BIOTECHNOLOGICAL INVENTION OF CALOXINS - A NOVEL CLASS OF ALLOSTERIC INHIBITORS SPECIFIC FOR PLASMA MEMBRANE CALCIUM PUMP ISOFORMS

Szewczyk, Maria Magdalena

10 1900

<p>This work used biotechnology to invent new caloxins - allosteric peptide inhibitors of plasma membrane Ca²⁺pumps (PMCA) needed to understand the Ca²⁺signalling in coronary artery.</p> <p>PMCA are encoded by genes PMCA1-4. Defects in PMCA expression have been associated with several pathologies. The major objectives of my thesis were to determine the expression of PMCA isoforms in the smooth muscle and the endothelium of coronary artery and to invent high affinity and specificity caloxins for the isoforms present in these tissues.</p> <p>In Aim 1 it was determined that the total PMCA protein and activity was much greater in smooth muscle than in endothelium. Both tissues expressed only PMCA1 and PMCA4, with PMCA4 > PMCA1 in smooth muscle and PMCA1 > PMCA4 in endothelium. Therefore, the search for PMCA1 and 4 selective caloxins using phage display technique was conducted.</p> <p>Aim 2 was to invent PMCA1 selective inhibitors. Caloxin 1b3 was invented as the first known PMCA1 selective inhibitor. It inhibited PMCA1 Ca²⁺-Mg²⁺-ATPase with higher affinity than PMCA2, 3 or 4. Aims 1 and 2 were consistent with the greater potency of caloxin 1b3 than a known PMCA4 selective caloxin 1b1 in increasing cytosolic Ca²⁺ concentration in endothelial cells.</p> <p>Aim 3 was to obtain ultrahigh selectivity and affinity PMCA4 bidentate inhibitor using the previously invented PMCA4 selective caloxins 1c2 and 1b2. In the first step the affinity of caloxin 1b2 was improved by limited mutagenesis to obtain caloxin 1c4. Caloxin 1c4 had 5-6 times higher affinity than caloxin 1b2 for inhibiting PMCA4 activity. Optimization of the bidentate caloxins from caloxin 1c2 and 1c4 was also attempted.</p> <p>The novel caloxins may aid in elucidating the role of PMCA1 and PMCA4 in the physiology and pathophysiology of coronary artery and other tissues.</p> / Doctor of Philosophy (PhD)

endothelium

smooth muscle

PMCA

calcium pump

inhibitor

caloxin

phage display

coronary artery

Molecular Biology

Molecular Biology

Probing reaction conditions and cofactors of conformational prion protein changes underlying the autocatalytic self-propagation of different prion strains

Boerner, Susann

15 July 2014

Prionen sind das infektiöse Agens transmissibler spongiformer Enzephalopathien von Tieren und Menschen. Prionen bestehen hauptsächlich aus einer abnormal gefalteten und aggregierten Isoform des zellulären Prionproteins (PrP). Die Replikation von Prionen findet mutmaßlich durch keiminduzierte Polymerisation des Prionproteins statt. Es existieren verschiedene Prionstämme, die unterschiedliche Eigenschaften aufweisen, aber vom selben zellulären Prionprotein abstammen können. Neben PrP scheinen Kofaktormoleküle an der Prionreplikation beteiligt zu sein. Weiterhin wird angenommen, dass Kofaktoren bei der Definition von Stammeigenschaften beteiligt sind, sowie ein Einfluss auf die Infektiosität von Prionen besteht. In dieser Arbeit wurden die Auswirkungen verschiedener Kofaktoren auf die Replikation von vier Hamster-adaptierten Prionstämmen in vitro mittels der Methode der „Protein Misfolding Cyclic Amplification“ (PMCA) untersucht. Es wurden stammabhängige Unterschiede bezüglich der Anforderungen an die Replikationsbedingungen in der PMCA, sowie Kofaktor-Selektivitäten festgestellt. Der Einfluss von Kofaktoren wurde durch den Vergleich ausgewählter biologischer, biochemischer und biophysikalischer Eigenschaften von in vitro erzeugten PMCA Produkten (PrPres) mit denen nativer Prionkeime untersucht. Es zeigte sich, dass Kofaktoren Stammeigenschaften, wie die biologische Keimaktivität in primären Gliazellkulturen und biochemische Eigenschaften, wie die Migration in SDS-Gelen, beeinflussen können. Um festzustellen, ob unterschiedliche Kofaktorbedingungen während der PMCA messbare Veränderungen der Proteinkonformation hervorrufen, wurde PMCA generiertes PrPres mittels FT-IR Spektroskopie in einer Pilotstudie charakterisiert. Erste Befunde zeigten spektrale Unterschiede zwischen den Proteinkeimen und deren PMCA Produkten bei allen Stämmen, unabhängig von den Kofaktorbedingungen. / Prions are the causative agent of transmissible spongiform encephalopathies in animals and humans such as scrapie, bovine spongiform encephalopathy (BSE) and Creutzfeldt-Jakob disease (CJD). Prions are thought to be composed essentially of a misfolded and aberrantly aggregated isoform of the cellular prion protein (PrP) and to replicate by seeded PrP polymerization. Prions may exist in the form of distinct strains that differ in their phenotypic characteristics although they are derived from the same cellular prion protein. Cofactor molecules other than PrP may be involved in prion replication and may be a determinant of strain properties. Furthermore, cofactors may also be required for conveying infectivity. The present study examined the effects of different cofactor molecules on the replication efficacy of four hamster adapted prion agents using the method of serial protein misfolding cyclic amplification (PMCA) as in vitro assay for PrP misfolding and aggregation. The study revealed strain dependent differences of PMCA conditions and cofactors required for efficient in vitro replication. The impact of cofactors was assessed by comparative analyses of selected biological, biochemical and biophysical properties of PMCA products (PrPres) and native prion seeds. The biological seeding activity as monitored in a primary hamster glial cell assay, and biochemical properties such as electrophoretic migration in SDS-gels, were affected differently by different cofactors. In order to define the impact of putative cofactors on the molecular conversion of PrP in more detail, changes in the spatial structure associated with different cofactor molecule conditions during amplification of PrPres in PMCA was monitored by Fourier transform-infrared (FT-IR) spectroscopic analysis. Largely preliminary data revealed spectral differences between native prion seeds and progeny PMCA generated PrPres for all prion strains, but no variations due to different cofactor conditions.

Prion

Prionprotein

Zellassay

Kofaktoren

Prion

Prion protein

Transmissible spongiform encephalopathy

Cell assay

Conversion cofactors

570 Biowissenschaften, Biologie

32 Biologie

WD 5280

ddc:570

Metabolic regulation of the plasma membrane calcium pump in pancreatic ductal adenocarcinoma

James, Andrew

January 2015

Pancreatic ductal adenocarcinoma (PDAC) is an aggressive form of cancer with poor prognosis and limited treatment options. Since many patients present with metastatic disease and are thus ineligible for surgical resection, PDAC is almost ubiquitously fatal; new treatment options are therefore needed to combat this disease. A key hallmark of many cancers, including PDAC, is metabolic reprogramming and a shift towards a high glycolytic rate, known as the Warburg effect. This allows cancer cells to generate ATP in the face of hypoxia and to meet the increased metabolic requirements associated with rapid proliferation. We hypothesised that this shift towards glycolytic metabolism has important implications for the regulation of cytosolic Ca2+ ([Ca2+]i) in PDAC, since the plasma membrane Ca2+ ATPase (PMCA), which is critical for maintaining low [Ca2+]i and thus cell survival, is dependent on ATP to extrude cytosolic Ca2+. The relative contributions of mitochondrial vs glycolytic ATP in fuelling the PMCA in human PDAC cell lines (PANC-1 and MIA PaCa-2) were therefore assessed. Moreover, the effects of numerous mechanistically distinct metabolic inhibitors on key readouts of cell death, [Ca2+]i and ATP were investigated. Treatment with glycolytic inhibitors induced significant ATP depletion, PMCA inhibition, [Ca2+]i overload and cell death in both PANC-1 and MIA PaCa-2 cells, while mitochondrial inhibitors had no effect. Subsequently, these experiments were repeated on PDAC cells cultured in media formulated to "switch" their highly glycolytic phenotype back to one more reliant on mitochondrial metabolism. Culture in nominal glucose-free media supplemented with either galactose (10 mM) or alpha-ketoisocaproate (KIC, 2 mM) resulted in a switch in metabolism in MIA PaCa-2 cells, where proliferation rate and glycolysis were significantly decreased, and in the case of cells cultured in KIC, oxidative phosphorylation rate was preserved (assessed using Seahorse XF technology). Following culture of MIA PaCa-2 cells in either galactose or KIC, glycolytic inhibition failed to recapitulate the profound ATP depletion, PMCA inhibition and [Ca2+]i overload observed in glucose-cultured MIA PaCa-2 cells. These data demonstrate that in PDAC cells exhibiting a high rate of glycolysis, glycolytically-derived ATP is important for fuelling [Ca2+]i homeostasis and thus is critical for survival. Finally, using a cell surface biotinylation assay, the keyglycolytic enzymes LDHA, PFKP, GAPDH, PFKFB3 and PKM2 were all found to associate with the plasma membrane in MIA PaCa-2 cells, possibly in a tyrosine phosphorylation-dependent manner. To investigate whether the dynamic membrane-association of glycolytic enzymes provides a privileged supply of ATP to the PMCA in PDAC, the effects of tyrosine kinase inhibitors was assessed on PMCA activity. However, while these inhibited PMCA activity, this occurred without accompanying global ATP depletion. These data indicate that glycolytic ATP is critical for the regulation of [Ca2+]i by the PMCA in PDAC, and that the glycolytic regulation of the PMCA may be an important therapeutic locus. However, further research is required to determine whether membrane-bound glycolytic enzymes regulate its activity.

Role of the plasma membrane calcium ATPase as a negative regulator of angiogenesis

Baggott, Rhiannon Rebecca

January 2014

Angiogenesis is the formation of new blood vessels from pre-existing ones. Unregulated angiogenesis is associated with several diseases such as diabetic retinopathy and tumour growth. Many signal transduction pathways have been implicated in the regulation of angiogenesis such as p38 mitogen-activated protein kinase (MAPK), phosphatidylinositol-3 kinase (PI3K), extracellular signal-related kinase 1/2 (Erk1/2) and of particular interest the calcineurin/nuclear factor of activated T-cell (NFAT) pathway. Inhibition of calcineurin activity by the drug cyclopsorin A (CsA) has been shown to inhibit processes required for successful angiogenesis such as in vitro cell migration, tube formation and additionally attenuates corneal angiogenesis in vivo. CsA is associated with severe side effects and therefore the identification of an endogenous regulator of this pathway would be beneficial. One possibility is the plasma membrane calcium ATPases (PMCAs). These high affinity calcium extrusion pumps have been shown to interact with calcineurin in mammalian cells and cardiomyocytes and down-regulate the calcineurin/NFAT pathway. This is hypothesised to be due to the interaction between the two proteins which maintains calcineurin in a low calcium micro-environment generated by the calcium removal function of the pump. Interestingly, PMCA4 has been shown to interact with calcineurin in endothelial cells. The aim of our study was to further our understanding of PMCA4s regulation of the calcineurin/NFAT pathway specifically in endothelial cells and establish if PMCA4 has a role in the regulation of angiogenesis. ‘Gain of function’ by adenoviral over-expression of PMCA4 and ‘loss of function’ by either si-RNA mediated knockdown of PMCA4 or isolation of PMCA4-/- MLEC were used as models. Over-expression of PMCA4 in HUVEC resulted in inhibition of the calcineurin/NFAT pathway with the opposite result occurring in the case of the knockout of PMCA4, identifying PMCA4 as a negative-regulator of the calcineurin/NFAT pathway in endothelial cells. Over-expression of PMCA4 significantly attenuated VEGF-induced protein and mRNA expression of the pro-angiogenic proteins RCAN1.4 and Cox-2, endothelial cell migration and in vitro and in vivo tube formation with the opposite result occurring in knockdown or knockout studies, confirming PMCA4 as a down-regulator of angiogenesis. Interestingly, over-expression or knockdown of PMCA4 had no effect on VEGF-induced HUVEC proliferation or Erk1/2 phopshorylation proposing PMCA4 may be a potential inhibitor of angiogenesis without compromising cell survival. Disruption of the interaction between PMCA4 and calcineurin by generation and ectopic expression of an adenovirus encoding the region of PMCA4 that interacts with calcineurin (428-651) (Ad-ID4) resulted in an increase in NFAT activity, RCAN1.4 protein expression and in vitro tube formation. These results identify the mechanism of PMCA4s inhibitory effect of the calcineurin/NFAT pathway and consequently angiogenesis is a result of the interaction between the two proteins. The novel findings of this study establish PMCA4 as a negative-regulator of the calcineurin/NFAT pathway in endothelial cells and angiogenesis. These results are far reaching and highlight a potential role for PMCA4 as a therapeutic target in a variety of diseases that are associated with pathological angiogenesis.

616.15

On the molecular basis of α-synuclein aggregation on phospholipid membranes in the presence and absence of anle138b / Zur molekularen Basis der α-Synuclein Aggregation an Phospholipid Membranen in der Gegenwart und Abwesenheit von anle138b

Antonschmidt, Leif

27 November 2021

No description available.

571.4

amyloid

alpha-synuclein

protein-small molecule interaction

phospholipid bilayers

PMCA

aggregation intermediates

membrane insertion

BSA

aggregation mechanism

oligomers

aggregation kinetics

Biologie (PPN619462639)

Prion Infectivity and PrPBSE in the Peripheral and Central Nervous System of Cattle 8 Months Post Oral BSE Challenge

Ackermann, Ivett, Ulrich, Reiner, Tauscher, Kerstin, Fatola, Olanrewaju I., Keller, Markus, Shawulu, James C., Arnold, Mark, Czub, Stefanie, Groschup, Martin H., Balkema-Buschmann, Anne

18 January 2024

After oral exposure of cattle with classical bovine spongiform encephalopathy (C-BSE), the infectious agent ascends from the gut to the central nervous system (CNS) primarily via the autonomic nervous system. However, the timeline of this progression has thus far remained widely undetermined. Previous studies were focused on later time points after oral exposure of animals that were already 4 to 6 months old when challenged. In contrast, in this present study, we have orally inoculated 4 to 6 weeks old unweaned calves with high doses of BSE to identify any possible BSE infectivity and/or PrPBSE in peripheral nervous tissues during the first eight months postinoculation (mpi). For the detection of BSE infectivity, we used a bovine PrP transgenic mouse bioassay, while PrPBSE depositions were analyzed by immunohistochemistry (IHC) and by protein misfolding cyclic amplification (PMCA). We were able to show that as early as 8 mpi the thoracic spinal cord as well as the parasympathetic nodal ganglion of these animals contained PrPBSE and BSE infectivity. This shows that the centripetal prion spread starts early after challenge at least in this age group, which represents an essential piece of information for the risk assessments for food, feed, and pharmaceutical products produced from young calves.

info:eu-repo/classification/ddc/636

ddc:636

Importance of dimerization in aggregation and neurotoxicity of Prion and [alpha]-Synuclein in prion and Parkinson's diseases

Roostaee, Alireza

January 2012

Abstract: Neurodegenerative diseases are associated with progressive loss of structure or function of neurons which results in cell death. Recent evidence indicate that all neurodegenerative disorders, sporadic or transmissible, may have a common pathological mechanism at the molecular level. This common feature consists of protein aggregation and accumulation of harmful aggregates in neuronal cells resulting in cellular apoptosis and neurotoxicity. Neurodegenerative diseases can affect abstract thinking, skilled movements, emotional feelings, cognition, memory and other abilities. This diverse group of diseases includes Alzheimer's disease (AD), Parkinson's disease (PD), Huntington's disease (HD), prion diseases or transmissible spongiform encephalopathies (TSEs) and amyotrophic lateral sclerosis. In my project I worked on the molecular mechanism of protein aggregation, propagation and neurotoxicity in Parkinson's disease and prion disease. Prion disease and PD are associated with misfolding and aggregation of PrPc and a-Synuclein (a-Syn), respectively. Despite being two important neurodegenerative disorders, molecular mechanisms of a-Syn or PrPC aggregation and amyloidogenesis are still unclear in PD and prion disease. Furthermore, the toxic protein species in PD have not been characterized yet. In this study we characterize the mechanism of a-Syn and PrPc misfolding in a physiological-like cell free condition in the absence of a-Syn aggregates, PrPc ggregated isoform (Pre's), denaturants or acidic environment. A number of studies indicate that dimerization of PrPc or a-Syn may be a key step in the aggregation process. To test this hypothesis we verified if enforced dimerization of PrPc or a-Syn may induce a conformational change reminiscent of the conversion of PrPc or a-Syn to PrPR' or a-Syn aggregates, respectively. We used a well-described inducible dimerization strategy where a dimerizing domain called FK506-binding protein (Fv) was fused to PrPc or a-Syn in order to produce chimeric proteins Fv-PrP and a-SynF'''. A divalent ligand AP20187 was used to induce protein dimerization. Addition of AP20187 to recombinant Fv-PrP in physiological-like conditions resulted in a rapid conformational change characterized by an increase in beta-sheet (13-Sheet) structure and simultaneous aggregation of the proteins. However, non-dimerized PrP formed 13-Sheet conformation in very slower rates. In the presence of AP20187, we also report a rapid random coil into 13-sheet conformational transformation of a-SynF" within 24 h, whereas wild type a-Syn showed 24 h delay to achieve P-sheet structure after 48 h. Electron microscopy experiments demonstrated that dimerization induced amyloid fibril formation after 48 h for both Fv-PrP and a-Syr?", whereas in the absence of dimerizing ligand AP20187, PrP or a-Syn converted into amyloid fibrils after 3 days or even later. Dimerization-induced Fv-PrP aggregates were partially resistant to PK digestion which is a characteristics of the naturally occurring PrPR'. The rates of amyloidogenesis in the presence of dimerization was also characterized by Thioflavin T (ThT) fluorescence probing. Whereas the stable structure of Fv-PrP showed no ThT binding for over 60 h of incubation at 37°C, the addition of AP20187 to Fv-PrP resulted in a time-dependent increase in ThT binding. As for a-SynR, dimerization accelerated the rate of ThT binding and amyloid formation comparing to the slower amyloidogenesis rate of wild type a-Syn in the absence of dimerizer AP20187. The impact of dimerization on a-Syn aggregation was further determined by Fluorescence ANS probing, indicating a higher affinity of dimerization-induced a-SynF" aggregates for binding to ANS comparing to wild type a-Syn aggregates. These results indicate that dimerization increases the aggregation and amyloidogenesis processes for Fv-PrP and a-SynF". Both Fv-PrP and a-SynF" amyloids were successfully propagated in vitro by protein misfolding amplification (PMCA) cycle. These results ar in agreement with the theory that all protein aggregates in neurodegenerative diseases propagate with the same molecular mechanism. Neurotoxicity of recombinant Fv-PrP and a-SynF" aggregates was determined in cellulo and in vivo, respectively. Aggregates of Fv-PrP were toxic to cultured cells whilst soluble Fv-PrP and amyloid fibres were harmless to the cells. When injected to the mice brain, both a-Syni" and a-Syn pre-fibrillar aggregates internalized cells and induced neurotoxicity in the hippocampus of wild-type mice. These recombinant toxic aggregates further converted into non-toxic amyloids which were successfully amplified by PMCA method, providing the first evidence for the in vitro propagation of synthetic a-Syn aggregates. These results suggest an important role for protein dimerization in aggregation and amyloidogenesis, and therefore, in the pathology of PD and prion disease. The similarities between aggregation, amyloidogenesis and toxicity of PrPC and ct-Syn provide further evidence on the existance of a prion-like mechanism in all neurodegenerative disorders. // Résumé: Les maladies neurodégénératives sont associées à la perte progressive des propriétés structurales ou fonctionnelles des neurones, ce qui engendre la mort des cellules. De récentes études indiquent que tous les désordres neurodégénératifs, sporadiques ou transmissibles, peuvent avoir un mécanisme pathologique commun au niveau moléculaire. Ce dispositif commun se compose de l'agrégation de protéines, de la propagation des agrégats, et de l'accumulation d’agrégats toxiques dans les cellules neuronales, menant à l'apoptose et à la neurotoxicité cellulaire. Les maladies neurodégénératives peuvent affecter la pensée abstraite, les mouvements habiles, les sentiments émotifs, la connaissance, la Mémoire et d'autres capacités cognitives. Ce groupe divers de maladies inclut la maladie d'Alzheimer (AD), de Parkinson (PD), de Huntington (HD), les maladies à prions ou encéphalopathies spongiformes transmissibles (TSEs) et la sclérose latérale amyotrophique (ALS). [symboles non conformes]

Protein misfolding cyclic amplification

PMCA

Parkinson's disease

PD

FK506 binding domain

Fv

[alpha]-Synuclein

[alpha]-Syn

Protease-resistant prion protein

PrP[superscript Res]

Cellular prion protein

PrP[superscript C]

The Plasma Membrane Calcium-ATPase in Mammary Gland Epithelial Cell Lines and Consequences of its Inhibition in a Model of Breast Cancer

Lee, Won Jae

Unknown Date

Ionized calcium (Ca2+), acting as an intracellular messenger, controls numerous biological processes that are essential for life. However, it is also able to convey signals that result in cell death. The fidelity of Ca2+ as a universal second messenger therefore depends on mechanisms that specifically and dynamically regulate its levels within a cell, as well as maintain resting intracellular Ca2+ concentration ([Ca2+]i) very low. One such mechanism for Ca2+ signaling and homeostasis is the plasma membrane Ca2+-ATPase (PMCA), which is a primary active Ca2+ transporter that translocates Ca2+ from a low intracellular Ca2+ environment to a high extracellular environment. There are four mammalian PMCA isoforms (PMCA1-4), which are differentially expressed depending on tissue or cell type. PMCA isoforms possess different sensitivities to biochemical regulation of Ca2+ efflux activity and are also able to subtly alter the dynamics of Ca2+ signals. These properties suggest that the PMCA is not merely a trivial mechanism for Ca2+ extrusion but is influential in contributing to the Ca2+ signaling requirements and unique physiology of different cells. The indispensable nature of Ca2+ signaling in organs such as the brain, heart and skeletal muscle has been the studied extensively but little is known about the roles and regulation of Ca2+ in the mammary gland. This is despite the fact that the mammary gland is a site of extensive Ca2+ flux during lactation. However, cumulating evidence indicates that upregulation of PMCA2 expression in the mammary gland is a major mechanism for milk Ca2+ enrichment. Therefore, the PMCA is likely to be an important mediator of bulk Ca2+ homeostasis in the mammary gland. Studies in other model systems also suggest that PMCAs may regulate other cellular processes such as cell proliferation, differentiation and apoptosis that are required for normal mammary gland physiology. These basic cellular processes are also disturbed in breast cancer and hence deregulation of PMCA expression in the mammary gland may have pathophysiological consequences. Previous studies show that PMCA1 expression is greater in tumorigenic MCF-7 and MDA-MB-231 human breast cancer cells compared to non-tumorigenic MCF-10A human breast epithelial cells. Furthermore, the expression of PMCA1b and PMCA4b is lower in human skin and lung fibroblasts neoplastically transformed by simian virus 40, compared to non-transformed counterparts. It is therefore hypothesized that regulation of PMCA isoform expression is disrupted in breast cancer and that inhibition of PMCA expression in an in vitro model of breast cancer has important effects in modulating intracellular Ca2+ homeostasis, cell proliferation, differentiation and apoptosis. This thesis describes the use of real time RT-PCR to compare PMCA isoform mRNA expression in tumorigenic and non-tumorigenic mammary gland epithelial cells. It demonstrates that particular breast cancer cell lines overexpress PMCA2, an isoform with restricted tissue distribution and which is present in abundant amounts in the lactating rat mammary gland. Thus, some breast cancers may be characterized by the overexpression of Ca2+ transporters that are normally upregulated during the physiological course of lactation. The pathophysiological significance of PMCA2 overexpression in breast cancer is uncertain and future investigations should look at whether levels of PMCA isoform expression correlate with malignancy, prognosis or survival. To address the second hypothesis of this thesis, a stable MCF-7 Tet-off human breast cancer cell line able to conditionally express PMCA antisense was generated. This strategy was necessary due to the current lack of specific pharmacological inhibitors of the PMCA. This thesis shows that PMCA antisense expression significantly inhibits PMCA protein expression, while subtly affecting PMCA-mediated Ca2+ efflux without causing cell death. However, it also reveals that inhibition of PMCA expression has major effects in mediating cell proliferation and cell cycle progression. Moderate changes in PMCA expression and PMCA-mediated Ca2+ transport result in dramatic consequences in MCF-7 cell proliferation. These studies not only support the supposition that modulation of Ca2+ signaling is a viable therapeutic approach for breast cancer but also suggest that PMCAs are possible drug targets. Alternatively, inhibitors of the PMCA may act as adjuvants to augment the efficacy of other anti-neoplastic agents like tamoxifen that have been shown to modulate Ca2+ signaling. Since the discovery of a new family of primary active Ca2+ transporters, which are related to PMCAs, the opportunities in this field of research are very promising.

780105 Biological sciences

calcium signaling

PMCA

Calcium-ATPase

antisense

MCF-7

breast cancer

mammary gland

cell proliferation

cell cycle

Vivre avec le feu en région méditerranéenne : une approche participative multicritère et multi-scénarios appliquée au cas du massif des Maures (Var, France) / Living with fire in the Mediterranean region. A participatory multi-criteria and multi-scenario approach applied to the Massif des Maures (Var, France).

Merino, Albert

26 November 2015

Dans cette thèse, nous présentons une évaluation multicritère de plusieurs « scénarios de vie avec le feu » en forêt méditerranéenne. Le cas d’études concerne le massif des Maures (Var ; France), un territoire fortement soumis au risque « feux de forêt » et ayant connu d’importantes transformations socio-économiques au cours des dernières décennies. Cette étude cherche également à tester et comparer la pertinence de plusieurs cadres évaluatifs comme outils d’aide à la gouvernance du risque « feux de forêt ». La thèse est composée de trois parties principales clairement distinctes d’un point de vue aussi bien thématique que méthodologique. La première partie de la thèse a pour objet l’« Economie du feu », autrement dit, l’ensemble de concepts et d’outils généralement proposés par la Science Economique pour l’analyse du risque « feux de forêt » (modèle C+NVC, « budget optimal de protection », etc.). Nous soulignons par rapport à ce premier cadre évaluatif jusqu’à trois sophismes fondamentaux qui démontrent son inadéquation par rapport à la complexité, l’incertitude, l’ambiguïté et l’incommensurabilité qui caractérisent le phénomène du feu. La thèse se focalise dans un deuxième temps sur la présentation d’une approche alternative au sein de laquelle plusieurs scénarios semi-qualitatifs sont évaluées dans une logique participative et multicritère. La deuxième partie de la thèse est ainsi consacrée à la présentation de l’approche des Scénarios Environnementaux, puis de chacune des étapes du processus prospectif mené sur le terrain avec la participation des acteurs locaux. Ce processus aboutit à quatre « avenirs du feu » dans les Maures : (i) l’AFFRONTEMENT technique ; (ii) la (RE)COLONISATION de la forêt ; (iii) la DOMESTICATION du feu ; et (iv) l’ADAPTATION collective. Enfin, dans la troisième partie de la thèse, nous présentons les Approches Participatives MultiCritère (APMC), puis nous analysons le processus d’exploration réalisé sur le terrain par les acteurs locaux eux-mêmes à travers une plateforme heuristique inspirée de deux APMC communément employées dans la gestion de systèmes socio-écologiques et la gouvernance des risques, à savoir, la Multi-Criteria Mapping (cartographie multicritère) et l’Approche INTÉGRAAL. L’analyse des résultats obtenus à travers ce processus d’exploration permettent d’établir plusieurs recommandations susceptibles d’améliorer les pratiques actuelles de gouvernance du risque et de décupler l’acceptabilité sociétale des mesures de gestion aujourd’hui en place. / This thesis aims to: (i) explore and evaluate several ways of living with fire in Mediterranean forests; (ii) appraise different evaluative frameworks for wildfire risk governance. The case study concerns the Massif des Maures (Var; France), a fire-prone territory where structural socio-economic transformations are coming about since 50 years now. The thesis consists of three main parts clearly distinguishable (thematically as well as methodologically). First part focuses on “Fire Economics”, that is, the set of theoretical concepts and methodological tools commonly applied by economists for the study of wildfire risk (C+NVC model, “most efficient program level”, etc.). We highlight up to three fundamental sophisms in such an evaluative framework. We thus underline its inadequacy for dealing with the complexity, uncertainty, ambiguity and incommensurability of wildfires phenomenon. The focus of the thesis moves then to the presentation of an alternative approach in which several semi-qualitative and integrated Scenarios are explored through an inclusive Multi-Criteria reasoning. Second part thus treats Environmental Scenarios, an approach which is first presented in a general way and whose application to our case study is then analysed in detail, from the very first interviews with local actors to the final scenarios generated with their participation. These scenarios are: (i) Technical Confrontation; (ii) Forest (re)Colonisation; (iii) Fire Domestication; and (iv) Collective Adaptation. Third part deals with Participatory Multi-Criteria Approaches (PMCA). We first present and contextualise these evaluative frameworks as an example of Value-Articulating Institution (VAI). We then apply to our case study a hybrid PMCA inspired from two approaches frequently used in social-ecological systems management and risk governance: Multi-Criteria Mapping and INTÉGRAAL Approach. The thesis concludes with several recommendations that could improve social acceptability of current fire management strategies and more generally, enhance fire risk governance practices.

Feux de forêt

Economie du feu

Scénarios Environnementaux

Gouvernance des risques

Massif des Maures

Forest Fires

Fire Economics

Environmental Scenarios

Risk Governance

Massif des Maures

333

Roles of PMCA Isoforms in Ca²⁺-Homeostasis and Contractility of Bladder Smooth Muscle: Evidence from PMCA Gene-Ablated Mice

Liu, Li

27 June 2007

No description available.

PMCA (human gene symbols

ATP2B)

SERCA2 (human gene symbols

ATP2A2)

NCX

bladder smooth muscle

Ca²⁺ homeostasis

Ca²⁺ sparks

Fura-PE3

Fluo-4

Indo-1

multi-photon microscopy