for Telemetric Systems in Energy

Fujdiak, Radek

January 2017

Telemetry system, Optimisation, Sensoric networks, Smart Grid, Internet of Things, Sensors, Information security, Cryptography, Cryptography algorithms, Cryptosystem, Confidentiality, Integrity, Authentication, Data freshness, Non-Repudiation.

SCF cdc4 regulates msn2 and msn4 dependent gene expression to counteract hog1 induced lethality

Vendrell Arasa, Alexandre

16 January 2009

L'activació sostinguda de Hog1 porta a una inhibició del creixement cel·lular. En aquest treball, hem observat que el fenotip de letalitat causat per l'activació sostinguda de Hog1 és parcialment inhibida per la mutació del complexe SCFCDC4. La inhibició de la mort causada per l'activació sostinguda de Hog1 depèn de la via d'extensió de la vida. Quan Hog1 s'activa de manera sostinguda, la mutació al complexe SCFCDC4 fa que augmenti l'expressió gènica depenent de Msn2 i Msn4 que condueix a una sobreexpressió del gen PNC1 i a una hiperactivació de la deacetilassa Sir2. La hiperactivació de Sir2 és capaç d'inhibir la mort causada per l'activació sostinguda de Hog1. També hem observat que la mort cel·lular causada per l'activació sostinguda de Hog1 és deguda a una inducció d'apoptosi. L'apoptosi induïda per Hog1 és inhibida per la mutació al complexe SCFCDC4. Per tant, la via d'extensió de la vida és capaç de prevenir l'apoptosi a través d'un mecanisme desconegut. / Sustained Hog1 activation leads to an inhibition of cell growth. In this work, we have observed that the lethal phenotype caused by sustained Hog1 activation is prevented by SCFCDC4 mutants. The prevention of Hog1-induced cell death by SCFCDC4 mutation depends on the lifespan extension pathway. Upon sustained Hog1 activation, SCFCDC4 mutation increases Msn2 and Msn4 dependent gene expression that leads to a PNC1 overexpression and a Sir2 deacetylase hyperactivation. Then, hyperactivation of Sir2 is able to prevent cell death caused by sustained Hog1 activation. We have also observed that cell death upon sustained Hog1 activation is due to an induction of apoptosis. The apoptosis induced by Hog1 is decreased by SCFCDC4 mutation. Therefore, lifespan extension pathway is able to prevent apoptosis by an unknown mechanism.

STRE: stress response element

TOR: target of rapamycin

SAPK: stress activated protein kinase

ROS: reactive oxygen species

PCD: programmed cell death

rDNA: risbosomal DNA

PAK: p21 activated kinase

NAM: nicotinamide

OD: optical density

MEF2C: myocyte enhancer factor 2C

NAD+: nicotinamide adenine dinucleotide

MAPK: mitogen activated protein kinase

SRF from homo sapiens

agamous fromaArabidopsis thaliana

saccharomyces cerevisiae

IAP: inhibitor of apoptosis proteins

HOG: high osmolarity glycerol

FACS: fluorescent-activated cell sorting

ERC: extrachromosomal rDNA circles

DUBs: deubiquitinases

CR: caloric restriction

DNA: desoxirribobucleic acid

CDK: cyclin dependent kinase

ATP: adenosine triphosphate

AMP: adenosine monophosphate

AIF: apoptosis-inducing factor

TOR: Diana de la rapamicina

STRE element de resposta a l'estrés

ROS: especies reactives de l'oygen

rDNA: DNA risbosomal

PCD: mort cel·lular programada

PAK: kinassa activada per p21

OD: densitat òptica

NAM: nicotinàmida

NAD+: nicotinàmida adenina dinucleòtid

MEF2C: factor 2C activador del miócits

i SRF d'Homo sapiens

del rèptil Antirrhinum majus

AGAMOUS d'Arabidopsis thaliana

DEFICIENS

Saccharomyces cerevisiae

IAP: inhibidor de proteins d'apoptosi

HOG: Osmolaritat elevada de glicerol

ERC: cercle d'rDNA extracromosòmic

DUB: deubiquitinassa

DNA: Àcid desoxirriblonucleic

CR: restricció calòrica

CDK: kinassa dependent de ciclines

ATP: trifosfat d'adenosina

AMP: monofosfat d'adenosina

AIF: factor inductor d'apoptosi

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