Úloha mitochondriální dráhy v indukci apoptózy taxany u buněk nádorů prsu / Role of the mitochondrial pathway in apoptosis induction by taxanes in breast cancer cells

Schmiedlová, Martina

January 2012

Apoptosis represents one of the cell death mechanisms which is realized after the application of taxanes in breast cancer cell lines. Apoptosis induction can be principally triggered either by outer or inner pathway. The aim of the diploma thesis is to contribute to the elucidation of role and mechanisms of the inner mitochondrial pathway of apoptosis induction after taxane application (paclitaxel and SB-T-1216) employing a model of breast carcinoma cell lines SK- BR-3 (nonfunctional p53, functional capase-3) and MCF-7 (functional p53, nonfunctional caspase-3). Specifically, we tested the effect of both employed taxanes on mitochondrial membrane potential, ROS level and the expression and localization of proteins regulating inner mitochondrial pathway. Taxane application resulted in mitochondrial membrane dissipation in SK-BR-3 cell line. However, this was not shown in MCF-7 cell line. We found no changes in Bax and Smac/DIABLO expression after taxane application in both tested cell lines. There was a decrease of Bid expression after taxane application in SK-BR-3 line, but not in MCF-7 line. Taxane application did not lead to the translocation of Bax and Bid (tBid) proteins from cytosol to mitochondria in both tested cell lines. Similarly, there was no Smac/DIABLO release from mitochondria to...

Analysis of Mitochondrial Signaling in the Regulation of Programmed Cell Death

Hui, Kelvin Kai-Wan

31 August 2011

The involvement of mitochondrial signaling in mammalian PCD regulation has been examined extensively via biochemical analyses and cellular studies in vitro. However there still exist considerable gaps in our knowledge regarding its contribution in specific tissues and cell types during mammalian development in vivo. In addition, given the numerous pathologic conditions associated with aberrant PCD, modulation of this signaling process represents an attractive target for therapeutic intervention. In this thesis I have therefore examined the regulation of mitochondrion-mediated PCD signaling as it pertains to several forms of developmental and injury-induced cell death. In the first component of the thesis I have examined the differential sensitivity of Bcl2 on the survival of motor neuron populations from two distinct developmental origins (alpha and gamma motor neurons), demonstrating that gamma motor neurons are preferentially affected in Bcl2 null mice. Thus, Bcl-2 plays a critical in vivo in regulating subtype-specific motor neuron survival during development. In the second study I have demonstrated that a major portion of the neuroprotective effect exerted by the immunophilins cyclosporin A and FK-506 are mediated through calcineurin signaling; rather than MOMP-mediated events as previously held. Additional findings of this study demonstrated the first neuroprotective effects of the pyrethroid insecticide cypermethrin and calcineurin-mediated control of Bad phosphorylation. Such findings establish a link between calcineurin signaling and mitochondrion-mediated cell survival. The above studies established critical features of mitochondrion-mediated PCD in regulating survival of several neuronal subpopulations. I therefore followed these studies with an examination of how post-mitochondrial PCD signaling is regulated following MOMP permeabilization. Specifically I examined regulation of the Smac-IAP-caspase axis, investigating how combinatorial deletion of Casp3 and Diablo alter PCD progression in mouse embryonic fibroblasts. Using a series of injury stimuli in the context of biochemical and cellular analyses I have developed a model of how endogenous Smac/DIABLO regulates executioner caspase activity. Collectively these studies elucidate key aspects of mitochondrial signaling during both developmental and injury-induced PCD in vivo.

programmed cell death

mitochondria

development

acute neural injury

Bcl-2

calcineurin

caspases

inhibitor of apoptosis proteins

Smac/DIABLO

genetic modification

immunophilin ligands

neuroprotection

gamma motor neurons

0317

0379

0307

0419

Analysis of Mitochondrial Signaling in the Regulation of Programmed Cell Death

Hui, Kelvin Kai-Wan

31 August 2011

The involvement of mitochondrial signaling in mammalian PCD regulation has been examined extensively via biochemical analyses and cellular studies in vitro. However there still exist considerable gaps in our knowledge regarding its contribution in specific tissues and cell types during mammalian development in vivo. In addition, given the numerous pathologic conditions associated with aberrant PCD, modulation of this signaling process represents an attractive target for therapeutic intervention. In this thesis I have therefore examined the regulation of mitochondrion-mediated PCD signaling as it pertains to several forms of developmental and injury-induced cell death. In the first component of the thesis I have examined the differential sensitivity of Bcl2 on the survival of motor neuron populations from two distinct developmental origins (alpha and gamma motor neurons), demonstrating that gamma motor neurons are preferentially affected in Bcl2 null mice. Thus, Bcl-2 plays a critical in vivo in regulating subtype-specific motor neuron survival during development. In the second study I have demonstrated that a major portion of the neuroprotective effect exerted by the immunophilins cyclosporin A and FK-506 are mediated through calcineurin signaling; rather than MOMP-mediated events as previously held. Additional findings of this study demonstrated the first neuroprotective effects of the pyrethroid insecticide cypermethrin and calcineurin-mediated control of Bad phosphorylation. Such findings establish a link between calcineurin signaling and mitochondrion-mediated cell survival. The above studies established critical features of mitochondrion-mediated PCD in regulating survival of several neuronal subpopulations. I therefore followed these studies with an examination of how post-mitochondrial PCD signaling is regulated following MOMP permeabilization. Specifically I examined regulation of the Smac-IAP-caspase axis, investigating how combinatorial deletion of Casp3 and Diablo alter PCD progression in mouse embryonic fibroblasts. Using a series of injury stimuli in the context of biochemical and cellular analyses I have developed a model of how endogenous Smac/DIABLO regulates executioner caspase activity. Collectively these studies elucidate key aspects of mitochondrial signaling during both developmental and injury-induced PCD in vivo.

programmed cell death

mitochondria

development

acute neural injury

Bcl-2

calcineurin

caspases

inhibitor of apoptosis proteins

Smac/DIABLO

genetic modification

immunophilin ligands

neuroprotection

gamma motor neurons

0317

0379

0307

0419

Jahresbericht 2014 / Universitätsbibliothek Chemnitz / Annual Report 2014 / University Library of Chemnitz

Malz, Angela

06 October 2015

Jahresbericht der Universitätsbibliothek Chemnitz und des Universitätsarchivs- Berichtsjahr 2014 / Annual report of the University Library of Chemnitz and the University Archive in 2014

Forschung

Studium

Lehre

hybride Bibliothek

Lern- und Kommunikationsort

Open Access

Informationskompetenz

Wissens- und Technologietransfer

Netzwerke

Dublettenprüfung Zeitschriften

Swets Insolvenz

digitale Bibliothek

überarbeiteter Entwurf Aktienspinnerei

Facebook

finc-Nutzergemeinschaft

smac

Bestandserhaltung

Veranstaltungen

Personal

Weiterbildungen

Tag der Archive

Archivportal D

Mitteldeutscher Archivverbund

hybrid library

network

Patent information center

information services

university archive

events

ddc:020

ddc:050

Chemnitz / Universitätsbibliothek

Open Access

Informationskompetenz

Weiterbildung

Mitarbeiter

Patentinformationszentrum

Katalog

Universitätsarchiv

Hybridbibliothek

Wissens- und Technologietransfer

Netzwerk

Dienstleistung

Jahresbericht 2014 / Universitätsbibliothek Chemnitz

Malz, Angela

06 October 2015

Jahresbericht der Universitätsbibliothek Chemnitz und des Universitätsarchivs- Berichtsjahr 2014 / Annual report of the University Library of Chemnitz and the University Archive in 2014

info:eu-repo/classification/ddc/020

ddc:020

info:eu-repo/classification/ddc/050

ddc:050

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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