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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Use of luminescence energy transfer probes to detect genetic variants.

Vaccaro, Carlos 08 1900 (has links)
The purpose of this research was to study the hybridization of molecular beacons under different conditions and designs. Data collected suggest that the inconsistency found in the emission intensity of several of these probes may be caused by 3 important factors: length of the probe, nucleotide sequence and, the formation of an alternative complex structure such as a dimer. Of all three factors, dimer formation is the most troublesome, since it reduces the emission of the reporter molecules. A new probe design was used to reduce dimer formation. The emission signal of the improved probe was several folds stronger than those probes with the early design. In this research, dimer formation is detected, furthermore a new probe with a different design was tested. If dimer formation can be reduced molecular beacons can be integrated into more complex hybridization systems providing an important tool in research and diagnosis of genetic disorders.
2

The Distribution of Single Nucleotide Polymorphisms in Pyoderma Gangrenosum: Biomarker Discovery

Mercer, Heather Milliken 18 December 2013 (has links)
No description available.
3

<b>UNCOVERING THE SECRETS OF EPILEPSY-RELATED SCN2A-L1342P </b><b>VARIANT USING HIPSC-DERIVED </b><b>2D AND 3D CORTICAL NEURON MODELS </b><b>IMPLICATIONS IN NEURONAL HYPEREXCITABILITY AND DEVELOPMENT</b>

Maria Isabel Olivero acosta (19194667) 23 July 2024 (has links)
<p dir="ltr">The <i>SCN2A</i><i> </i>gene encodes for the neuronal sodium channel Na<sub>V</sub>1.2, which mediates action potential initiation and propagation (Sanders et al., 2018). This protein is expressed mainly in the proximal axonal initial segment (AIS) and soma of glutamatergic excitatory cortical neurons (Kruth, Grisolano, Ahern, & Williams, 2020). <i>SCN2A</i> pathogenic variants have been associated with epilepsy. An example is the recurrent Nav1.2-L1342P variant, a heterozygous missense variant (Begemann et al., 2019) identified in five patients worldwide presenting an early-onset severe seizure phenotype that remains hard to treat with current medications (Que et al., 2021). Additionally, it is one of the few rare <i>SCN2A</i> variants that can impact brain structure (Miao et al., 2020).</p><p dir="ltr">Given that no disease-modifying treatment exists, there is an urgent need to generate novel tools to probe at variant-specific disease mechanisms, evaluate therapeutic interventions, and study interactions with other cell types. Previously, we demonstrated that hiPSC-derived 2D neuronal monolayers carrying the CRISPR/Cas9-edited Nav1.2-L1342P variant display a distinct hyperexcitability phenotype (Que et al., 2021). Despite these findings, questions persist regarding the Nav1.2-L1342P variant's influence on neurodevelopment in more physiologically relevant 3D models, such as organoids.</p><p dir="ltr">To address this, in Chapter 2 of this study, we generated human-induced pluripotent stem cell-derived cortical organoids carrying the epilepsy-related Nav1.2-L1342P variant to study its effect on neuronal hyperexcitability, neurodevelopment and other disease phenotypes. Our data suggests that Nav1.2-L1342P cortical organoid neurons display<b> </b>enhanced repetitive action potential firings, intrinsic excitability, enhanced calcium signaling, increased network neuronal firing, and excitatory postsynaptic currents (EPSCs), suggesting a marked hyperexcitability phenotype and enhanced excitatory neurotransmission. Moreover, cortical organoids with the Nav1.2-L1342P variant display significant changes in synaptic, glutamatergic, and development-related pathways. We also observed that Nav1.2-L1342P variant impacts cortical organoid synaptic and neuronal content.</p><p dir="ltr">The impact of the Nav1.2-L1342P variant was also demonstrated in the 2D-cortical neuron monolayer model, presenting a noticeable reduction in neuronal complexity, thus offering intriguing insights into their effect on neuronal morphology and developmental processes. Our findings recapitulate the hyperexcitable phenotype trends previously observed in the 2D-cortical neuron monolayer platform (Que et al., 2021) and provide evidence of non-autonomous cell development changes due to the Nav1.2-L1342P variant.</p><p dir="ltr">Chapter 3 of this dissertation established a co-culture of hiPSC-derived neurons and microglia, the brain's resident immune cells. Microglia originate from a different lineage (yolk sac) and are not naturally present in hiPSC-derived neuronal cultures. Therefore, they must be added to neuronal cultures to yield a heterogeneous environment. Microglia are also one of the few cell types able to respond to neuronal hypo and hyperexcitability changes. This unique capability prompted us to study how microglia responded to human neurons carrying a disease-causing variant and influenced neuronal excitability.</p><p dir="ltr">We found that microglia display increased branch length and enhanced process-specific calcium signal when co-cultured with the Nav1.2-L1342P neurons, recapitulating phenomena previously observed in rodent seizure models (Eyo et al., 2014; Nebeling et al., 2023). Moreover, the presence of microglia significantly lowered the repetitive action potential firing and current density of sodium channels in neurons carrying the variant, demonstrating the microglial capacity to influence and ameliorate the neuronal activity of the Nav1.2-L1342P mutant neurons. We hypothesized that this effect could be attributed to the increased release of glutamate or small molecules by the Nav1.2-L1342P mutant neurons, which could likely be triggering microglial responses. Additionally, we showed that co-culturing with microglia reduced sodium channel expression within the axon initial segment (AIS) of Nav1.2-L1342P neurons, explaining, in part, the mechanism behind the reduction of sodium current density.</p><p dir="ltr">Taken together, our observations with 2D cortical neurons and 3D cortical organoids revealed marked hyperexcitability and developmental changes associated with the Nav1.2-L1342P variant. Our work also reveals the critical role of human iPSCs-derived microglia in sensing and dampening hyperexcitability mediated by an epilepsy-causing SCN2A variant.</p>
4

Implication de DC-SIGN et DC-SIGNR dans la transmission mère-enfant du VIH-1

Boily-Larouche, Geneviève 02 1900 (has links)
La transmission mère-enfant du VIH-1 (TME) représente le principal mode d’infection chez l’enfant et se produit durant la grossesse (in utero, IU), l’accouchement (intrapartum, IP) ou l’allaitement (postpartum, PP). Les mécanismes qui sous-tendent le passage du VIH-1 à travers le placenta et les muqueuses intestinales du nouveau-né sont encore très peu décrits. « Dendritic cell-specific ICAM-grabbing non-integrin » (DC-SIGN) et son homologue DC-SIGN « related » (DC-SIGNR) sont des récepteurs d’antigènes exprimés au niveau du placenta et capables de capter et de transmettre le VIH-1 aux cellules adjacentes. Ils pourraient donc participer au passage trans placentaire du VIH-1 et le polymorphisme génétique affectant l’expression ou modifiant l’interaction avec le virus aurait une influence sur la TME du VIH-1. Afin d’explorer cette hypothèse, nous avons procédé à une analyse exhaustive du polymorphisme de DC-SIGN et DC-SIGNR dans la population du Zimbabwe. Par la suite, nous avons déterminé l’association entre le polymorphisme de DC-SIGN et DC-SIGNR et la TME du VIH-1 dans une cohorte d’enfants nés de mères VIH-positives à Harare, au Zimbabwe. Enfin, nous avons défini l’impact fonctionnel des mutations associées. Les enfants homozygotes pour les haplotypes H1 et H3 dans le gène de DC-SIGNR sont 4 à 6 fois plus à risque de contracter le VIH-1 par voie IU et IP. H1 et H3 contiennent la mutation du promoteur p-198A et la mutation de l’intron 2, int2-180A, et des études fonctionnelles nous ont permis de démontrer que p-198A diminue l’activité transcriptionnelle du promoteur de DC-SIGNR et l’expression des transcrits d’ARNm dans le placenta, alors que int2-180A modifie le répertoire d’isoformes de DC-SIGNR vers une proportion diminuée d’isoformes membranaires. Les enfants porteurs des haplotypes H4 et H6 de DC-SIGN sont 2 à 6 fois plus à risque de contracter le VIH-1 par voie IU. Ces haplotypes contiennent deux mutations du promoteur (p-336T/C et p-201C/A) et quatre mutations codant pour un changement d’acide aminé dans l’exon 4 (R198Q, E214D, R221Q ou L242V) associées à un risque augmenté de transmission IU, IP et PP du VIH-1. Des études fonctionnelles ont démontré que les mutations du promoteur diminuent l’expression de DC-SIGN dans les macrophages placentaires. Toutefois, l’exposition IU au VIH-1 module le niveau d’expression de DC-SIGN, résultant en des niveaux d’expression similaires entre les macrophages des porteurs des allèles sauvages et mutés. Les mutations de l’exon 4 augmentent l’affinité de DC-SIGN pour le VIH-1 et sa capacité à capturer et à transmettre le virus aux lymphocytes T, favorisant possiblement la dissémination du VIH-1 à travers le placenta. L’association entre les mutations de DC-SIGN et la transmission IP et PP du VIH-1 suggèrent qu’il aurait aussi un rôle à jouer dans les muqueuses intestinales de l’enfant. Notre étude démontre pour la première fois l’implication de DC-SIGN et DC-SIGNR dans la TME du VIH-1. L’augmentation des capacités de capture et de transmission de DC-SIGN résulte en une susceptibilité accrue de l’enfant à l’infection au VIH-1 et concorde avec un rôle dans la dissémination transplacentaire. Toutefois, la diminution préférentielle des transcrits membranaires de DC-SIGNR au placenta augmente la TME du VIH-1 et laisse croire à son implication via un autre mécanisme. Ces mécanismes pourraient aussi s’appliquer à d’autres pathogènes reconnus par DC-SIGN et DC-SIGNR et transmis de la mère à l’enfant. / Mother-to-child transmission (MTCT) is the main cause of HIV-1 infection in children worldwide. MTCT of HIV-1 can occur during pregnancy (in utero, IU), delivery (intrapartum, IP) or breastfeeding (postpartum, PP). Dendritic cell-specific ICAM-grabbing non-integrin (DC-SIGN) and its homolog DC-SIGN related (DC-SIGNR) are attachment receptors for HIV-1 and are expressed in the placenta. They have been implicated in viral capture and transmission to T cells. To investigate the potential role of DC-SIGN and DC-SIGNR in MTCT of HIV-1, we carried out a genetic association study in a well-characterized cohort of 197 HIV-infected mothers and their infants recruited in Harare, Zimbabwe. Infants harbouring two copies of DC-SIGNR H1 and/or H3 haplotypes (H1-H1, H1-H3, H3-H3) had a 4-fold increased risk of IU and 6-fold increased risk of IP HIV-1 infection after adjusting for a number of maternal factors. The implicated H1 and H3 haplotypes share two single nucleotide polymorphisms (SNPs) in promoter region (p-198A) and intron 2 (int2-180A) that were associated with increased risk of both IU and IP HIV-1 infection. The promoter variant reduced transcriptional activity in vitro. In homozygous H1 infants bearing both the p-198A and int2-180A mutations, we observed a 4-fold decrease in the level of placental DC-SIGNR transcripts, disproportionately affecting the expression of membrane-bound isoforms compared to infant noncarriers. Infants carrying H4 and H6 haplotypes in DC-SIGN gene were more likely to be HIV-1-infected during pregnancy. These haplotypes contain promoter variants (p-336T/C and p-201C/A) and exon 4 variants (R198Q, E214D, R221Q and L242V) that were all significantly associated with increased risk of MTCT of HIV-1. Compared with wild-type sequence, the promoter variants reduced both the DC-SIGN transcription in vitro and expression (2-fold) in placental macrophages of HIV-1-unexposed infants. However, in HIV-1-exposed infants, the level of DC-SIGN expression in placental macrophages was similar in infants carrying either the promoter wild-type or variant sequences. Exon 4 variants increased HIV-1 capture and transmission to T cells in vitro. Association between DC-SIGN SNPs and HIV-1 IP and PP infection also suggests that DC-SIGN plays an important role in intestinal mucosa. This is the first study reporting on functional impact of DC-SIGN and DC-SIGNR natural polymorphisms on HIV-1 transmission from mother-to-child. Decreased levels of expression of membrane DC-SIGNR isoforms at the placental endothelial cell surface increased child susceptibility to HIV-1. Presence of DC-SIGN variants increasing its affinity for the virus augmented child susceptibility to HIV-1 and may favour viral dissemination across the placental barrier. This study provides compelling evidence to support an important role of DC-SIGN and DC-SIGNR in various modes of MTCT of HIV-1 and shed light on the possible mechanisms involved in HIV-1 passage from mother-to-infant. These findings raise the possibility that similar mechanisms may operate with other human pathogens known to interact with DC-SIGN and DC-SIGNR.
5

Variações de novo e raras no genoma de pacientes com transtornos do espectro do autismo verbais e não verbais / New and rare variations in the genome of patients with autism spectrum disorders verbal and nonverbal

Reis, Viviane Neri de Souza 30 September 2014 (has links)
Estudos de gêmeos e famílias demonstram que os transtornos do espectro do autismo (TEA) apresentam um grande componente genético (~50%), porém sua etiologia ainda é desconhecida, possivelmente devido aos TEA serem caracterizados como doenças complexas, poligênicas e multifatoriais. Recentemente, variações no número de cópias (CNVs, do inglês Copy Number Variations) e mutações pontuais (SNV, do inglês Single Nucleotide Variant) raras, de novo e herdadas foram associadas com TEA, sugerindo novos loci e genes candidatos. No entanto, a grande maioria das alterações descritas são individuais, de forma que analises por agrupamento das mesmas em genes, e busca de funções biológicas ou vias hiper-representadas tem sido uma abordagem para a compreensão dos possíveis mecanismos etiopatológicos dos TEA. Como os TEA são muito heterogêneos clinicamente o uso de endofenótipos específicos para agrupamento das alterações gênicas pode auxiliar a discriminação de vias e processos biológicos relacionados a dimensões fenotípicas. Considerando os estudos realizados em autismo, e a natureza das variações comuns e raras, nesse trabalho foi realizado o sequenciamento do exoma de 1 família de dois irmãos com TEA sindrômico (sequenciamento piloto) e 18 trios de casos esporádicos de TEA, em busca alterações muito raras e/ou de novo com provável impacto funcional nos pacientes; Além disso, foi analisado se existe diferença entre as vias biológicas hiper-representadas de redes gênicas crescidas a partir dos genes que apresentavam variações raras e de novo, comparando pacientes de TEA com: (1) pouca ou nenhuma comunicação, chamados de não verbais e (2) média a boa comunicação, chamados de verbais. No sequenciamento piloto da família dos irmãos com TEA sindrômico, encontramos 1 duplicação em 4p16.3 e 1 deleção em 8p23.3, em ambos os irmãos; alterações estas encontradas em estudos previos em pacientes com características sindrômicas e TEA; na análise de SNVs e Indels foi encontrada 1 variação de novo e 117 variações não-sinônimas raras herdadas de um dos pais na irmã e 150 variações não-sinônimas raras herdadas de um dos pais no irmão; a análise de vias revelou que os genes com as mutações pontuais raras estavam hiper-representados em regiões cromossômicas diferentes em cada irmão (no cromossomo 1 na paciente do sexo feminino e no cromossomo 16 no paciente do sexo masculino), o que pode estar relacionado às diferenças fenotípicas por eles apresentadas. No sequenciamento do exoma dos trios foram encontradas alterações de novo em 9 dos pacientes: 1 CNV de novo (deleção) de 1,5Mb na região 3q29, região previamente associada com síndrome e transtornos do desenvolvimento; e 8 genes alterados por mutações pontuais de novo, dos quais um dele é o GABBR2, que apresenta evidência de associação com TEA. A análise de vias e redes das variantes herdadas raras, mostrou que muitos dos genes relacionados aos dois grupos verbais e não verbais são genes já associados com TEA ou que apresentam interação com aqueles genes associados ao TEA. As analises de vias e redes precisam ser replicadas em amostras maiores, mas com nossos resultados preliminares podemos perceber que nosso estudo contribui com alterações em genes de vias relacionadas a neurogênese e sinaptogênese, independentemente do fenótipo, que possam refletir um conjunto de genes específicos e ou numero de alterações relacionadas a gravidade do TEA / Studies of twins and families have shown that autism spectrum disorders (ASD) are highly heritable (~50%), but its etiology is still unknown, possibly because it is a very heterogeneous phenotype and have multiple genes involved in its development, what characterizes a complex disease such as ASD. Recently, copy number variations (CNVs) and point mutations (SNVs) rare, inherited e de novo, were associated with ASD, suggesting new candidate genes and loci. Because they are very rare, the vast majority of the changes described are individual, so the analysis of different variations grouped by genes and searching for biological functions or hyper represented pathways has been an approach for understanding possible pathogenic mechanisms of ASD. As ASD is clinically very heterogeneous, the use of endophenotypes, specific grouping of genomic changes can help discriminating pathways and biological processes related to phenotypic dimensions. Considering the studies in autism, and the nature of common and rare variants, we sequenced all exons (exome) of 1 family with syndromic ASD (pilot sequencing) and 18 trios of sporadic ASD cases to search for de novo and rare variations with probable functional impact on Brazilian patients; Also, we analyzed whether there is a difference in the enrichment of biological pathways of gene networks from the list of genes affected with de novo and rare deleterious variants in two groups of ASD patients: (1) cases with little or no communication, called nonverbal and (2) cases with average to good communication, called verbal. In the pilot exome sequencing (ASD syndromic family), we found a duplication in 4p16.3 and a deletion in 8p23.3 in both siblings, alterations that were found in patients with syndromes and ASD in previously studies; the analysis of SNVs showed 1 variation de novo and 117 nonsynonymous rare variations inherited from only 1 of the parents in the female sibling, and 150 nonsynonymous rare variations inherited from only 1 of the parents in the male sibling; Pathway analysis revealed enrichment differences of chromosomal regions for each sibling (chromosome 1 for the female patient and chromosome 16 for the male patient), what may be related to their phenotypic differences. In the exome sequencing of trios, as expected, it was found de novo variation in 9 of the patients: 1 de novo CNV (deletion) of 1.5 Mb in the region 29 of the long arm of chromosome 3, a region previously associated with syndrome and developmental disorders; and 8 genes altered by de novo variations, one of those is in the GABBR2, gene with previous evidence of association with ASD. The pathways and networks analysis of rare inherited variants showed that many of the genes related to the two groups verbal and nonverbal are already associated with ASD or interacts with those genes associated with ASD. This pathway and gene network analyses need to be replicated in larger samples, but our preliminary results shows that our study contributes with variations in genes related to neurogenesis and synaptogenesis pathways, regardless of phenotype, with probable impact to specific genes that may be related to severity of clinical presentation
6

Implication des récepteurs de la mélatonine dans les troubles neurologiques et le diabète de type 2 et identification de régions clés du récepteur MT1 responsables de sa sélectivité fonctionnelle

Hégron, Alan 10 1900 (has links)
No description available.
7

Implication de DC-SIGN et DC-SIGNR dans la transmission mère-enfant du VIH-1

Boily-Larouche, Geneviève 02 1900 (has links)
La transmission mère-enfant du VIH-1 (TME) représente le principal mode d’infection chez l’enfant et se produit durant la grossesse (in utero, IU), l’accouchement (intrapartum, IP) ou l’allaitement (postpartum, PP). Les mécanismes qui sous-tendent le passage du VIH-1 à travers le placenta et les muqueuses intestinales du nouveau-né sont encore très peu décrits. « Dendritic cell-specific ICAM-grabbing non-integrin » (DC-SIGN) et son homologue DC-SIGN « related » (DC-SIGNR) sont des récepteurs d’antigènes exprimés au niveau du placenta et capables de capter et de transmettre le VIH-1 aux cellules adjacentes. Ils pourraient donc participer au passage trans placentaire du VIH-1 et le polymorphisme génétique affectant l’expression ou modifiant l’interaction avec le virus aurait une influence sur la TME du VIH-1. Afin d’explorer cette hypothèse, nous avons procédé à une analyse exhaustive du polymorphisme de DC-SIGN et DC-SIGNR dans la population du Zimbabwe. Par la suite, nous avons déterminé l’association entre le polymorphisme de DC-SIGN et DC-SIGNR et la TME du VIH-1 dans une cohorte d’enfants nés de mères VIH-positives à Harare, au Zimbabwe. Enfin, nous avons défini l’impact fonctionnel des mutations associées. Les enfants homozygotes pour les haplotypes H1 et H3 dans le gène de DC-SIGNR sont 4 à 6 fois plus à risque de contracter le VIH-1 par voie IU et IP. H1 et H3 contiennent la mutation du promoteur p-198A et la mutation de l’intron 2, int2-180A, et des études fonctionnelles nous ont permis de démontrer que p-198A diminue l’activité transcriptionnelle du promoteur de DC-SIGNR et l’expression des transcrits d’ARNm dans le placenta, alors que int2-180A modifie le répertoire d’isoformes de DC-SIGNR vers une proportion diminuée d’isoformes membranaires. Les enfants porteurs des haplotypes H4 et H6 de DC-SIGN sont 2 à 6 fois plus à risque de contracter le VIH-1 par voie IU. Ces haplotypes contiennent deux mutations du promoteur (p-336T/C et p-201C/A) et quatre mutations codant pour un changement d’acide aminé dans l’exon 4 (R198Q, E214D, R221Q ou L242V) associées à un risque augmenté de transmission IU, IP et PP du VIH-1. Des études fonctionnelles ont démontré que les mutations du promoteur diminuent l’expression de DC-SIGN dans les macrophages placentaires. Toutefois, l’exposition IU au VIH-1 module le niveau d’expression de DC-SIGN, résultant en des niveaux d’expression similaires entre les macrophages des porteurs des allèles sauvages et mutés. Les mutations de l’exon 4 augmentent l’affinité de DC-SIGN pour le VIH-1 et sa capacité à capturer et à transmettre le virus aux lymphocytes T, favorisant possiblement la dissémination du VIH-1 à travers le placenta. L’association entre les mutations de DC-SIGN et la transmission IP et PP du VIH-1 suggèrent qu’il aurait aussi un rôle à jouer dans les muqueuses intestinales de l’enfant. Notre étude démontre pour la première fois l’implication de DC-SIGN et DC-SIGNR dans la TME du VIH-1. L’augmentation des capacités de capture et de transmission de DC-SIGN résulte en une susceptibilité accrue de l’enfant à l’infection au VIH-1 et concorde avec un rôle dans la dissémination transplacentaire. Toutefois, la diminution préférentielle des transcrits membranaires de DC-SIGNR au placenta augmente la TME du VIH-1 et laisse croire à son implication via un autre mécanisme. Ces mécanismes pourraient aussi s’appliquer à d’autres pathogènes reconnus par DC-SIGN et DC-SIGNR et transmis de la mère à l’enfant. / Mother-to-child transmission (MTCT) is the main cause of HIV-1 infection in children worldwide. MTCT of HIV-1 can occur during pregnancy (in utero, IU), delivery (intrapartum, IP) or breastfeeding (postpartum, PP). Dendritic cell-specific ICAM-grabbing non-integrin (DC-SIGN) and its homolog DC-SIGN related (DC-SIGNR) are attachment receptors for HIV-1 and are expressed in the placenta. They have been implicated in viral capture and transmission to T cells. To investigate the potential role of DC-SIGN and DC-SIGNR in MTCT of HIV-1, we carried out a genetic association study in a well-characterized cohort of 197 HIV-infected mothers and their infants recruited in Harare, Zimbabwe. Infants harbouring two copies of DC-SIGNR H1 and/or H3 haplotypes (H1-H1, H1-H3, H3-H3) had a 4-fold increased risk of IU and 6-fold increased risk of IP HIV-1 infection after adjusting for a number of maternal factors. The implicated H1 and H3 haplotypes share two single nucleotide polymorphisms (SNPs) in promoter region (p-198A) and intron 2 (int2-180A) that were associated with increased risk of both IU and IP HIV-1 infection. The promoter variant reduced transcriptional activity in vitro. In homozygous H1 infants bearing both the p-198A and int2-180A mutations, we observed a 4-fold decrease in the level of placental DC-SIGNR transcripts, disproportionately affecting the expression of membrane-bound isoforms compared to infant noncarriers. Infants carrying H4 and H6 haplotypes in DC-SIGN gene were more likely to be HIV-1-infected during pregnancy. These haplotypes contain promoter variants (p-336T/C and p-201C/A) and exon 4 variants (R198Q, E214D, R221Q and L242V) that were all significantly associated with increased risk of MTCT of HIV-1. Compared with wild-type sequence, the promoter variants reduced both the DC-SIGN transcription in vitro and expression (2-fold) in placental macrophages of HIV-1-unexposed infants. However, in HIV-1-exposed infants, the level of DC-SIGN expression in placental macrophages was similar in infants carrying either the promoter wild-type or variant sequences. Exon 4 variants increased HIV-1 capture and transmission to T cells in vitro. Association between DC-SIGN SNPs and HIV-1 IP and PP infection also suggests that DC-SIGN plays an important role in intestinal mucosa. This is the first study reporting on functional impact of DC-SIGN and DC-SIGNR natural polymorphisms on HIV-1 transmission from mother-to-child. Decreased levels of expression of membrane DC-SIGNR isoforms at the placental endothelial cell surface increased child susceptibility to HIV-1. Presence of DC-SIGN variants increasing its affinity for the virus augmented child susceptibility to HIV-1 and may favour viral dissemination across the placental barrier. This study provides compelling evidence to support an important role of DC-SIGN and DC-SIGNR in various modes of MTCT of HIV-1 and shed light on the possible mechanisms involved in HIV-1 passage from mother-to-infant. These findings raise the possibility that similar mechanisms may operate with other human pathogens known to interact with DC-SIGN and DC-SIGNR.
8

Genetic factors associated with coronary heart disease and analysis of their predictive capacity

Lluís Ganella, Carla, 1984- 26 June 2012 (has links)
The main expansion of the discovery of genetic variants associated with complex diseases has occurred during the last decade. This expansion has been accompanied, and in some sense motivated, by the desire to use this information to improve the predictive capacity of many diseases with an unidentified familial component, including coronary heart disease (CHD), with the aim of translating this genetic knowledge into clinical practice. This doctoral thesis is structured in two lines of investigation that address distinct aspects of this issue, first to evaluate the possible role of genetic variation in a candidate gene in modulating CHD risk, and second to evaluate whether genetic information can be used to improve risk assessment tools used in clinical practice. In the first research line (described in Part I), we investigate the contribution of genetic variation in one of the most widely-studied genes in cardiovascular genetics, ESR1, which encodes the Oestrogen receptor α protein. We provide a solid meta-analysis of evidence regarding the most widely-studied variant in this gene and we further explore the role of a broad range of common and uncommon variants in this gene in CHD risk. Using these approaches, we find no evidence of association between the genetic variants studied and CHD risk. However, although we can confidently accept that common genetic polymorphisms are not associated with cardiovascular disease, we cannot discard the possibility that other types of variation in this gene (for instance epigenetic variation) could modify susceptibility to cardiovascular disease, or that other elements of this pathway are associated with an increased risk of CHD. In this research I have provided a reliable answer to this long running unanswered question in cardiovascular genetics, allowing research to re-focus on other elements of this system or other pathways. In the second line, we explored the possible utility of genetic information obtained from genome-wide association studies (GWAS) in prediction of 10-year risk of CHD events by adding this information to cardiovascular risk functions. We have followed the recommendations proposed by the American Heart Association for evaluating the utility of novel biomarkers in clinical practice, and have demonstrated that although the magnitudes of the effects of these genetic variants on CHD risk are modest, there is a tendency towards improvement in the capacity of the risk functions to predict future CHD events. The translation of genetic information into clinical practice was one of the main motivations for the investment in genome-wide association studies, and my research represents one of the first efforts to explore this possibility. / L’expansió principal pel que fa al descobriment de variants genètiques associades amb malalties complexes s’ha dut a terme durant la última dècada. Aquesta expansió ha estat acompanyada, i d’alguna forma motivada, pel desig d’usar aquesta informació per millorar la capacitat de predicció d’aquelles malalties on hi és present un cert component familiar però en les que no es coneixien les variants que conferien un major risc de patir la malaltia, entre elles la cardiopatia isquèmica (CI). La present tesis doctoral està estructurada en dues línies d’investigació que avaluen el possible rol d’un gen candidat en la susceptibilitat de la CI i també avalua la millora en la capacitat de predicció d’un esdeveniment coronari de les eines usades habitualment en la pràctica clínica mitjançant la inclusió d’informació genètica. Més concretament, la primera línea d’investigació es centra en la contribució de la variació genètica en un dels gens més estudiats en relació amb CI: el gen que codifica pel receptor d’estrogens alfa (ESR1). En aquesta línea hem proveït un sòlid meta-anàlisis entre la variant més àmpliament estudiada d’aquest gen i risc coronari i també hem explorat el paper de la majoria de les variants comunes descrites en aquest gen i risc de CI. Mitjançant cap dels anàlisis hem trobat evidència d’associació entre les variants genètiques en aquest gen i el risc de CI. No obstant això, i encara que podem acceptar que les variants genètiques comunes d’aquest gen no estan associades amb esdeveniments coronaris, no podem descartar que altres tipus de variació en aquest gen (com per exemple variació epigenètica) pugui estar modificant la susceptibilitat a patir un esdeveniment coronari, ni tampoc que altres elements de la mateixa cadena de senyalització estiguin associats amb la malaltia. En la segona línea d’investigació, hem explorat el possible paper de les variants genètiques, obtingudes mitjançant estudis d’associació global del genoma (GWAS), en la millora de la capacitat de predicció a 10 anys dels esdeveniments coronaris, mitjançant la seva addició en les funcions de risc cardiovascular clàssiques. Hem seguit les recomanacions proposades per la American Heart Association per l’avaluació en la pràctica clínica de nous biomarcadors, i hem demostrat que, tot i que la magnitud de l’associació d’aquestes variants és modesta, hi ha una tendència cap a la millora de la capacitat de predicció de les funcions de risc.
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Variações de novo e raras no genoma de pacientes com transtornos do espectro do autismo verbais e não verbais / New and rare variations in the genome of patients with autism spectrum disorders verbal and nonverbal

Viviane Neri de Souza Reis 30 September 2014 (has links)
Estudos de gêmeos e famílias demonstram que os transtornos do espectro do autismo (TEA) apresentam um grande componente genético (~50%), porém sua etiologia ainda é desconhecida, possivelmente devido aos TEA serem caracterizados como doenças complexas, poligênicas e multifatoriais. Recentemente, variações no número de cópias (CNVs, do inglês Copy Number Variations) e mutações pontuais (SNV, do inglês Single Nucleotide Variant) raras, de novo e herdadas foram associadas com TEA, sugerindo novos loci e genes candidatos. No entanto, a grande maioria das alterações descritas são individuais, de forma que analises por agrupamento das mesmas em genes, e busca de funções biológicas ou vias hiper-representadas tem sido uma abordagem para a compreensão dos possíveis mecanismos etiopatológicos dos TEA. Como os TEA são muito heterogêneos clinicamente o uso de endofenótipos específicos para agrupamento das alterações gênicas pode auxiliar a discriminação de vias e processos biológicos relacionados a dimensões fenotípicas. Considerando os estudos realizados em autismo, e a natureza das variações comuns e raras, nesse trabalho foi realizado o sequenciamento do exoma de 1 família de dois irmãos com TEA sindrômico (sequenciamento piloto) e 18 trios de casos esporádicos de TEA, em busca alterações muito raras e/ou de novo com provável impacto funcional nos pacientes; Além disso, foi analisado se existe diferença entre as vias biológicas hiper-representadas de redes gênicas crescidas a partir dos genes que apresentavam variações raras e de novo, comparando pacientes de TEA com: (1) pouca ou nenhuma comunicação, chamados de não verbais e (2) média a boa comunicação, chamados de verbais. No sequenciamento piloto da família dos irmãos com TEA sindrômico, encontramos 1 duplicação em 4p16.3 e 1 deleção em 8p23.3, em ambos os irmãos; alterações estas encontradas em estudos previos em pacientes com características sindrômicas e TEA; na análise de SNVs e Indels foi encontrada 1 variação de novo e 117 variações não-sinônimas raras herdadas de um dos pais na irmã e 150 variações não-sinônimas raras herdadas de um dos pais no irmão; a análise de vias revelou que os genes com as mutações pontuais raras estavam hiper-representados em regiões cromossômicas diferentes em cada irmão (no cromossomo 1 na paciente do sexo feminino e no cromossomo 16 no paciente do sexo masculino), o que pode estar relacionado às diferenças fenotípicas por eles apresentadas. No sequenciamento do exoma dos trios foram encontradas alterações de novo em 9 dos pacientes: 1 CNV de novo (deleção) de 1,5Mb na região 3q29, região previamente associada com síndrome e transtornos do desenvolvimento; e 8 genes alterados por mutações pontuais de novo, dos quais um dele é o GABBR2, que apresenta evidência de associação com TEA. A análise de vias e redes das variantes herdadas raras, mostrou que muitos dos genes relacionados aos dois grupos verbais e não verbais são genes já associados com TEA ou que apresentam interação com aqueles genes associados ao TEA. As analises de vias e redes precisam ser replicadas em amostras maiores, mas com nossos resultados preliminares podemos perceber que nosso estudo contribui com alterações em genes de vias relacionadas a neurogênese e sinaptogênese, independentemente do fenótipo, que possam refletir um conjunto de genes específicos e ou numero de alterações relacionadas a gravidade do TEA / Studies of twins and families have shown that autism spectrum disorders (ASD) are highly heritable (~50%), but its etiology is still unknown, possibly because it is a very heterogeneous phenotype and have multiple genes involved in its development, what characterizes a complex disease such as ASD. Recently, copy number variations (CNVs) and point mutations (SNVs) rare, inherited e de novo, were associated with ASD, suggesting new candidate genes and loci. Because they are very rare, the vast majority of the changes described are individual, so the analysis of different variations grouped by genes and searching for biological functions or hyper represented pathways has been an approach for understanding possible pathogenic mechanisms of ASD. As ASD is clinically very heterogeneous, the use of endophenotypes, specific grouping of genomic changes can help discriminating pathways and biological processes related to phenotypic dimensions. Considering the studies in autism, and the nature of common and rare variants, we sequenced all exons (exome) of 1 family with syndromic ASD (pilot sequencing) and 18 trios of sporadic ASD cases to search for de novo and rare variations with probable functional impact on Brazilian patients; Also, we analyzed whether there is a difference in the enrichment of biological pathways of gene networks from the list of genes affected with de novo and rare deleterious variants in two groups of ASD patients: (1) cases with little or no communication, called nonverbal and (2) cases with average to good communication, called verbal. In the pilot exome sequencing (ASD syndromic family), we found a duplication in 4p16.3 and a deletion in 8p23.3 in both siblings, alterations that were found in patients with syndromes and ASD in previously studies; the analysis of SNVs showed 1 variation de novo and 117 nonsynonymous rare variations inherited from only 1 of the parents in the female sibling, and 150 nonsynonymous rare variations inherited from only 1 of the parents in the male sibling; Pathway analysis revealed enrichment differences of chromosomal regions for each sibling (chromosome 1 for the female patient and chromosome 16 for the male patient), what may be related to their phenotypic differences. In the exome sequencing of trios, as expected, it was found de novo variation in 9 of the patients: 1 de novo CNV (deletion) of 1.5 Mb in the region 29 of the long arm of chromosome 3, a region previously associated with syndrome and developmental disorders; and 8 genes altered by de novo variations, one of those is in the GABBR2, gene with previous evidence of association with ASD. The pathways and networks analysis of rare inherited variants showed that many of the genes related to the two groups verbal and nonverbal are already associated with ASD or interacts with those genes associated with ASD. This pathway and gene network analyses need to be replicated in larger samples, but our preliminary results shows that our study contributes with variations in genes related to neurogenesis and synaptogenesis pathways, regardless of phenotype, with probable impact to specific genes that may be related to severity of clinical presentation
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Computational Investigation of DNA Repair Enzymes: Determination and Characterization of Cancer Biomarkers and Structural Features

Silvestrov, Pavel 05 1900 (has links)
Genomic integrity is important for living cells' correct functioning and propagation. Deoxyribonucleic acid as a molecule is a subject to chemical reactions with agents that can come from environment as well as from internal metabolism processes. These reactions can induce damage to DNA and thus compromise the genetic information, and result in disease and death of an organism. To mitigate the damage to DNA, cells have evolved to have multiple DNA repair pathways. Presented here is a computational study of DNA repair genes. The structure of the Homo sapiens direct DNA repair gene ALKBH1 is predicted utilizing homology modeling methods and using AlkB and DBL proteins as templates. Analysis of the obtained structure and molecular dynamics simulations give insights into potentially functionally important residues of the protein. In particular, zinc finger domains are predicted, and lysines that could perform catalytic activities are investigated. Subsequent mutagenesis experiments revealed the effect of the residues predicted to form zinc fingers on activity of ALKBH1. Structure and dynamics of AlkD, a Bascillus cereus base excision DNA repair protein is also studied. This protein has been shown to bind DNA with large alkyl adducts and perform excision catalysis without base flipping which is characteristic to other enzymes in the same family. MD simulations of AlkD revealed that B helix, which interacts with DNA, has higher fluctuations when AlkD is not bound to DNA, and thus could have a role in binding and recognition of DNA. For the purpose of finding biomarkers and to further our understanding of a mode of action of DNA repair genes, statistical methods were applied to identify mutations that are linked to cancer phenotypes. Analysis was based on case-control studies of patients with cancers of prostate, breast, pancreas, lung as well as chronic lymphocytic leukemia from NCBI dbGAP database. Those mutations that result in missense mutations were further investigated. In particular, extensive MD simulations and experimental investigations were performed on the mutation in the ALKBH7 gene that was found to be linked to prostate cancer.

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