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Showing 71 to 80 of 86 (0.028 seconds)Spelling suggestions: "subject:"luciferase"" "subject:"iuciferase""
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Functional Analysis of the TRIB1 Locus in Coronary Artery DiseaseDouvris, Adrianna 21 July 2011 (has links)
The TRIB1 locus (8q24.13) is a novel locus associated with plasma TGs and CAD risk. Trib1 is a regulator of MAPK activity, and has been shown to regulate hepatic lipogenesis and VLDL production in mice. However, the functional relationship between common SNPs at the TRIB1 locus and plasma lipid traits is unknown; TRIB1 has not been identified as an eQTL. This cluster of SNPs falls within an intergenic region 25kb to 50kb downstream of the TRIB1 coding region. By phylogenetic footprinting analysis and DNA genotyping, we identified an evolutionarily conserved region (CNS1) within the risk locus that harbours two common SNPs in tight LD with GWAS risk SNPs and significantly associated with CAD. We investigated the regulatory function of CNS1 by luciferase reporter assays in HepG2 cells and demonstrate that this region has promoter activity. In addition, the rs2001844 risk allele significantly reduces luciferase activity, suggesting that altered expression of the EST-based gene may be associated with plasma TGs. We identified an EST within the risk locus directly downstream of CNS1. We performed 5'/3' RACE using HepG2 RNA, identified multiple variants of this EST-based gene, and confirmed its transcription start site within CNS1. We hypothesize that this EST is a long noncoding RNA due to low abundance, poor conservation, and absence of significant ORF. Over-expression of a short variant implicates its function in the regulation of target gene transcription, although the mechanism of action remains unknown. We conclude that the risk locus at 8q24.13 harbours a novel EST-based gene that may explain the relationship between GWAS SNPs at this locus and plasma lipid traits.
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Photoacoustic drug delivery using carbon nanoparticles activated by femtosecond and nanosecond laser pulsesChakravarty, Prerona 09 January 2009 (has links)
Cellular internalization of large therapeutic agents such as proteins or nucleic acids is a challenging task because of the presence of the plasma membrane. One strategy to facilitate intracellular drug uptake is to induce transient pores in the cell membrane through physical delivery strategies. Physical approaches are attractive as they offer more generic applicability compared with viral or biochemical counterparts. Pulsed laser light can induce the endothermic carbon-steam reaction in carbon-nanoparticle suspensions to produce explosive photoacoustic effects in the surrounding medium. In this study, for the first time, these photoacoustic forces were used to transiently permeabilize the cell membrane to deliver macromolecules into cells. Intracellular delivery using this method was demonstrated in multiple cell types for uptake of small molecules, proteins and DNA. At optimized conditions, uptake was seen in up to 50% of cells with nearly 100% viability and in 90% of cells with ≥90% viability, which compared favorably with other physical methods of drug delivery. Cellular bioeffects were shown to be a consequence of laser-carbon interaction and correlated with properties of the carbon and laser, such as carbon concentration and size, laser pulse duration, wavelength, intensity and exposure time. Similar results were observed using two different lasers, a femtosecond Ti: Sapphire laser and a nanosecond Nd: YAG laser. Uptake was also shown in murine skeletal muscles in vivo with up to 40% efficiency compared to non-irradiated controls. This synergistic use of nanotechnology with advanced laser technology could provide an alternative to viral and chemical-based drug and gene delivery.
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Functional Analysis of the TRIB1 Locus in Coronary Artery DiseaseDouvris, Adrianna 21 July 2011 (has links)
The TRIB1 locus (8q24.13) is a novel locus associated with plasma TGs and CAD risk. Trib1 is a regulator of MAPK activity, and has been shown to regulate hepatic lipogenesis and VLDL production in mice. However, the functional relationship between common SNPs at the TRIB1 locus and plasma lipid traits is unknown; TRIB1 has not been identified as an eQTL. This cluster of SNPs falls within an intergenic region 25kb to 50kb downstream of the TRIB1 coding region. By phylogenetic footprinting analysis and DNA genotyping, we identified an evolutionarily conserved region (CNS1) within the risk locus that harbours two common SNPs in tight LD with GWAS risk SNPs and significantly associated with CAD. We investigated the regulatory function of CNS1 by luciferase reporter assays in HepG2 cells and demonstrate that this region has promoter activity. In addition, the rs2001844 risk allele significantly reduces luciferase activity, suggesting that altered expression of the EST-based gene may be associated with plasma TGs. We identified an EST within the risk locus directly downstream of CNS1. We performed 5'/3' RACE using HepG2 RNA, identified multiple variants of this EST-based gene, and confirmed its transcription start site within CNS1. We hypothesize that this EST is a long noncoding RNA due to low abundance, poor conservation, and absence of significant ORF. Over-expression of a short variant implicates its function in the regulation of target gene transcription, although the mechanism of action remains unknown. We conclude that the risk locus at 8q24.13 harbours a novel EST-based gene that may explain the relationship between GWAS SNPs at this locus and plasma lipid traits.
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Functional analyses of polymorphisms in the promoters of the KLK3 and KLK4 genes in prostate cancerLai, John January 2006 (has links)
This PhD aimed to elucidate the mechanisms by which polymorphisms may alter androgen-induced transactivation of androgen receptor (AR) target genes which may be important in prostate cancer aetiology. The second aspect of this PhD focused on identifying and characterising functional polymorphisms that may have utility as predictive risk indicators for prostate cancer and which may aid in earlier therapeutic intervention and better disease management. Analyses were carried out on the kallikrein-related peptidase 3 (KLK3), also known as the prostate specific antigen (PSA), gene and the kallikrein-related peptidase 4 (KLK4) gene. The PSA and KLK4 genes are part of the serine protease family that have trypsin or chymotrypsin like activity and are thought to play a role in the development of hormone-dependent cancers in tissues such as those in the prostate, breast, endometrium and ovaries. In the prostate, PSA is regulated by androgens and three androgen response elements (AREs) have been described in the promoter and upstream enhancer region. The PSA ARE I harbours a polymorphism at -158 bp from the transcription initiation site (TIS) that results in a G to A transition (G-158A). This PhD investigated the functional significance of the PSA G-158A polymorphism which has been reported to be associated with prostate cancer risk. Electromobility shift assays (EMSAs) investigating the interaction of ARE I variants with the AR DNA binding domain (AR-DBD) demonstrated that the A allele had a two-fold increased binding affinity for the AR-DBD when compared with the G allele. This was confirmed with endogenous AR in limited proteolysis-EMSA experiments. The limited proteolysis-EMSA experiments also demonstrated differential sensitivities of PSA ARE I alleles to trypsin digestion, which suggests that the G-158A polymorphism has an allosteric effect on the AR that alters AR/ARE I complex stability. Furthermore, Chromatin Immunoprecipitation (ChIP) assays suggest that the A allele more readily recruited the AR in vivo when compared with the G allele and is consistent with the in vitro binding data. Luciferase reporter assays carried out in both LNCaP and 22Rv1 prostate cancer cells, and using the natural (dihydrotestosterone; DHT) ligand demonstrated that the A allele was more responsive to androgens in LNCaP cells. Hence, this study has elucidated the potential mechanisms by which the G-158A polymorphism may differentially regulate PSA expression (of which up-regulation of PSA is thought to be important in prostate cancer development and progression). KLK4 has similar tissue-restricted expression as PSA and is up-regulated by steroid hormones in many endocrine cells including those in the prostate. A putative ARE (KLK4-pARE) located at -1,005 to -1019 relative to the more predominantly used transcription initiation site, TIS3, was initially found in supershift assays using AR antibodies to interact with endogenous AR. However, subsequent EMSA analysis using purified AR-DBD suggest that KLK4-pARE may be interacting with the AR indirectly. To investigate this hypothesis, a tandem construct of KLK4-pARE was cloned into the pGL3-Promoter vector for hormone-induced reporter assays. However, reporter assays did not demonstrate any responsiveness of KLK4-pARE to androgens, estradiol or progestins. Consequently, Real-Time PCR was carried out to reassess the hormonal regulation of KLK4 at the mRNA level. Consistent with the literature, data from this study suggests that KLK4 may be up-regulated by androgens, progestins and estradiol in a cyclical manner. Hormone-induced luciferase reporter assays were then carried out on seven promoter constructs that span 2.8 kb of the KLK4 promoter from TIS3. However, none of the seven promoter constructs demonstrated any significant responsiveness to androgens, estradiol or progestins. This study suggests that hormone response elements (HREs) that may drive the hormonal regulation of KLK4 in prostate cancer may be located further upstream from the promoter region investigated in this PhD, or alternatively, may lie 3' of TIS3. The characterisation of KLK4 promoter polymorphisms and their flanking sequences were also carried out in parallel to the functional work with the intent to assess the functional significance of any polymorphisms that may be located within HREs. In total 19 polymorphisms were identified from the public databases and from direct sequencing within 2.8 kb of the KLK4 promoter from TIS3. However, the functional and clinical significance of these 19 polymorphisms were not further pursued given the negative findings from the functional work. The PSA AR enhancer region was also assessed for potential polymorphisms that may be associated with prostate cancer risk. A total of 12 polymorphisms were identified in the PSA enhancer of which two (A-4643G and T-5412C) have been reported to alter functionality of the enhancer region and thus, prioritised for further analysis. Association analysis for prostate cancer risk was then carried out on these PSA enhancer polymorphisms as none of the KLK4 promoter polymorphisms were found in functional HREs. No significant association for either the A-4643G or T-5412C polymorphism with prostate cancer risk was found at the P = 0.05 level. However, under an age-adjusted dominant model a 1.22- (95% CI = 1.16-1.26) and 1.23-fold (95% CI = 1.17-1.29) increased risk for prostate cancer was found for the A-4643G or T-5412C polymorphisms, respectively. Both polymorphisms were also assessed for association with tumour grade and stage and PSA levels. Genotypes were significantly different for the A-4643G and T-5412C polymorphisms with tumour stage and PSA levels, respectively. However, these results are likely to be biased by the case population which consist primarily of men who presented with incidental (pT1) and organ-confined (pT2) tumours. To summarise, the A-4643G and T-5412C polymorphisms are unlikely to be associated with prostate cancer risk, PSA levels or stage/grade of disease. However, further analyses in a larger cohort is warranted given that these polymorphisms alter androgen responsiveness of the PSA enhancer and that elevated PSA levels are indicative of men with prostate cancer. To summarise, this PhD has elucidated the functional significance of the PSA G-158A polymorphism in prostate cancer and which may be important in prostate cancer patho-physiology. This PhD has also furthered the understanding of the hormonal regulation of KLK4 in prostate cancer cells. Finally, this PhD has carried out a pilot study on two functional PSA enhancer polymorphisms (A-4643G and T-5412C) with prostate cancer risk.
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Functional Analysis of the TRIB1 Locus in Coronary Artery DiseaseDouvris, Adrianna January 2011 (has links)
The TRIB1 locus (8q24.13) is a novel locus associated with plasma TGs and CAD risk. Trib1 is a regulator of MAPK activity, and has been shown to regulate hepatic lipogenesis and VLDL production in mice. However, the functional relationship between common SNPs at the TRIB1 locus and plasma lipid traits is unknown; TRIB1 has not been identified as an eQTL. This cluster of SNPs falls within an intergenic region 25kb to 50kb downstream of the TRIB1 coding region. By phylogenetic footprinting analysis and DNA genotyping, we identified an evolutionarily conserved region (CNS1) within the risk locus that harbours two common SNPs in tight LD with GWAS risk SNPs and significantly associated with CAD. We investigated the regulatory function of CNS1 by luciferase reporter assays in HepG2 cells and demonstrate that this region has promoter activity. In addition, the rs2001844 risk allele significantly reduces luciferase activity, suggesting that altered expression of the EST-based gene may be associated with plasma TGs. We identified an EST within the risk locus directly downstream of CNS1. We performed 5'/3' RACE using HepG2 RNA, identified multiple variants of this EST-based gene, and confirmed its transcription start site within CNS1. We hypothesize that this EST is a long noncoding RNA due to low abundance, poor conservation, and absence of significant ORF. Over-expression of a short variant implicates its function in the regulation of target gene transcription, although the mechanism of action remains unknown. We conclude that the risk locus at 8q24.13 harbours a novel EST-based gene that may explain the relationship between GWAS SNPs at this locus and plasma lipid traits.
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Rôle du ribosome dans la sénescenceDel Toro Del Toro, Neylen 12 1900 (has links)
La sénescence est considérée comme un mécanisme de suppression tumorale puisque les cellules potentiellement dangereuses, activent leurs protéines de sauvegarde pour arrêter leur prolifération. Les protéines de sauvegarde telles que RB et p53 sont activées suite à différents stress comme des dommages à l’ADN, le raccourcissement des télomères ou l’induction oncogénique. Les cellules sénescentes restent métaboliquement actives, subissent des modifications dans leur expression génique, et sécrètent des cytokines et des chimiokines qui ont des effets paracrines pro-oncogéniques, mais peuvent également contribuer à la stabilité de l’arrêt du cycle cellulaire dans la sénescence de façon autocrine. Une des particularités du phénotype sénescent est la dégradation sélective des protéines dépendante de l’ubiquitination et du protéasome. Parmi les cibles de dégradation se trouvent des protéines impliquées dans la biogenèse du ribosome, ainsi que celles d’autres voies cellulaires requises pour la croissance de cellules cancéreuses. Ceci est lié à un stress nucléolaire qui affecte la biogenèse du ribosome, menant à l’accumulation, dans le nucléoplasme ou le nucléole, de protéines ribosomiques. Ce comportement suggère que les ribosomes des cellules sénescentes seraient structurellement différents. Par conséquent, ceci pourrait entrainer des effets sur leurs capacités à réguler l’initiation, l’élongation et/ou la terminaison de la traduction des ARN messagers (ARNm). Par ailleurs, la déplétion de certaines protéines impliquées dans la ribogenèse, ainsi que la surexpression de protéines ribosomiques telles que RPS14/uS11 amènent à la sénescence.
Malgré le stress nucléolaire et les défauts de ribogenèse associés à la sénescence, les cellules sénescentes présentent des niveaux de translecture du codon d’arrêt très diminué, suggérant l’existence de défauts de production de protéines allongées en C-terminal.
Nous émettons l’hypothèse que les défauts de la ribogenèse affecteraient la fonction des protéines ribosomiques et des ribosomes. Cette perturbation aurait un impact sur le rôle de suppresseur tumoral de la sénescence.
Le premier objectif de cette thèse consiste à démontrer le rôle de RPL22/eL22 en tant que régulateur du cycle cellulaire et inducteur de la sénescence. Le deuxième but est de démontrer que, malgré la perturbation nucléolaire, les ribosomes des fibroblastes sénescents reconnaissent les codons d’arrêt de façon plus efficace que les ribosomes des cellules transformées, ou des cellules normales en prolifération.
Nous avons démontré que le phénotype de sénescence peut être induit quand l’expression de RPL22/eL22 est augmentée. RPL22/eL22 s’accumule principalement dans le nucléole, de manière différente de RPS14/uS11, dont l’accumulation est nucléoplasmique. En effectuant des essais kinases in vitro, nous avons montré que RPL22/eL22, tout comme RPS14/uS11, peuvent interagir et inhiber le complexe CDK4-Cycline D1 afin d’activer la voie de RB et établir l’arrêt du cycle cellulaire et la sénescence.
Afin de démontrer la fidélité de la terminaison de la traduction dans les cellules sénescentes, nous avons utilisé un système de rapporteurs de luciférases, pour détecter les erreurs de translecture ainsi que pour avoir un contrôle interne du système. L’inactivation de la voie du suppresseur tumoral RB par surexpression de CDK4 ou de l’oncoprotéine virale E7, nous a permis d’observer l’augmentation de la translecture dans les cellules sénescentes. Tandis que l’activation de la voie de suppression tumorale RB, à l’aide du suppresseur de tumeur PML, de la surexpression de RPL22/eL22 et de RPS14/uS11, ainsi que de l’utilisation de Palbociclib (PD-0332991), un inhibiteur des kinases CDK4/6, a montré une réduction des erreurs de translecture.
Ces résultats indiquent une nouvelle fonction des protéines du ribosome en tant que suppresseurs de tumeur, permettant d’inhiber les erreurs de translecture du codon d’arrêt de façon dépendante de la voie de RB. Ces travaux suggèrent que de petites molécules ou peptides pourraient simuler les fonctions inhibitrices de ces protéines ribosomiques afin de traiter certains cancers où la voie de RB est activable. / Senescence is considered a mechanism for tumor suppression since potentially dangerous cells activate their protective proteins to stop their proliferation. Safeguard proteins such as RB and p53 are activated as a result of stress such as DNA damage, telomere shortening or oncogenic induction. Senescent cells are metabolically active, they undergo changes in their gene expression and secrete cytokines and chemokines with pro-oncogenic paracrine effects, but which can also contribute to the stability of the senescent cell cycle arrest in an autocrine way. One of the peculiarities of the senescent phenotype is the selective ubiquitination and proteasome dependent-degradation of proteins involved in ribosome biogenesis and other cellular pathways required for cancer cell growth, leading to the accumulation, in the nucleoplasm or nucleolus, of ribosomal proteins. This behavior suggests that the ribosomes of senescent cells are structurally different. Therefore, this could have effects on their ability to regulate the initiation, elongation and/or translation termination of messenger RNAs (mRNAs). Moreover, the depletion of some proteins involved in ribogenesis, as well as the overexpression of ribosomal proteins such as RPS14/uS11 lead to senescence.
Despite nucleolar stress and ribogenesis defects associated to senescence, global translation does not seem to be affected in senescence. Strikingly, senescent cells have reduced translational readthrough suggesting that they have defects in the production of C-terminal extended proteins.
We hypothesize that defects in ribogenesis would affect the function of ribosomal proteins and ribosomes influencing the tumor suppressor role of senescence. The first aim of this thesis is to demonstrate the role of RPL22/eL22 as a regulator of the cell cycle and senescence inducer. The second aim of this thesis is to demonstrate that, despite the nucleolar disruption, the ribosomes of senescent fibroblasts recognize stop codons more efficiently than ribosomes from transformed cells, but also than ribosomes from proliferating normal cells.
We found that the senescent phenotype can be induced by enhancing the expression of RPL22/eL22. RPL22/eL22 accumulates mainly in the nucleolus, unlike RPS14/uS11, whose accumulation is nucleoplasmic. By performing an in vitro kinase assay, we showed that RPL22/eL22, just like RPS14/uS11, can interact and inhibit the CDK4-Cyclin D1 complex in order to activate the RB pathway and establish cellular arrest and senescence.
To assess translation termination accuracy in senescent cells, we used a system of luciferase reporters to measure the fidelity of translation termination. Inactivation of the RB tumor suppressor pathway using CDK4 or the viral oncoprotein E7 also increased readthrough in senescent cells while overexpression of PML, a tumor suppressor that activates the RB pathway, overexpression of RPL22/eL22 and RPS14/uS11, as well as the use of Palbociclib (PD-0332991), a CDK4/6 inhibitor, reduce readthrough errors.
These results indicate a novel function of ribosomal proteins as tumor suppressors, making it possible to inhibit translational readthrough errors, in a RB-dependent pathway. This work suggests that small molecules or peptides could mimic the inhibitory functions of these ribosomal proteins in order to treat cancers where the RB pathway is activatable.
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Deconstructing bioluminescence: from molecular detail to in vivo imaging.Adams, Spencer T., Jr. 29 January 2020 (has links)
Bioluminescence is the chemical production of light that results when a luciferase enzyme catalyzes the luminogenic oxidation of a small-molecule luciferin substrate. The numerous luciferases and luciferins nature has evolved can be used to illuminate biological processes, from in vitro assays to imaging processes in live animals. However, we can improve the utility of bioluminescence through modification of these enzymes and substrates. My thesis work focuses on developing reporters that expand the bioluminescent toolkit and improving our understanding of how bioluminescence works on a molecular level.
The first part of my thesis focuses on characterizing luciferases and luciferins that improve bioluminescence imaging in vivo. Some of our luciferins can outperform the natural D-luciferin substrate in live mouse imaging, while others are selectively utilized by mutant luciferases in live mouse brain. We also engineered luciferins that can selectively report on endogenous enzymatic activity in live mice.
The second part of my thesis focuses on determining the molecular details of how enzymes related to firefly luciferase, long-chain fatty acyl-CoA synthetases (ACSLs), can function as latent luciferases. I have determined the structure for one of these enzymes and improved its bioluminescent activity with synthetic luciferins enough to image in live mouse brain. I also characterized the selectivity in chimerized enzymes that combine firefly luciferase and ACSLs. In summary, my work improves the utility of bioluminescence for in vivo use and informs us about how evolutionarily-related enzymes function as luciferases on a molecular level.
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Rolle von Cardiotrophin-1 für die Pathogenese von KardiomyopathienHaßfeld, Sabine 28 April 2004 (has links)
Cardiotrophin-1 ist ein Zytokin der Familie Interleukin-6-Familie, zu der auch IL-11, CNTF, OSM und LIF gehören. Diese Substanzen wirken über die gemeinsame Rezeptoruntereinheit gp130. CT-1 induziert die Hypertrophie von Kardiomyozyten und inhibiert die Apoptose kardialer und Zellen. In verschiedenen Tiermodellen der Herzinsuffizienz konnte eine gesteigerte myokardiale CT-1 Expression beobachtet werden. Kardiomyopathien sind wiederum kardiale Erkrankungen, die mit einer Hypertrophie und Apoptose einhergehen und zu einer Herzinsuffizienz führen können. Man geht davon aus, dass 25-50 Prozent der familiär sind. Hierbei handelt es sich um eine monogenetische Erkrankung, die überwiegend autosomal-dominant vererbt werden. Daneben konnten aber auch modifizierende Polymorphismen in neurohumoralen Faktoren identifiziert werden. Basierend auf diesen Ergebnissen war das Ziel dieser Arbeit die Analyse der möglichen Beteiligung genetischer Varianten der kodierenden sowie der regulatorischen Region an der Pathogenese der Hypertrophen bzw. Dilatativen Kardiomyopathie. Zusätzlich sollte die mRNA-Expression von CT-1 in Myokardbiopsien von Patienten mit Herzinsuffizienz quantifiziert werden. Hierfür musste zunächst die Sequenzen der 5´-flankierenden Region identifiziert und bezüglich ihrer regulatorischen Eigenschaften analysiert werden. Es konnten 1,1 kb der 5´-flankierenden Region sequenziert werden. Die anschließende Luciferase-Reportergen-Analyse wies regulatorische Aktivitäten für den gesamten Bereich nach. Diese Region enthält zahlreiche cis-aktive DANN-Sequenzen aber keine TATA-Box. Für die Mutationssuche wurden 64 Patienten mit DCM, 53 Patienten mit HCM sowie 100 Kontrollpersonen mittels PCR-SSCP-Analyse untersucht. Es konnte eine kodierende Variante A92T bei jeweils einem DCM- bzw. HCM-Patienten identifiziert werden. Diese Substitution liegt in einem Bereich, der zwischen verschiedenen Spezies (Ratte, Maus, Mensch) konserviert ist. Diese Mutation könnte eine Veränderung der Sekundärstruktur bewirken und liegt in einem möglichen funktionellen Bereich. Die Promotorregion wies eine Basenpaarsubstitution bei -130 (G/T) sowie eine Deletion der Basen CTTT zwischen -992 und -995 auf. Der Polymorphismus an Position -130 fand sich tendenziell häufiger bei Patienten mit Dilatativer Kardiomyopathie. Die CTTT-Deletion konnte nur bei einer Patientin mit HCM nachgewiesen werden. Für die Quantifizierung der CT-1 mRNA wurden rechtsventrikuläre Endomyokardbiopsien von 6 Patienten mit eingeschränkter LVEF (CHI), 5 Patienten nach Herztransplantation (TX) sowie 3 Kontrollpatienten (KO) eingesetzt. Es konnte ein relativer Anstieg der CT-1 Expression um 82% bei den Patienten mit eingeschränkter LVEF festgestellt werden. Interessanterweise besteht eine enge Korrelation zur Schwere der eingeschränkten Herzfunktion sowie zur Zunahme der Hypertrophie. / Cardiotrophin-1 is a cytokine, which belongs to the interleukin-6 family, which includes IL-11, CNTF, OSM and LIF. These factors act via the receptor subunit gp130. CT-1 induces the hypertrophy of cardiomyocytes and inhibits the apoptosis of cardiac cells. Studies in animal models of congestive heart failure showed an enhanced expression of CT-1 in the myocardium. Cardiomyopathies are cardiac diesorders, which are charakterized by hypertrophy and apoptosis and which can terminate with congestive heart failure. About 25-50 percent of all cases are familial. It is a monogenetic mendelian disorder with an autosomal-dominant inheritance in most cases. Beside this, modifying polymorphisms in neurohunoral factors could be identified. Based on these facts, the aim of this study was to identify genetic variants within the coding and regulatory region of the CT-1 gene, which could influence the pathogenesis of hypertrophic or dilated cardiomyopathy. Additionally, the mRNA-expression of CT-1 in myocardial biopsies of heart failure patients should be quantified. First, it was necessary to sequence the 5´-untranslated region and to analyse its regulatory function. We could sequence 1.1 kb of the 5´-UTR. The luciferase reportergene assay showed a significant promoter activity for the whole region. The region contains various cis-active DNA sequences but no TATA-box.The TRANSFAC-analysis identified different binding sites for transcription factors but no TATA-box. The genetic material of 64 DCM and 53 HCM patients and 100 controls was screened for mutaions by using a PCR-based SSCP-analysis. A coding variant A92T could be identified for a patient with DCM and for an HCM patient. This mutation lies within a region which is conserved between different species (rat, mouse, human). This variant could disturb the secondary structure and lies in a probable functional region. Within the promoter we could identify a basepair substitution at position -130 (G/T) and a 4-basepair deletion between -992 and -995 (CTTTdel). The polymorphism at -130 showed a tendency for a higher occurrence in DCM patients. One HCM patient was heterozygous for the CTTT-deletion. To quantify the CT-1 mRNA we used endomyocardial biopsies of 6 patients with reduced LVEF (CHI), 5 patients after heart transplantation (TX) and 3 controls (KO). We performed a semiquantitative analysis by using HPLC and an external standard (PDH mRNA). We found an increased expression of CT-1 by 82% for patients with heart failure. Interestingly, we saw a tight correlation with to the reduction in LV function and to the degree of hypertrophy.
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Micro RNA-Mediated regulation of the full-length and truncated isoforms of human neurotrophic tyrosine kinase receptor type 3 (NTRK 3)Guidi, Mònica 13 January 2009 (has links)
Neurotrophins and their receptors are key molecules in the development of thenervous system. Neurotrophin-3 binds preferentially to its high-affinity receptorNTRK3, which exists in two major isoforms in humans, the full-length kinaseactiveform (150 kDa) and a truncated non-catalytic form (50 kDa). The twovariants show different 3'UTR regions, indicating that they might be differentiallyregulated at the post-transcriptional level. In this work we explore howmicroRNAs take part in the regulation of full-length and truncated NTRK3,demonstrating that the two isoforms are targeted by different sets of microRNAs.We analyze the physiological consequences of the overexpression of some of theregulating microRNAs in human neuroblastoma cells. Finally, we providepreliminary evidence for a possible involvement of miR-124 - a microRNA with noputative target site in either NTRK3 isoform - in the control of the alternativespicing of NTRK3 through the downregulation of the splicing repressor PTBP1. / Las neurotrofinas y sus receptores constituyen una familia de factores crucialespara el desarrollo del sistema nervioso. La neurotrofina 3 ejerce su funciónprincipalmente a través de una unión de gran afinidad al receptor NTRK3, del cualse conocen dos isoformas principales, una larga de 150KDa con actividad de tipotirosina kinasa y una truncada de 50KDa sin dicha actividad. Estas dos isoformasno comparten la misma región 3'UTR, lo que sugiere la existencia de unaregulación postranscripcional diferente. En el presente trabajo se ha exploradocomo los microRNAs intervienen en la regulación de NTRK3, demostrando que lasdos isoformas son reguladas por diferentes miRNAs. Se han analizado lasconsecuencias fisiológicas de la sobrexpresión de dichos microRNAs utilizandocélulas de neuroblastoma. Finalmente, se ha estudiado la posible implicación delmicroRNA miR-124 en el control del splicing alternativo de NTRK3 a través de laregulación de represor de splicing PTBP1.
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La voie de régulation de la traduction de l’ARNm ASH1 : une concertation entre Khd1, Puf6 et Loc1Forget, Amélie 05 1900 (has links)
La localisation des ARNm par transport dirigé joue un rôle dans le développement, la motilité cellulaire, la plasticité synaptique et la division cellulaire asymétrique. Chez la levure Saccharomyces cerevisiæ, la localisation d’ARNm est un phénomène dont les mécanismes de régulation sont conservés auprès de nombreux autres organismes. Lors de la division de la levure, plus d’une trentaine de transcrits sont localisés par transport actif à l’extrémité du bourgeon de la cellule-fille. Parmi ceux-ci, l’ARNm ASH1 est le mieux caractérisé et constitue le modèle utilisé dans cette étude. Pour exercer sa fonction, la protéine Ash1 doit être produite uniquement après la localisation de l’ARNm ASH1. Pour ce faire, les mécanismes de régulation de la traduction de l’ARNm ASH1 empêchent son expression durant le transport.
Ce projet de recherche vise à étudier les mécanismes de régulation de la traduction de l’ARNm ASH1 par les répresseurs traductionnels connus, soit Khd1, Puf6 et Loc1. Les études antérieures se sont penchées sur ces facteurs de manière individuelle. Cependant, dans cette étude, nous avons exploré la présence d’une collaboration entre ceux-ci. Ainsi, nous avons voulu déterminer si les répresseurs traductionnels peuvent être intégrés en une seule voie de régulation de la traduction de l’ARNm ASH1. De plus, nous avons cherché à identifier le mécanisme de recrutement des répresseurs traductionnels sur l’ARNm ASH1, qui correspond au point initial des voies de régulations de l’ARNm ASH1.
Nos résultats montrent que les répresseurs traductionnels de l’ARNm ASH1, soit Khd1 et Puf6, font partie d’une même voie de régulation de la traduction. Le rôle du facteur nucléaire Loc1 dans la voie de régulation de la traduction, quant à elle, a été examinée à partir d’expériences permettant l’étude du mécanisme de recrutement des répresseurs traductionnels dans le noyau. Ainsi, nos travaux montrent que Puf6 et Loc1 sont associés de manière ARN-dépendant avec la machinerie de transcription, notamment au facteur d’élongation de la transcription Spt4-Spt5/DSIF. Par ailleurs, notre laboratoire a précédemment montré que la localisation nucléaire de la protéine de liaison à l’ARN She2 est essentielle au recrutement des facteurs Loc1 et Puf6 sur l’ARNm ASH1. Des expériences d’immunoprécipitation de la chromatine (ChIP) supportent l’hypothèse que le recrutement de Loc1 est essentiel à celui de Puf6, qui s’effectue ultérieurement. Ainsi, à partir des résultats de cette étude et des résultats publiés précédemment dans notre laboratoire, nous avons élaboré un modèle de recrutement coordonné des facteurs She2, Loc1 et Puf6 sur l’ARNm ASH1 naissant. De manière générale, cette étude a permis d’établir la présence d’une seule voie de régulation de la traduction de l’ARNm ASH1 et une meilleure connaissance du recrutement des facteurs de répression traductionnelle sur celui-ci. / Directed transport mRNA localization play a role in the development, the cell motility, the synaptic plasticity and asymmetric cellular division. In the yeast Saccharomyces cerevisiæ, this regulation mechanism is conserved among many other species. During yeast cell division, around thirty mRNA are actively localized at the bud tip in the daughter cell. ASH1 mRNA is the best known among them and constitutes the model used in this study. In this model, Ash1 expression is possible only after proper localization of its mRNA. In order to do so, ASH1 mRNA translation is repressed by translational repressors during its active transport.
This project investigates the mechanism of ASH1 mRNA translational regulation that is carried out by the translational repressors Khd1, Puf6 and Loc1. Previous studies characterized the action of these factors individually. However, in this study, we now explored the possibility of a collaboration between them. Thus, we sought to determine if these translational repressors are part of the same ASH1 mRNA translational regulation pathway. In addition, we tried to identify the mechanisms of recruitment of these translational repressors on ASH1 mRNA, the molecular mechanisms that initiates this process.
In this work, we show that the cytoplasmic translational repressors Khd1 and Puf6 are part of the same ASH1 mRNA translational regulation pathway. In this pathway, the role of the nuclear translational factor Loc1 was determined by the analysis of translational factors recruitment on ASH1 in the nucleus. We demonstrate that Puf6 and Loc1 interact in an RNA-dependent manner with the transcription machinery, via the transcription elongation factor Spt4-Spt5/DSIF. Finally, chromatin immunoprecipitation (ChIP) assays support the model that Loc1 recruitment to nascent ASH1 mRNA is essential for the subsequent recruitment of Puf6 to this transcript. With the results of this study and others previously done in the lab, we elaborated a recruitment model for the She2, Loc1 and Puf6 proteins on the nascent ASH1 mRNA. In conclusion, this study has established that the translational repressors Khd1, Puf6 and Loc1 are part of the same ASH1 mRNA translational regulation pathway and allowed a better understanding of the mechanism of recruitment of translational repressors on their target mRNA.
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