Synthesis of new calcineurin inhibitors via Pd-catalyzed cross coupling reactions

Yin, Lunxiang.

January 2005

Berlin, Humboldt-University, Diss., 2005.

Calcineurin Stickstoffheterocyclen

The MAKAPbeta Signalosome Is Involved In Cardiac Myocyte Hypertrophy Through The Recruitment Of Calcineurin Abeta: A Study On How Multimolecular Complexes Are Important For The Integration And Fidelity Of Signal Transduction Behind Cellular And Physiological Responses

Lopez, Johanna

01 January 2009

Myocyte hypertrophy is the major compensatory response of the heart to chronic stress. It is induced by the activation of a network of interdependent, intracellular signaling pathways.1 An important pathway activated during the hypertrophic response is the calcineurin Abeta-NFATc transcription factor pathway.2 Our laboratory has recently discovered that calcineurin Abeta and NFATc transcription factors can associate with the scaffold protein mAKAPbeta.3 mAKAPbeta is a scaffold protein that forms a multimolecular signalosome located to the nuclear envelope of cardiac myocytes. Preliminary data demonstrate that calcineurin Abeta binds to a specific site on mAKAPbeta that lacks any of the consensus calcineurin binding sequences previously described. In this report, it is shown that a peptide, which contains the mAKAPbeta -calcineurin Abeta binding domain, associates with calcineurin Abeta in a calcium/calmodulin dependent manner. In addition, the binding of this mAKAPbeta peptide to calcineurin Abeta has no effect on calcineurin?s phosphatase activity. In fact, calcineurin Abeta bound to this mAKAPbeta peptide is catalytically active and capable of dephosphorylating NFAT. This is novel since other scaffold proteins that associate with calcineurin Abeta have been reported to inhibit its phosphatase activity. Furthermore, in our laboratory it has been shown that mAKAPbeta is required for both the nuclear translocation of NFATc and the induction of myocyte hypertrophy in vitro.4 In this report it is demonstrated that inhibition of calcineurin Abeta association to mAKAPbeta affects NFATc phosphorylation state and attenuates the norepinephrine induced hypertrophic response in primary neonatal cardiac myocytes. This study supports the hypothesis that the formation of multimolecular signaling complexes, like the mAKAPbeta signalosome, is necessary for the integration and fidelity of signal transduction involved in physiological processes like hypertrophy. Although hypertrophy is an adaptive response; it is often accompanied by maladaptive remodeling of the heart that can result in heart failure, a leading cause of death in the United States. Research in the signaling complexes involved in myocyte hypertrophy, like the mAKAPbeta signalosome, may lead to the development of novel treatments for pathologic hypertrophy and heart failure.

Study of calcineurin interaction with inhibitor-1 and natural products. Towards novel calcineurin inhibitors

Raszek, Mikolaj

Unknown Date

No description available.

calcineurin

drug development

immunosuppressants

phosphatases

Funktionelle Analysen virulenzrelevanter und essentieller Gene in Candida albicans

Bader, Teresa Anna.

Unknown Date

Universiẗat, Diss., 2005--Würzburg.

Funktionelle Analysen virulenzrelevanter und essentieller Gene in Candida albicans / Functional analysis of virulence related and essential genes in Candida albicans

Bader, Teresa Anna

January 2005

Die Bedeutung von Mykosen hat wegen der wachsenden Zahl immunsupprimierter Patienten in den letzten Jahren immer mehr zugenommen. Diese erkranken häufig an oberflächlichen sowie lebensbedrohlichen systemischen Infektionen mit dem opportunistisch humanpathogenen Hefepilz Candida albicans, da der Keim, der oftmals als harmloser Kommensale auf den Schleimhäuten im Gastrointestinaltrakt gesunder Menschen vorkommt, vom geschwächten Immunsystem nicht mehr in Schach gehalten werden kann. In dieser Arbeit sollten bestimmte Gene von C. albicans, die in anderen Organismen als essentiell für deren Lebensfähigkeit bzw. Virulenz beschrieben wurden, als potentielle Zielstrukturen für die Entwicklung neuer Antimykotika charakterisiert werden. Das CMP1-Gen kodiert für die katalytische Untereinheit der konservierten Calcium/Calmodulin-abhängigen Phosphatase Calcineurin, die in der Bäckerhefe Saccharomyces cerevisiae und in anderen Organismen verschiedene physiologische Prozesse reguliert und essentiell für die Virulenz des pathogenen Hefepilzes Cryptococcus neoformans ist. Um die Bedeutung von Calcineurin für das Überleben und die Virulenz von C. albicans zu untersuchen, wurden homozygote cmp1 knock-out-Mutanten sowohl in einem auxotrophen C. albicans-Laborstamm als auch, mit Hilfe eines neuen dominanten Selektionsmarkers, in einem prototrophen Wildstamm hergestellt. Die Mutanten erwiesen sich als hypersensitiv gegenüber Natrium, Calcium, Mangan und Lithium sowie gegenüber alkalischem pH-Wert. Darüber hinaus konnten die mutierten Zellen Membranstreß, der durch SDS- oder Fluconazol-Zugabe verursacht wurde, nicht tolerieren und waren unter diesen Bedingungen stark in ihrem Wachstum gehemmt. Andere wichtige Virulenzeigenschaften wie die Toleranz gegenüber Wirts-Körpertemperatur und die Fähigkeit zur Hyphenbildung zeigten sich durch die CMP1-Deletion in vitro nicht beeinträchtigt. Dennoch machte die Anwendung eines murinen Modells einer systemischen Candidose in vivo deutlich, daß die Mutanten sehr stark in ihrer Virulenz attenuiert waren. Der Virulenzdefekt war vermutlich zumindest zum Teil dadurch bedingt, daß die Calcineurin-defizienten Zellen im Gegensatz zum Wildtyp in humanem Serum nicht wachsen konnten und deshalb möglicherweise schlechter über die Blutbahn disseminieren konnten. Außer Calcineurin wurden in Kooperation mit einem Industriepartner drei weitere Gene, YML127, YPR143, und YML93, die in S. cerevisiae als essentiell beschrieben wurden und die keine signifikanten Homologien zu Vertebraten-Genen aufwiesen, in der C. albicans-Genomsequenz identifiziert und auf ihre Eignung als potentielle Targets hin untersucht. Die Funktion dieser Gene war zu Beginn dieser Arbeit unbekannt; vor kurzem wurde jedoch gezeigt, daß sie in S. cerevisiae eine Rolle beim Chromatin-Remodeling bzw. bei der rRNA-Prozessierung haben. Nachdem sich alle Gene auch in C. albicans als essentiell herausgestellt hatten, wurden konditional letale Mutanten hergestellt, in denen die Gene durch induzierbare Deletion mit Hilfe der site-spezifischen Rekombinase FLP aus dem Genom entfernt wurden. Dadurch wurde eine Population von Nullmutanten erhalten, in denen der terminale Phänotyp der Gendeletion analysiert werden konnte. Die funktionelle Analyse des YML127 (RSC9) Gens wies darauf hin, daß es in C. albicans eine ähnliche Funktion hat wie in der Bäckerhefe, in der das Rsc9-Protein ein Bestandteil des RSC-Protein-Komplexes ist, der die Struktur des Chromatins in Abhängigkeit von Zellzyklus und Umweltbedingungen umorganisiert und damit die Aktivität von Genen steuert. Mit Hilfe eines HA-Epitop markierten YML127-Gens konnte das Genprodukt im Zellkern von C. albicans lokalisiert werden. Die C. albicans yml127-Nullmutanten produzierten verlängerte, mehrfach knospende Zellen, was einen Verlust der Koordination zwischen Mitose und Zytokinese vermuten ließ. Die beiden Gene YPR143 und YML93 (UTP14) scheinen wie ihre homologen Vertreter in S. cerevisiae an der Prozessierung der ribosomalen RNA beteiligt zu sein. Heterozygote Mutanten wiesen eine Haploinsuffizienz auf, die sich in einer erhöhten Suszeptibilität gegenüber Hemmstoffen der rRNA-Synthese und der Ribosomenaktivität zeigte, und in den induzierten Nullmutanten akkumulierten Vorstufen der reifen rRNAs. In beiden Fällen führte die Gendeletion zu Anomalien im Zellzyklus; die ypr143-Mutanten wiesen eine vergrößerte unförmige Zellmorphologie auf, und die yml93-Mutanten bildeten große, rundliche Zellen. Die Ergebnisse dieser Arbeit erlauben nicht nur wichtige Einblicke in die Funktion der untersuchten Gene in essentiellen zellulären Prozessen, sondern zeigen auch deren Bedeutung für die Virulenz bzw. für das Überleben des humanpathogenen Hefepilzes C. albicans. Die entsprechenden Genprodukte sollten sich deshalb prinzipiell als Angriffspunkte für die Entwicklung neuer antimykotischer Medikamente eignen. / The importance of fungal infections has steadily increased during the past decades due to the growing number of immunocompromised patients. These patients often suffer from superficial as well as life-threatening systemic infections with the opportunistic human pathogenic yeast Candida albicans, which is a harmless commensal on mucosal surfaces in many healthy people but cannot be controlled any more by a weakened immune system. On the other hand, virulence traits of the fungus also contribute to its pathogenicity, because they enable adaptation to different host niches. The success of medical treatment is limited by the emergence of resistance and by toxic side effects of antifungal drugs. Therefore, there is an urgent need to develop novel antimycotic agents. In this work selected C. albicans genes, which were known to be essential for viability or virulence in other organisms, were characterized as potential targets for the development of new antifungal drugs. The CMP1 gene encodes the catalytic subunit of the conserved calcium/calmodulin-dependent phosphatase calcineurin, which regulates a variety of physiological processes in the model yeast Saccharomyces cerevisiae and other organisms and is essential for virulence of the pathogenic yeast Cryptococcus neoformans. To investigate the importance of calcineurin for survival and virulence of C. albicans, homozygous cmp1 knock-out mutants were constructed in an auxotrophic C. albicans laboratory strain as well as, using a new dominant selection marker, in a prototrophic wild-type strain. The mutants showed hypersensitivity to increased concentrations of ions and to alkaline pH. In addition, the mutated cells could not tolerate membrane stress resulting from SDS or fluconazole treatment and their growth was strongly inhibited under these conditions. Other characteristics that are important for virulence, like tolerance to the host body temperature and the ability to switch to a hyphal growth form, were not affected by the CMP1 deletion. Nevertheless, the mutants were avirulent in a murine model of systemic candidiasis. The virulence defect could be explained at least in part by the fact that, in contrast to the wild-type, the cmp1 mutants were unable to grow in human serum and therefore might have a reduced capacity to disseminate via the bloodstream. In addition to CMP1, three other genes, YML127, YPR143, and YML93, were selected in cooperation with an industrial partner from the available C. albicans genome sequence and evaluated as potential targets. These genes had been reported to be essential in S. cervisiae and they did not exhibit significant homology to mammalian genes. At the beginning of the present work the function of the three genes was unknown, but recently it was demonstrated that their counterparts in S. cerevisiae have roles in chromatin remodeling or rRNA processing. It was demonstrated that all three genes are also essential in C. albicans. Therefore, conditional lethal mutants were constructed in which the genes could be excised from the genome by inducible deletion using the site-specific FLP recombinase. In this way, populations of null mutants were obtained in which the terminal phenotype of the gene deletion could be analyzed. The functional analysis of the YML127 (RSC9) gene showed that it has a similar function in C. albicans as in S. cerevisiae, where the Rsc9 protein is a component of the RSC complex that remodels the structure of chromatin in a cell cycle dependent manner and in response to environmental conditions and thereby controls gene activity. Using an HA-epitope-tagged YML127 gene the Yml127 protein could be localized in the nucleus in C. albicans. The C. albicans yml127 null mutants produced elongated, multi-budded cells, pointing to a loss of coordination of mitosis and cytokinesis. The genes YPR143 and YML93 (UTP15) seem to be involved in the processing of the ribosomal RNA, like their counterparts in S. cerevisiae. Heterozygous mutants exhibited a haploinsufficient phenotype, which was evident from their hypersusceptibility to inhibitors of rRNA synthesis and ribosome activity, and the induced null mutants accumulated precursors of the mature rRNAs. In both cases the gene deletion resulted in cell cycle defects; the ypr143 null mutants produced enlarged, misshapen cells, and the yml93 mutants formed large, round cells. The results of this work not only provide valuable clues about the function of the investigated genes in essential cellular processes, but also demonstrate their importance for virulence and viability of the human pathogenic fungus C. albicans. In principle, the corresponding gene products should therefore be suitable targets for the development of novel antifungal drugs.

Candida albicans

Virulenz

Calcineurin

Gen

ddc:570

Recognition of calcineurin by the domains of calmodulin: thermodynamic and structural determinants

O'Donnell, Susan Ellen

01 December 2009

Calcineurin (CaN), a heterodimeric Ca2+-calmodulin-dependent Ser/Thr phosphatase, regulates diverse pathways, from stress responses in yeast to T-cell activation and cardiac hypertrophy in humans. Calmodulin (CaM), an essential mediator of calcium–dependent signaling pathways, activates CaN in the presence of calcium by binding to an intrinsically disordered region of the enzyme and altering its conformation. My hydrodynamic studies have determined that CaM participates in a 1:1 complex with the CaM-binding domain of βCaN (CaNp, residues 400–423). To explore the molecular mechanism of CaM association with CaN, I have used spectroscopic methods to determine the calcium-dependent and domain–specific interactions of CaM with CaNp. These studies revealed that the affinity of CaM1–148 for CaNp was weak in the absence of calcium, and very high (Kd in the nM to pM range) in the presence of calcium. I have demonstrated that CaNp binding to CaM increases the calcium–binding affinity of each domain of CaM1–148 to a similar degree, thereby retaining the property of sequential calcium binding to the domains, with preference for sites in the C–domain. This allows the N–domain to lag in response to an increase in cellular calcium and perhaps contribute to the regulation of CaN in a manner distinct from that of the C–domain. NMR studies of calcium–saturated CaM1–148 demonstrated that the N–domain of CaM experienced a larger structural perturbation than the C–domain upon binding CaNp. Additional NMR studies revealed that CaNp adopts an anti–parallel orientation when bound to CaM, with the sole aromatic residue of CaNp contacting the N–domain of CaM. This contrasts with many CaM-target complexes in which the sole aromatic residue contacts the C–domain of CaM. Rigorous thermodynamic studies explored how mutations in the calcium-binding sites of mammalian CaM (mCaM) and mutations known to cause disruption of CaM–mediated ion channel regulation in Paramecia (PCaM) affected the allosteric interactions of the domains of CaM in the presence of CaNp. These studies demonstrated separable roles of the domains of CaM in recognition of CaNp. The consequences of a mutation depended upon its location within the complex. Collectively, research presented in this thesis provides insight into the mechanisms whereby the two domains of CaM contribute to recognition of CaN.

Allostery

Calcineurin

Calmodulin

Fluorescence

NMR

Thermodynamics

Biochemistry

The Effects of Oxidative Stress on Calcineurin Activity and DJ-1 Subcellular Localization

Diec, Diana

14 January 2010

Oxidative stress and mutations in DJ-1, a redox sensitive protein, are linked to Parkinson's Disease. The protective mechanism of DJ-1 is unclear. I hypothesized that: 1) DJ-1 mediates protection by translocating to mitochondria after oxidative stress and, 2) when DJ-1 is downregulated, apoptotic pathways regulated by calcineurin are also downregulated. In PC12 cells and rat cortical neurons, oxidative stress resulted in the upregulation of DJ-1 and increased DJ-1 in the nucleus, but did not increase mitochondrial translocation of DJ-1. In cortical neurons and wildtype mouse embryonic fibroblasts, H2O2 induced cleavage of CnA into an inactive fragment. DJ-1 knockout fibroblasts had less nuclear localization of the transcription factor NFATc4, a substrate of calcineurin involved in apoptosis. H2O2 increased CnA cleavage in DJ-1 knockout fibroblasts, but NFATc4 localization was unchanged. These results suggest that the downregulation of apoptotic pathways regulated by calcineurin may be a compensatory response to the downregulation of DJ-1.

oxidative stress

DJ-1, calcineurin

0317

The Effects of Oxidative Stress on Calcineurin Activity and DJ-1 Subcellular Localization

Diec, Diana

14 January 2010

Oxidative stress and mutations in DJ-1, a redox sensitive protein, are linked to Parkinson's Disease. The protective mechanism of DJ-1 is unclear. I hypothesized that: 1) DJ-1 mediates protection by translocating to mitochondria after oxidative stress and, 2) when DJ-1 is downregulated, apoptotic pathways regulated by calcineurin are also downregulated. In PC12 cells and rat cortical neurons, oxidative stress resulted in the upregulation of DJ-1 and increased DJ-1 in the nucleus, but did not increase mitochondrial translocation of DJ-1. In cortical neurons and wildtype mouse embryonic fibroblasts, H2O2 induced cleavage of CnA into an inactive fragment. DJ-1 knockout fibroblasts had less nuclear localization of the transcription factor NFATc4, a substrate of calcineurin involved in apoptosis. H2O2 increased CnA cleavage in DJ-1 knockout fibroblasts, but NFATc4 localization was unchanged. These results suggest that the downregulation of apoptotic pathways regulated by calcineurin may be a compensatory response to the downregulation of DJ-1.

oxidative stress

DJ-1, calcineurin

0317

Expression of ZAKI-4 in Mammalian Cells

Hattori, Kimihiko, Hayano, Shinji, Seo, Hisao

12 1900

国立情報学研究所で電子化したコンテンツを使用している。

ZAKI-4

calcineurin inhibitor

subcellular localization

Cyclosporin A (CsA)-sensitive Pathway for the Induction of ZAKI-4 Expression by Thyroid Hormone

KAMBE, Fukushi, SEO, Hisao, CAO, Xia

12 1900

国立情報学研究所で電子化したコンテンツを使用している。

ZAKI-4

calcineurin

CsA

FK506

thyroid hormone