Global ETD Search

51	"Efeitos renais da haploinsuficiência do gene Pkd1 (Polycystic kidney disease 1) em camundongos" / Renal effects of Pkd1 gene haploinsufficiency in mice Mauri Félix de Sousa 19 October 2005 (has links) Vários estudos mostram que na doença renal policística autossômica dominante os cistos surgem a partir de um mecanismo de "dois-golpes". A patogênese das manifestações não-císticas, contudo, é pouco compreendida. Neste estudo usamos uma linhagem de camundongos endogâmica com uma mutação nula em Pkd1, onde animais heterozigotos apresentam formação cística renal mínima até 40 semanas de idade. O clearance de inulina e o número de glomérulos foram menores em machos Pkd1+/- que Pkd1+/+, enquanto o volume glomerular médio foi maior em heterozigotos. A excreção urinária de NO2/NO3 não diferiu significantemente entre os dois grupos. Avaliamos a osmolalidade urinária máxima em machos e fêmeas Pkd1+/- and Pkd1+/+, porém não foi detectada diferença significante entre os grupos heterozigoto e selvagem. Nossos resultados oferecem evidência direta de que a haploinsuficiência de Pkd1 resulta em anormalidades anatômicas e funcionais renais e sugerem que o estado haploinsuficiente de Pkd1 possa resultar na redução do número de néfrons por diminuir a ramificação tubular renal durante a nefrogênese / Several studies show that in autosomal dominant polycystic kidney disease cysts arise through a "two-hit" mechanism. The pathogenesis of non-cystic features, however, is poorly understood. In this study we used an inbred mouse line with a null mutation of Pkd1, where heterozygotes had minimal renal cyst formation up to 40 weeks of age. Inulin clearance and the number of glomeruli were lower in Pkd1+/- than in Pkd1+/+ males, while a higher average glomerular volume was observed in heterozygotes. The urinary excretion of NO2/NO3 did not significantly differ between the two groups. Maximal urinary osmolality was evaluated in Pkd1+/- and Pkd1+/+ males and females, but no significant difference was detected between the heterozygous and the wild type groups. Our results provide direct evidence that haploinsufficiency for Pkd1 results in anatomic and functional abnormalities of the kidney and suggest that Pkd1 haploinsufficiency may result in a reduced number of nephrons by diminishing renal tubule branching during nephrogenesis CAMUNDONGOS KNOCKOUT CAPACIDADE DE CONCENTRAÇÃO RENAL TAXA DE FILTRAÇÃO GLOMERULAR GLOMERULAR FILTRATION RATE KIDNEY CONCENTRATING ABILITY MICE KNOCKOUT
52	A haploinsuficiência de Pkd1 aumenta a lesão renal e induz formação de microcistos após isquemia/reperfusão em camundongos / Pkd1 haploinsufficiency increases renal damage and induces microcyst formation following ischemia/reperfusion in mice Ana Paula Almeida Bastos 28 July 2010 (has links) A maior parte dos casos de doença renal policística autossômica dominante (DRPAD) é causada por mutações no gene PKD1 (Polycystic Kidney Disease 1). O insulto por isquemia/reperfusão (IR) constitui-se em uma causa freqüente de lesão renal aguda, incluindo a população de pacientes com DRPAD, mas a relação entre policistina-1 e IR é essencialmente desconhecida. Uma vez que a policistina-1 modula proliferação, diferenciação celular e apoptose em sistemas de cultura de células, sua menor atividade biológica na DRPAD poderia favorecer um maior grau de lesão renal. Utilizamos uma linhagem endogâmica de camundongos 129Sv com uma mutação nula em Pkd1 para testar esta hipótese. Camundongos Pkd1+/- não apresentam cistos renais até 12 semanas de vida, constituindo-se em um modelo puro de haploinsuficiência para este gene. Um insulto IR bilateral de 32 min foi induzido em camundongos machos de 10-12 semanas de idade, heterozigotos e selvagens, por meio do clampeamento reversível de ambos os pedículos renais. Os animais foram analisados 48 h, 7 dias (d) e 14 d após o insulto. Camundongos Pkd1+/- apresentaram FENa, FEK e SCr mais elevadas que animais Pkd1+/+ 48 h após IR. O dano cortical residual foi mais severo em heterozigotos que em selvagens em todos os tempos avaliados. A marcação para PCNA também foi mais alta em camundongos Pkd1+/- que Pkd1+/+ 48 h e 7 d pós-IR, enquanto a taxa de apoptose e a infiltração inflamatória intersticial foram maiores em heterozigotos que em selvagens nos seguimentos de 48 h, 7 d e 14 d pós-IR. A expressão renal de p21 foi menor nos camundongos Pkd1+/- que Pkd1+/+ no tempo de 48 h pós-insulto, tanto no nível transcricional como traducional. Análises adicionais realizadas 6 semanas após o insulto IR revelaram dilatação tubular e formação de microcistos nos camundongos haploinsuficientes para Pkd1, assim como fibrose renal aumentada nesses animais, comparados aos camundongos selvagens. Por fim, um insulto de 35 min de isquemia/reperfusão acompanhou-se de uma mortalidade precoce substancialmente maior nos animais Pkd1+/-. Esses achados sugerem que isquemia/reperfusão induza uma lesão mais severa em rins de camundongos haploinsuficientes para Pkd1, um processo aparentemente dependente de uma deficiência relativa da atividade de p21, assim como dilatação tubular e formação de microcistos. Em conjunto, nossos resultados sugerem que a heterozigose para mutação nula em Pkd1 em camundongo (e talvez em humanos) esteja associada a um risco aumentado para lesão renal por isquemia/reperfusão e a um pior impacto desse insulto sobre a progressão da doença renal. / The majority of autosomal dominant polycystic kidney disease (ADPKD) cases are caused by mutations in the PKD1 gene. Ischemia/reperfusion is a frequent cause of acute kidney injury, including the ADPKD patient population, but the relationship between polycystin-1 and ischemia/reperfusion is essentially unknown. Since polycystin-1 modulates cell proliferation, cell differentiation and apoptosis in cell culture systems, its lower biological activity in ADPKD might amplify the degree of renal injury. Using an inbred 129Sv mouse line with a Pkd1-null mutation, 32-min renal ischemia/reperfusion was induced in 10-12 week-old male non-cystic mice, heterozygotes and wild types. The animals were analyzed at 48h, 7 days (d) and 14d after the insult. Pkd1+/- mice showed higher FENa, FEK and SCr than Pkd1+/+ animals at 48h of follow-up. The residual cortical damage was more severe in heterozygotes than wild types at all evaluated time points. The PCNA staining was also higher in Pkd1+/- than Pkd1+/+ mice at 48h and 7d, while cell apoptotic rates and the interstitial inflammatory infiltration were higher in heterozygotes than wild types at 48h, 7d and 14d postischemia/ reperfusion. The expression of p21 was lower in Pkd1+/- than Pkd1+/+ kidneys at 48h, both at the transcriptional and translational levels. Additional analyses performed 6 weeks after the insult showed tubular dilatation and microcyst formation in the haploinsufficient mice, and increased renal fibrosis in these animals compared to wild types. Thirty-fivemin ischemia/reperfusion, at last, was accompanied by a substantially higher early mortality of Pkd1+/- animals. These findings suggest that ischemia/reperfusion induces a more severe injury in kidneys of Pkd1- haploinsufficient mice, a process that is apparently dependent on a relative deficiency of p21 activity, as well as tubular dilatation and microcyst formation. Altogether, our results suggest that mouse Pkd1-null heterozygosity (and maybe human) is associated with a higher risk for renal ischemia/reperfusion injury and with a worse impact of this insult upon renal disease progression. Doenças renais císticas Isquemia Mutação Proliferação de células Rim policístico autossômico dominante Traumatismo por reperfusão Cell proliferation Cyclin-dependent kinase Inhibitor p21 Cystic kidney diseases Ischemia Mutation Reperfusion injury
53	Primary Microcephaly Gene MCPH1 Shows Signatures of Tumor Suppressors and is Regulated by miR-27a in Oral Squamous Cell Carcinoma Thejaswini, V January 2013 (has links) (PDF) Autosomal recessive primary microcephaly (MCPH) is a congenital neurodevelopmental disorder characterised by a reduced occipital-frontal head circumference (OFC) of less than -3 SDs below the population mean for age and sex. It is a genetically heterogeneous disorder caused by mutations in one of the following 10 MCPH genes: MCPH1 (microcephalin 1), WDR62 (WD repeat domain 62), CDK5RAP2 (cyclin-dependent kinase 5 regulatory associated protein 2), CASC5 (cancer susceptibility candidate 5), CEP152 (centrosomal protein 152 kDa), ASPM (asp [abnormal spindle] homolog, microcephaly associated [Drosophila]), CENPJ (centromeric protein J), STIL (SCL/TAL1-interrupting locus), CEP135 (centrosomal protein 135 kDa) and CEP63 (centrosomal protein 135 kDa). The MCPH1 (microcephalin 1) gene is located on chromosome 8p23.1. Microsatellite analysis has previously shown LOH at the markers D8S518 and D8S277 flanking the MCPH1 locus in 1/21 oral tumors. Furthermore, LOH at the markers D8S1742 and D8S277 flanking the MCPH1 locus has also been observed in 2/32 hepatocellular carcinomas. MCPH1 has been found to be mutated in breast and endometrial cancers. Additionally, it was found to be downregulated at the transcript level in 19/30 ovarian cancer tissues and the protein level in 93/319 breast cancer tissues. Decreased MCPH1 protein levels are associated with triple negative breast cancers and a lower transcript level of MCPH1 correlates with lesser time for metastasis to occur in breast cancer patients. Interestingly, MCPH1 knockout mice in a null TP53 background show susceptibility to cancer.So far, studies have indicated that MCPH1 is a DNA repair protein. MCPH1 is required for the formation of DNA repair foci, chromatin relaxation, HR and NHEJ. It regulates G1/S and G2/M cell cycle checkpoints. Also, depletion of MCPH1 leads to genomic instability and centrosome amplification. Hence, the defect in the function of MCPH1 can lead to plethora of anomalies including cancer. Based on these observations, we hypothesized that MCPH1 may also function as a tumor suppressor (TS) gene, in addition to its role in the brain development. The purpose of this study was to test if MCPH1 also functions as a TS gene using different approaches in OSCC (oral squamous cell carcinoma). OSCC is the sixth most common type of cancer. It includes the cancer of the lips, anterior 2/3rd of the tongue, buccal mucosa, floor of the mouth, retromolar trigone and gingiva. Despite the advances in the treatment of oral cancer, the five-yr survival rate has not increased. Hence, the effective treatment of OSCC requires the identification of molecular targets to design appropriate therapeutic strategies. LOH, mutations and promoter methylation in tumors are the hallmarks of TS genes. In order to ascertain the TS roles of MCPH1, we carried out LOH analysis in 81 matched blood/normal and tumor oral tissues using D8S1819, D8S277 and D8S1798 markers flanking the MCPH1 locus. The results showed LOH at one or more markers in 14/71 (19.72%) informative samples across the tumor stages from T1 to T4. The entire coding region and the exon-intron junctions of the MCPH1 gene were sequenced for mutations in 15 OSCC samples and 5 cancer cell lines (viz., A549, HeLa, KB, SCC084 and SCC131). In total, three mutations namely c.1561G>T(p.Glu521X), c.321delA(p.Lys107fsX39) and c.1402delA(p.Thr468fsX32) were identified. The expression of MCPH1 was analysed at both the transcript and protein levels by real-time quantitative RT-PCR and immunohistochemistry, respectively, in OSCC samples. MCPH1 was downregulated in 51.22% (21/41) of OSCC samples at the transcript level. The MCPH1 protein was downregulated in 76% (19/25) of the OSCC samples. In order to elucidate if the MCPH1 promoter was methylated in OSCC tissues, we retrieved the MCPH1 promoter from the database TRED (Transcriptional Regulatory Element Database). The promoter was analysed for the presence of CpG islands using the CpG Plot/CpG Report program. Two CpG islands (CpGI and CpGII) were identified within the MCPH1 promoter. Both the CpG islands were analysed for methylation in 40 OSCC samples by COBRA (Combined Bisulfite Restriction Analysis). CpGI showed no methylation in 40 OSCC samples. However, CpGII showed methylation in 4/40 (10%) OSCC samples and the methylation was absent in their corresponding normal oral tissues. To analyse the methylation of the MCPH1 promoter in cancer cell lines, HeLa, KB, SCC084 and SCC131 cells were treated with 5’-2-deoxy azacytidine (AZA), a methyltrasferase inhibitor. HeLa and KB cells did not show any change in the MCPH1 transcript level after the AZA treatment. However, SCC084 and SCC131 cells showed upregulation of MCPH1 after the treatment, suggesting methylation of the MCPH1 promoter. To validate these observations, we examined the methylation status of both the CpG islands in these cell lines. We found methylation of CpGII only in SCC084 cells. HeLa, KB and SCC131 cells showed no methylation of CpGI and CpGII. The results obtained by COBRA in these cell lines were further confirmed by bisulfite sequencing of CpGI and CpGII islands. Further, the upregulation of MCPH1 after azacytidine treatment in SCC131 cells can be attributed to a promoter independent mechanism or due to methylation of the CpG sites not examined by us. To elucidate the biological effects of MCPH1 in a cancer cell line, we generated stable clones overexpressing MCPH1 in KB cells. The results showed that MCPH1 overexpression decreased cellular proliferation, cell invasion, anchorage-independent growth in soft-agar and tumor growth in nude mice. Further, MCPH1 overexpression lead to apoptosis. A low frequency of LOH, mutations and promoter methylation suggested that they might not be the major mechanisms of downregulation of MCPH1 in OSCC. We then speculated that MCPH1 could be regulated by miRNAs. We therefore used five miRNA target prediction softwares to identify miRNAs targeting MCPH1. The programs identified two binding sites for miR-27a within the 5.4 kb region of the 3’-UTR of MCPH1. The luciferase assay showed that both the seed regions of MCPH1 were binding to miR-27a. In addition, transient transfection of the premiR-27a construct in KB cells decreased the protein level of MCPH1. Additionally, in a small panel of 10 OSCC samples, there was a negative correlation between the levels of miR-27a and MCPH1. To the best of our knowledge, this is the first report showing any miRNA regulating the MCPH1 gene. It is important to note that tumor suppressors can serve as potential biomarkers with prognostic value. Hence, we analysed the correlation of the expression levels of MCPH1 with clinico-pathological parameters such as TNM, gender, age and site of the cancer by Fischer’s exact test. No statistical correlation was observed between the transcript or protein levels with any of the clinico-pathological parameters. In summary, the results of the present study have suggested that the primary microcephaly gene MCPH1 shows several hallmarks of TS genes and functions as a tumor suppressor in OSCC, in addition to its role in brain development. We have for the first time shown that miR-27a targets MCPH1 and regulates its level. It is interesting to note that none of the other 10 MCPH genes have been shown to be regulated by any miRNA yet. Our study will be useful in designing novel therapeutic methods for the treatment of OSCC either by overexpression of MCPH1 or reducing the level of miR-27a by an antagomir. Oral Squamous Cell Carcinoma Microcephaly Tumor Suppressors Microcephaly Gene - Tumor Suppression Microcephaly Gene Regulation Microcephaly Gene Mutation Microcephaly Gene Methylation Microcephaly Gene (MCPH) Squamous Cell Carcinoma MCPH1 Microcephalin 1 Molecular Biology
54	Polykystose rénale autosomique dominante : de la génétique moléculaire au développement d'outils pronostiques / Autosomal dominant holycystic kidney disease (ADPKD) : from molecular genetics to the development of prognostic tools Cornec-Le Gall, Emilie 10 July 2015 (has links) La Polykystose Rénale Autosomique Dominante (PKRAD) est une des pathologies héréditaires les plus fréquentes et affecte environ un individu sur 1000. Elle se caractérise par une importante variabilité clinique, notamment dans l’âge de survenue de l’insuffisance rénale terminale. Deux gènes sont en cause : le gène PKD1 situé sur le chromosome 16 (85% des cas) et le gène PKD2 situé sur le chromosome 4 (15% des cas). Les progrès majeurs dans la compréhension des mécanismes moléculaires impliqués ont permis le développement de stratégies thérapeutiques spécifiques, et de nouvelles questions surgissent : quels patients traiter ? Quand débuter les traitements ? La cohorte Genkyst, qui vise à inclure tous les patients suivis pour PKRAD dans la région Grand Ouest, nous a d’abord permis de décrire la variabilité génétique rencontrée dans la PKRAD. Nous avons ensuite démontré l’existence de fortes corrélations génotype-phénotype, en rapportant l’influence sur l’âge de survenue de l’insuffisance rénale terminale non seulement du gène en cause, mais aussi du type de mutation pour le gène PKD1. Enfin, l’analyse des données cliniques et génétiques de 1341 patients nous a permis de développer un algorithme pronostique, baptisé le PROPKD score, permettant de stratifier le risque de progression vers l’insuffisance rénale terminale. Nous espérons que ces travaux participeront à l’individualisation de la prise en charge des patients atteints de PKRAD, ce qui est un enjeu crucial à l’arrivée des nouveaux traitements. / Autosomal Dominant Polycystic Kidney Disease (ADPKD) is one of the most frequent Mendelian inherited disorders, and affects approximately one individual out of 1000. ADPKD is marked by a high clinical variability, especially regarding age at end-stage renal disease (ESRD). Two genes are identified: PKD1 located on the chromosome 16 (85% of the pedigrees) and PKD2 located on the chromosome 4 (15% of the pedigrees). Substantial progress in understanding the cellular mechanisms underlying ADPKD has triggered the development of targeted therapies, and new questions are arising: which patients should be treated? When should we begin these treatments? Thanks to Genkyst cohort, which aims to include all consenting ADPKD patients from the western part of France, we first described the important allelic variability encountered in ADPKD. Secondly, we demonstrated the important influence of not only the gene involved, but also of PKD1 mutation type. Last, the analysis of clinical and genetic characteristics of 1341 patients from the Genkyst cohort allowed us to develop a prognostic algorithm, named the PROPKD score for predicting renal outcome in ADPKD. Our hope is that these works will participate in the development of individualized medicine in ADPKD, which is crucial in the context of the emerging targeted therapies. Génétique moléculaire PKD1 PKD2 Insuffisance rénale terminale Dialyse Transplantation rénale Facteurs prédictifs Médecine personnalisée Molecular genetics PKD1 PKD2 End-stage renal disease Dialysis Kidney transplantation Predictive factors Personalized medicine 572.8 616.61
55	The Role of Fibroblast Growth Factor 23 in Phosphate Homeostasis Larsson, Tobias Erik Martin January 2004 (has links) <p>The regulation of serum phosphate (Pi) concentrations is a complex process and our current models are far from complete. Due to major advancements in biotechnology and the development of more powerful research tools, recent advances in the field of genetics has led to the identification of several candidates for the long sought-after phosphatonin(s), or Pi regulating hormones. One of these candidates is fibroblast growth factor 23 (FGF-23) and this thesis is based upon studies of the role of FGF-23 in Pi homeostasis. We demonstrate that FGF-23 is a secreted protein which is highly expressed in tumors giving rise to oncogenic hypophosphatemic osteomalacia (OOM). Furthermore, we have developed a two-site enzyme-linked immunosorbent assay for the detection of circulating FGF-23 and established that FGF-23 is present in the circulation of healthy individuals. Also, FGF-23 serum levels are elevated in patients with disturbances in Pi homeostasis such as OOM, X-linked hypophosphatemic rickets (XLH) and chronic kidney disease and are likely to play an important role in the pathogenesis of these disorders. A transgenic mouse model that express human FGF-23 under the control of the α1(I) collagen promoter exhibit similar clinical and biochemical characteristics as do patients with OOM, XLH and autosomal dominant hypophosphatemic rickets indicating that FGF-23 is an important determinant of Pi homeostasis, vitamin D metabolism and bone mineralization.</p> Medicine Fibroblast Growth Factor 23 FGF-23 phosphate homeostasis vitamin D metabolism sodium/phosphate cotransporters ADHR X-linked hypophosphatemic rickets XLH oncogenic osteomalacia OOM PHEX Medicin
56	Molekulargenetische Verwandtschaftsanalysen am prähistorischen Skelettkollektiv der Lichtensteinhöhle / Molecular genetic kinship analyses of the prehistoric skeletal collective from the Lichtenstein cave Schilz, Felix 02 May 2006 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Lichtenstein Höhle Bronzezeit menschliche Knochen Verwandtschaftsrekonstruktion ancient DNA aDNA DNA Typisierungen autosomale STRs Y-chromosomale STRs mtDNA-Haplotypisierung Lichtenstein cave Bronze Age human bones kinship reconstruction ancient DNA aDNA DNA typing autosomal STRs Y-chromosomal STRs mtDNA haplotyping 30 42 RA W
57	The Role of Fibroblast Growth Factor 23 in Phosphate Homeostasis Larsson, Tobias Erik Martin January 2004 (has links) The regulation of serum phosphate (Pi) concentrations is a complex process and our current models are far from complete. Due to major advancements in biotechnology and the development of more powerful research tools, recent advances in the field of genetics has led to the identification of several candidates for the long sought-after phosphatonin(s), or Pi regulating hormones. One of these candidates is fibroblast growth factor 23 (FGF-23) and this thesis is based upon studies of the role of FGF-23 in Pi homeostasis. We demonstrate that FGF-23 is a secreted protein which is highly expressed in tumors giving rise to oncogenic hypophosphatemic osteomalacia (OOM). Furthermore, we have developed a two-site enzyme-linked immunosorbent assay for the detection of circulating FGF-23 and established that FGF-23 is present in the circulation of healthy individuals. Also, FGF-23 serum levels are elevated in patients with disturbances in Pi homeostasis such as OOM, X-linked hypophosphatemic rickets (XLH) and chronic kidney disease and are likely to play an important role in the pathogenesis of these disorders. A transgenic mouse model that express human FGF-23 under the control of the α1(I) collagen promoter exhibit similar clinical and biochemical characteristics as do patients with OOM, XLH and autosomal dominant hypophosphatemic rickets indicating that FGF-23 is an important determinant of Pi homeostasis, vitamin D metabolism and bone mineralization. Medicine Fibroblast Growth Factor 23 FGF-23 phosphate homeostasis vitamin D metabolism sodium/phosphate cotransporters ADHR X-linked hypophosphatemic rickets XLH oncogenic osteomalacia OOM PHEX Medicin
58	Des lapins watanabe au syndrome hyper IgE humain : caractérisation précoce de l'athérosclérose utilisant une probe optique ciblant l'integrin aVb3 / From Watanabe Rabbits to Human Hyper IgE Syndrome : Characterization of Early Atherosclerosis Using a High Affinity αvβ3 Integrin Targeted Optical Probe Héroux, Julie 20 December 2012 (has links) La détection précoce de l’athérosclérose, avant le développement de ses séquellespathologiques, comme l’infarctus du myocarde, l’angine ou l’accident cérébrauxvasculaire(ACV), représente un important défi au niveau de la médecine diagnostiqueactuelle. Malgré les récentes avances technologiques, les maladies cardiovasculairesdemeurent la principale cause de décès dans les pays occidentaux et la détection à unstage plus précoce s’avère nécessaire pour permettre une intervention thérapeutiqueadéquate. Notre étude se concentre sur la détection de l’athérosclérose, plusspécifiquement la vulnérabilité de la plaque, grâce à l’imagerie moléculaire combinée àl’observation pathologique. Afin de prédire la rupture de la plaque, l’imageriemoléculaire a émergé comme outil diagnostique puissant suite au développementcroissant de sondes ayant de l’affinité pour les molécules cibles du processusd’athérosclérose. Comme résultantes, ces molécules sélectives possédant une forteaffinité pour des cibles surexprimées durant le processus de formation de la plaque,comme l’αvβ3 par exemple, devrait représentées des sondes prometteuses pour ladétection de l’athérosclérose.Objectif L’objectif global de notre étude était d’évaluer et de prédire lavulnérabilité de la plaque d’athérome à l’aide de différents marqueurs moléculaires. Leprincipal objectif de notre recherche était d’évaluer la possibilité de détecter précocementla plaque en utilisant une ITOP (integrin targeted optical probe). Cette sonde synthétiquenouvellement développée et ciblant l’intégrine αvβ3 avait déjà démontré une affinité etspécificité particulièrement élevée pour le récepteur de l’αvβ3 dans le cancer. Nousavons également exploré la relation entre cette sonde et l’observation pathologique desplaques d’athéromes sur le modèle animale WHHL et sur des plaques humainesprovenant de différents patients.Procédure et Résultats Les expériences ont été réalisées sur un total de 12 lapinsWatanabe hyperlipidémiques de souche WHHL (Watanabe heritable hyperlipidemic) et 1lapin contrôle NZW (New Zealand White). Premièrement, notre ITOP, marquée avec lafluorescéine isothiocyanate (FITC), a été utilisée pour détecter in vitro et ex vivo laprésence du récepteur de l’αvβ3. La microscopie à fluorescence a révélé un importantmarquage de la plaque d’athérome, lequel était absent dans les tissus provenant des lapinscontrôles NZW. Le marquage a été détecté au niveau de segments de plaques provenantde deux régions distinctes de l’aorte ascendante et descendante dans chaque lapin. Lesignal a été détecté principalement au niveau de l’adventitia et de l’intima proximale desvaisseaux aortiques, correspondant directement à l’expression de l’intégrine αvβ3,déterminée par essai immunochimique avec un anticorps contre l’αvβ3. De plus, uneforte association s’est révélée entre le niveau de marquage de la sonde ciblant l’αvβ3 etl’épaisseur de l’adventitia. Deuxièmement, nous avons évalué notre sonde sur deséchantillons humains affectés par l’athérosclérose et comparé les résultats avec uneévaluation morphologique. Nous avons remarqué la même tendance que chez le lapin, soiun marquage plus important lorsque l’adventitia s’épaissi. Finalement, nous avons testé lasonde sur des artères coronaires provenant d’une autopsie d’un patient affecté par le ADHIESet comparé les résultats avec l’évaluation morphologique de leurs artèrescoronaires. Nous avons trouvé un lien entre la morphologie de la plaque et la prévalenced’anévrysmes coronaires chez ces patients.Conclusion L’expression de l’αvβ3 est reliée à la foi aux processus inflammatoires età la sténose. Notre ITOP à marqué efficacement in vitro le premier type de plaqued’athérome classé comme avancé (type IV) et pouvant produire des manifestationscliniques. En combinaison avec l’imagerie noninvasive détectant la sténose, il pourraits’avéré utile dans la détection de la plaque vulnérable. / Purpose The detection of early atherosclerosis, before the development of its later sequelae of myocardial infarction, angina or stroke, constitutes an important challenge in current diagnostic medicine. Despite all the recent technological advances, cardiovascular disease remains the leading cause of death in the Western World and needs to be detected at an earlier stage to allow for more timely therapeutic intervention. This study is focusing on the detection of atherosclerosis or more specifically plaque vulnerability with the help of molecular imaging and pathological observation. Effectively, to predict plaque rupture, molecular imaging has emerged as a powerful diagnostic tool, consequent to the development of a growing number of new probes with affinity for key molecular targets. As a result, such selective molecule with high affinity for overexpressed target in plaque formation, as αvβ3 integrin, should have promise as a probe for imaging atherosclerosis. With the help of molecular imaging combined with pathological observations, we can better comprehend, predict, and detect plaque vulnerability and rupture. Objectives The overall objective of this study is to evaluate different molecular tools to predict the vulnerability of the atheromatous plaque. The major objective of the research was to investigate the possibility of detecting atherosclerotic plaque by using a newly developed synthetic αvβ3 integrin targeted optical probe (ITOP) showing particularly high affinity and specificity for the αvβ3 receptor. We also investigate the relation between this probe and pathological observation of atherosclerotic plaques from WHHL animal model and different human samples. Procedures and Results For this study, experiments were performed on 12 Watanabe heritable hyperlipidemic (WHHL) rabbits and 1 New Zealand White (NZW) rabbits for control. First, our ITOP labeled with fluorescein isothiocyanate was used for detecting the presence of αvβ3 receptors in vitro and ex vivo on a Watanabe rabbit model. Fluorescence microscopy demonstrated a strong labeling of atherosclerotic plaques, which was absent in tissue from normal NZW rabbits. Segments of plaque accumulation from two distinct regions of ascending and descending aortas were labeled in each rabbit. The signal was found principally in the adventitia and proximal intima of the aortic vessel, corresponding directly to the expression of integrin αvβ3 as determined by antibody assay. Moreover, there was a close association between the level of labeling with the αvβ3 targeted probe and the thickness of the adventitia. Secondly, the ITOP was evaluated on human atherosclerotic samples, and was found to efficiently labeled atherosclerotic plaques. Moreover, we observed the same tendency as in the Watanabe rabbit: the ITOP intensity correlated with the degree of adventitial thickening. Finally, we tested the ITOP on Job's Syndrome coronary arteries, and have been able to detect a plaque corresponding to the first type of advanced atherosclerosis (type IV). We also found a relationship between plaque morphology and predisposition to aneurysms in Job's syndrome. Conclusions αvβ3 expression is related to inflammatory and stenotic processes. Our ITOP can efficiently label in vitro the first type of advanced atherosclerotic plaque. In combination with noninvasive imaging techniques that evaluate stenosis, it has great potential for the detection of vulnerable plaque. Athérosclérose Plaque Vulnérable Imagerie Moléculaire Sonde Ciblant l’Intégrine αvβ3 Pathologie Immunohistologie Atherosclerosis Vulnerable Plaque Molecular Imaging Pathology Immunohistology Coronary aneurysms
59	Development of Inhibitors of Human PCSK9 as Potential Regulators of LDL-Receptor and Cholesterol Alghamdi, Rasha Hassen January 2014 (has links) Proprotein Convertase Subtilisin/Kexin 9 (PCSK9) is the ninth member of the Ca+2-dependent mammalian proprotein convertase super family of serine endoproteases that is structurally related to the bacterial subtilisin and yeast kexin enzymes. It plays a critical role in the regulation of lipid metabolism and cholesterol homeostasis by binding to and degrading low-density lipoprotein-receptor (LDL-R) which is responsible for the clearance of circulatory LDL-cholesterol from the blood. Owing to this functional property, there is plenty of research interest in the development of functional inhibitors of PCSK9 which may find important biochemical applications as therapeutic agents for lowering plasma LDL-cholesterol. The catalytic domain of PCSK9 binds to the EGF-A domain of LDL-R on the cell surface to form a stable complex and re-routes the receptor from its normal endosomal recycling pathway to the lysosomal compartments leading to its degradation. Owing to these findings, we propose that selected peptides from PCSK9 catalytic domain, particularly its disulphide (S-S) bridged loop1 323-358 and loop2 365-385, are likely to exhibit strong affinity towards the EGF-A domain of LDL-R. Several regular peptides along with corresponding all- dextro and retro-inverse peptides as well as the gain-of-function mutant variants were designed and tested for their regulatory effects towards LDL-R expression and PCSK9-binding in human hepatic HepG2 and mouse hepatic Hepa1c1c7 cells. Our data indicated that disulfide bridged loop1-hPCSK9323-358 and its H357 mutant as well as two short loop2-hPCSK9372-380 and its Y374 mutant peptides modestly promote the LDL-R protein levels. Our study concludes that specific peptides from the PCSK9 catalytic domain can regulate LDL-R and may be useful for development of novel class of therapeutic agents for cholesterol regulation. Proprotein Convertase Subtilisin/Kexin 9 PCSK9 Low Density Lipoprotein Receptor LDL-R Low Density Lipoprotein Cholesterol LDL-C Cardiovascular Disease CVD Autosomal Dominant Hypercholesterolemia ADH Catalytic Domain Inhibitors Peptides Design LDL-R Degradation Epidermal Growth Factor like repeat A EGF-A Familial Hypercholesterolemia FH Gain-of-Function Mutations
60	Sekvenční varianty genu HNF1B u autozomálně recesivní polycystické choroby ledvin / Sequence variety of HNF1B gene in autosomal recessive polycystic kidney disease Kavec, Miriam January 2017 (has links) Autosomal recessive polycystic kidney disease (ARPKD) is a rare severe inherited disease manifested by cystic renal disease, congenital hepatic fibrosis and dilatatation of bile ducts. The spectrum of clinical manifestations is very wide and variable, depends on the age at which the disease was manifested. In severe forms of the disease, it is possible to detect the first symptoms prenatally around the 20th week of pregnancy due to increased echogenic kidneys and the presence of oligohydramnios. The causal gene of this disease is thePKHD1 gene with protein product fibrocystin that is most likely contributing on maintaining the intracellular concentration of Ca2+ cations. The exact phatophysiology mechanism of ARPKD remains unknown. Phenotypic manifestations of this disease may overlap with mutations associated with other genes. One of the genes mimicking the ARPKD phenotype is the HNF1B gene. Mutations associated with HNF1B gene are the most common monogenic cause of developmental kidney abnormalities. HNF1B is a tissue-specific transcription factor that regulates the expression of PKHD1. In experimental part I worked on genetic analysis of the HNF1B gene in 28 patients who have not been confirmed ARPKD diagnosis by detection of 2 PKHD1 mutations. For the purposes of mutational screening, I used...

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