Rôles et mécanismes d’action de la protéine Epac dans l’hypertrophie cardiaque / Functions and signaling of Epac protein in cardiac hypertrophy

Laurent, Anne-Coline

17 July 2013

Les catécholamines induisent la synthèse d’AMPc par une stimulation des récepteurs β-adrénergiques et contrôlent ainsi la fonction cardiaque en activant une pléiade de voies de signalisation intracellulaires. Les protéines Epac sont des facteurs d’échange pour les petites protéines G et sont directement activés par l’AMPc. Devant l’importance de la voie β-adrénergique dans la physiopathologie cardiaque et dans le but de mieux comprendre la régulation des processus cellulaires dépendants de l’AMPc dans le cœur, il apparaît essentiel de caractériser le rôle des facteurs d’échange Epac dans le myocarde. Dans une première partie, cette étude démontre que les effets de Epac sur l’hypertrophie des cardiomyocytes ventriculaires de rats nouveaux nés requièrent les GTPases H-Ras et Rap2B. Epac active la voie PLC/IP3/Ca2+ qui est nécessaire pour l’activation de H-Ras. Au niveau transcriptionnel, Epac induit l’export nucléaire de HDAC4 permettant l’activation d’un programme génique d’hypertrophie. Dans une deuxième partie, cette étude révèle l’implication de Epac1 dans l’hypertrophie des cardiomyocytes in vivo, chez la souris. La délétion de Epac1 protège du remodelage cardiaque induit par l’activation prolongée des récepteurs β-adrénergiques et améliore la fonction cardiaque. La surexpression de Epac1 spécifiquement dans le myocarde entraîne une hypertrophie des cardiomyocytes. Par ailleurs, la voie β-AR/Epac1 induit l’accumulation de protéines ubiquitinylées et provoque l’activation du processus d’autophagie in vitro et in vivo. L’autophagie protège des effets délétères de la voie β-adrénergique/Epac en participant à l’élimination des agrégats protéiques et en contrant les effets hypertrophiques de Epac1. Ces résultats ouvrent de nouvelles perspectives pour le traitement de l’hypertrophie et de l’insuffisance cardiaque. / Catecholamines regulate cardiac function by stimulating β-adrenergic receptors (β-AR), leading to cAMP production and activation of a multiplicity of signaling pathways. Epac proteins are exchange factors for small G proteins which are directly activated by cAMP. Given the importance of the β-adrenergic pathway in cardiac physiopathology, it becomes essential to characterize functions of Epac protein in myocardium. In a first part, this study shows that H-Ras and Rap2B GTPases are involved in Epac-induced neonatal rat cardiac myocytes hypertrophy. Epac induces activation of the PLC/IP3/Ca2+ pathway which is necessary for H-Ras activation. At the transcriptional level, Epac causes HDAC4 nuclear export leading to activation of a hypertrophic gene program. In a second part, this study reveals implication of Epac1 in cardiac hypertrophy in vivo. Deletion of Epac1 in mice protects from cardiac remodeling induced by chronic isoproterenol infusion and enhances cardiac function. Cardiac specific overexpression of Epac1 in mice induces cardiac myocytes hypertrophy. Interestingly, β-AR/Epac1 pathway triggers ubiquitinated proteins accumulation and activation of autophagy both in vitro and in vivo. By eliminating aggregates and by counteracting hypertrophic effects of Epac, autophagy protects from deleterious effects of the β-AR/Epac pathway. These results open news insights into the treatment of cardiac hypertrophy and heart failure.

Hypertrophie et insuffisance cardiaque

Autophagie

Récepteur β-adrénergique

AMP cyclique

Epac

Petites protéines G

HDAC

Protéines ubiquitinylées

Bécline 1

P62

LC3

Cardiac hypertrophy and failure

Autophagy

Β-adrenergic receptor

Cyclic AMP

Epac

Small GTPases

HDAC

Ubiquitinated proteins

Beclin 1

P62

LC3

Prognostische Relevanz der Autophagie in histologischen Subtypen des papillären Nierenzellkarzinoms / Prognostic relevance of autophagy in histological subtypes of papillary renal cell carcinoma

Schlegel, Christina

22 August 2018

No description available.

610

papilläres Nierenzellkarzinom

Autophagie

Beclin-1

LC3

p62

Immunhistochemie

papillary renal cell carcinoma

autophagy

Beclin-1

LC3

p62

immunohistochemistry

Medizin (PPN619874732)

Nivåer av det lysosomala systemets proteiner i hjärnvävnad från Alzheimerpatienter / Levels of the lysosomal network proteins in brain tissue from Alzheimer's disease patients

Westergren, Samuel

January 2014

Alzheimers sjukdom är den vanligaste orsaken till demens och i samband med att befolkningen blir större och allt äldre ökar även antalet patienter. Vid sjukdomen sker en hjärnatrofi och de mikroskopiska fynd man ser är extracellulära plack av β-amyloid, intracellulära neurofibriller av fosforylerat tau och förlust av nervcellsutskott, axoner, synapser och dendriter. Några av de tidiga patologiska förändringarna man kan se är störningar i nervcellernas lysosomala system som fyller en viktig roll vid nedbrytning av makromolekyler. I en tidigare studie har man påvisat förhöjda nivåer av proteiner från det lysosomala systemet i cerebrospinalvätska. Syftet med den här studien var att mäta nivåer av det lysosomala systemets proteiner i human hjärnvävnad från patienter med Alzheimer och jämföra dessa med kontrollprover. De sex proteiner som analyserades med Western blot var EEA1, PICALM, LAMP-1, LAMP-2, LC3 och TFEB. Resultaten visar på signifikant ökning i temporala cortex av LAMP-1 och LAMP-2 och en signifikant minskning av LC3 och EEA1 hos patienter med Alzheimers sjukdom. För att kunna dra riktiga slutsatser kring hur de ökade nivåerna i cerebrospinalvätska speglar de olika sjukdomsmekanismerna i hjärnan krävs vidare analyser av fler patientprover samt prover från andra områden i hjärnan. / Alzheimer's disease is the most common cause of dementia, and when the population becomes larger and older also the number of patients increase. A cerebral atrophy and microscopic findings of extracellular plaques of β-amyloid, intracellular neurofibrillary of phosphorylated tau and loss of nerve cell protrusions, axons, synapses and dendrites are seen during the disease. One of the early pathological changes is the disruption of the neuronal lysosomal network that plays an important role in the degradation of macromolecules. In a previous study elevated levels of proteins of the lysosomal network in cerebrospinal fluid from Alzheimer’s disease patients was demonstrated. The purpose of this study was to measure levels of the lysosomal network system in the brain. The six proteins EEA1, PICALM, LAMP-1, LAMP -2, LC3 and TFEB were analyzed in human brain tissue from five Alzheimer's disease cases and five control cases by Western blot. The results show a significant increase in the temporal cortex of LAMP-1 and LAMP -2 and a significant decrease of LC3 and EEA1 in patients with Alzheimer's disease. In order to draw proper conclusions about how the increased levels in cerebrospinal fluid reflect the different disease mechanisms in the brain it requires further analysis of more patient samples and from other areas of the brain.

Alzheimer’s disease

lysosome

endosome

autophagy

EEA1

PICALM

LAMP-1

LAMP -2

LC3

TFEB

Alzheimers sjukdom

lysosom

endosom

autofagi

EEA1

PICALM

LAMP-1

LAMP -2

LC3

TFEB

Neurology

Neurologi

Neurosciences

Neurovetenskaper

Investigating the impact of physical layer transmission for Bluetooth LE Audio

Arponen, Kevin, Björkman, Axel

January 2023

Bluetooth Low Energy (BLE) is a widely used low-energy version of Bluetooth’swireless protocol. To meet increasing requirements of modern wireless audio devices,Bluetooth LE Audio was released with its new Low Complexity CommunicationsCodec (LC3) being much more data efficient than its predecessor Low Complexity SubBand Coding. Because of its increased data efficiency, LC3 opens the door of exploring usage ofvarious physical layer configurations, especially those with lower data rates. Thedifference in performance when streaming audio with the uncoded LE 2M and 1Mconfigurations, compared to using the LE coded S=2 and S=8 configurations (whichhave a lower throughput) points to a research gap which this thesis aims to fill. To be able to gather data necessary to fill the identified gap, multiple iterations of bothsoftware and hardware artefacts were made. The produced artefacts were designed torun the same Bluetooth version (LE Audio) and switch between the physical layerconfigurations. Throughput and current consumption in varied ranges was measuredthrough usage of the artefacts. The results from the experiments show that for energy optimization, an adaptive schemewould not be beneficial over only using LE 2M. However, an adaptive scheme for thephysical layer can be used for LE Audio to improve range and stability. This doeshowever, come with the cost of increased energy consumption.

Bluetooth Low Energy

Energy consumption

LC3

LE Audio

Physical Layer

Throughput

Wireless audio streaming

Wireless communication

Engineering and Technology

Teknik och teknologier

Bluetooth audio codecs in a real-time interactive context

Johansson, Gustav, Adevåg, Mattias, Milton, Jacob

January 2023

The emergence of Bluetooth Low Energy in combination with optimized coders has made it possible to transfer digital audio at very low bitrates, paving the way for small devices with longlasting batteries. The aim of this study is to compare the audio codecs LC3 and aptX, as well as peoples’ attitude towards audio quality in different contexts. Two open source implementations of the codecs are evaluated in terms of time for execution. Furthermore, the perceived audio quality of low bitrates are subjectively compared in a listening test in combination with a questionnaire regarding peoples’ attitude towards audio quality. The results show that LC3 is capable of delivering satisfying audio quality at very low bitrates, whilst also outperforming aptX. It will be interesting to see how LC3 will affect transmission latency, battery life and overall QoS once it is established in everyday products

Bluetooth Low Energy

BLE

audio codec

LC3

aptX

real-time

interactive context

latency

perceived audio quality

Information Systems

Regulation of Autophagy and Cell Death in Breast Carcinoma Cells

Koterba, Kristen L.

10 June 2010

No description available.

Biomedical Research

Cellular Biology

Molecular Biology

autophagy

Beclin-1

Rottlerin

LC3-II

Caspase-independent cell death

mitochondrial membrane potential

breast carcinoma cells

Sorafenib enhances pemetrexed-induced cytotoxicity through and autophagy-dependent mechanism in cancer cells

Mary, Bareford

03 August 2012

Acquired cellular resistance to traditional chemotherapeutics is a common obstacle in the treatment of most cancer cell types. This resistance occurs as a result of changes in the underlying molecular mechanisms of disease progression. The development of novel chemotherapeutic approaches designed to enhance the efficacy of protypical anti-cancer drugs is important in order to overcome this issue. Such approaches will aid in understanding the biomolecular phenomena responsible for drug resistance and disease progression. Combining signaling pathway inhibitors has become an effective strategy for enhancing tumor cell death by targeting multiple pathways known to regulate cell survival. Pemetrexed, an FDA-approved anti-folate drug, targets thymidylate synthase (TS) and a secondary folate-dependent enzyme, 5’ aminoimidazole-carboximide ribonucleotide formyltransferase (AICART); both important for DNA synthesis. Studies performed by our collaborator demonstrated that TS inhibition causes intracellular accumulation of ZMP+ and activation of AMPK which is known to induce autophagy in mammalian cells. Previous studies from our lab and others showed that sorafenib, a multi-kinase inhibitor of Raf-1 and class III receptor tyrosine kinases, was able to induce a cytotoxic form of autophagy in a variety of tumor cell types. Combination treatment using pemetrexed and sorafenib in these cancer cells resulted in an enhancement of autophagy and cell lethality beyond that of individual drugs alone. Inhibition of autophagy suppressed the toxic interactions of these drugs in all cell types examined. Pemetrexed/sorafenib cotherapy also proved to be an effective treatment for triple negative breast cancer cells having advanced to a stage of estrogen independence. Fulvestrant-resistant MCF7 cells were more sensitive to the drug combination than parental, estrogen-dependent MCF7 cells. Breast cancer cells cotreated with pemetrexed and sorafenib exhibited enhanced MEK/ERK signaling, Src activation that was dependent on platelet-derived growth factor β (PDGFRβ) downregulation, elevated protein phosphatase 2A (PP2A) activity, and increased de novo ceramide synthesis. Studies using a mouse model of experimentally-induced breast cancer validated drug combination effectiveness through inhibition of tumor growth, while no deleterious effects on normal tissues were observed. The data presented demonstrates that pemetrexed/sorafenib cotreatment augments chemosensitivity in both in vitro and in vivo systems. Based upon these findings, a Phase I clinical trial involving pemetrexed and sorafenib in breast cancer patients with solid, recurrent tumors was begun in 2011. In conclusion, this work strongly supports a promising therapeutic utility for the pemetrexed/sorafenib combination in treatment of various cancer cell types.

combinatorial drug therapy

breast cancer

pemetrexed

thymidylate synthase

AICART

sorafenib

ERK1/2

MEK1/2

Src

PDGFRb

PP2A

I2PP2A

de novo ceramide synthesis

autophagy

Beclin1

LC3

Bcl2 family proteins

BH3 domain

mitochondrial membrane permeabilization

Life Sciences