Effect of Moderate Diet Restriction on Body Condition, Health, and Reproductive Performance in Female Mink (Neovison vison)

Boudreau, Laura

21 August 2012

Selection for large body size can result in the development of obesity, which in mink females is associated with poor reproduction and metabolic diseases. Caloric restriction is effective in diminishing oxidative stress and delaying aging-related diseases. This study investigated the effects of moderate diet restriction (MDR) during the fall on body condition, health, and reproductive success of mink (Neovison vison) breeder females. The 100 control (CTRL) females were fed according to normal farm feeding practice and the 100 sister-pair MDR females were fed about 20% less. In the fall, more ideal body weights and body condition scores (BCS) were seen in the MDR females, and they produced larger litter sizes. In addition, the MDR females exhibited less deoxyribonucleic acid (DNA) damage than the CTRL females. Telomeres were elongated in both groups. This dietary management practice is anticipated to result in significant advancement in the fur industry, both economically and welfare-wise.

A role for the nuclear pore complex protein Nup170p in defining chromatin structure and regulating gene expression

Van de Vosse, David W

Unknown Date

No description available.

nuclear pore complex

epigenetic gene regulation

heterochromatin

telomere

chromatin remodeling

yeast

Roles for the Cohibin Complex and its Associated Factors in the Maintenance of Several Silent Chromatin Domains in S. cerevisiae

Poon, Betty Po Kei

26 November 2012

In Saccharomyces cerevisiae, the telomeres and rDNA repeats are repetitive silent chromatin domains that are tightly regulated to maintain silencing and genome stability. Disruption of the Cohibin complex, which maintains rDNA silencing and stability, also abrogates telomere localization and silencing. Cohibin-deficient cells have decreased Sir2 localization at telomeres, and restoring telomeric Sir2 concentrations rescues the telomeric defects observed in Cohibin-deficient cells. Genetic and molecular interactions suggest that Cohibin clusters telomeres to the nuclear envelope by binding inner nuclear membrane proteins. Futhermore, telomeric and rDNA sequences can form G-quadruplex structures. G-quadruplexes are non-canonical DNA structures that have been linked to processes affecting chromosome stability. Disruption of the G-quadruplex stabilizing protein Stm1, which also interacts with Cohibin, increases rDNA stability without affecting silent chromatin formation. In all, our findings have led to the discovery of new processes involved in the maintenance of repetitive silent chromatin domains that may be conserved across eukaryotes.

Cohibin

G-quadruplex

telomere

ribosomal DNA

silent chromatin

genome stability

0369

0307

Alternativní telomerické kompenzační mechanismy jako způsob adaptace telomer vůči stresovým podmínkám v průběhu evoluce hmyzu

KRŮČEK, Tomáš

January 2017

Telomeres are special nucleoprotein structures at the ends of eukaryotic chromosomes. Because of incomplete DNA replication telomere length becomes shorter with each cell cycle. Several mechanisms of telomere maintenance have been identified. Although the most common mechanism is the activity of telomerase that synthesizes short telomeric sequences onto chromosome ends, telomere length might be elongated by alternative ways such as the retrotransposition of special telomeric mobile elements targeted to chromosome ends, found in Drosophila, and homologous recombination. Homologous recombination extends satelite sequences in some dipteran species and also serves in vertebrates as the alternative mechanism to telomerase. The (TTAGG)n sequence was designated as the insect telomeric sequence. Although the (TTAGG)n sequence was found at telomeres of most of the tested insect orders in previous studies, there are numerous insect species showing the (TTAGG)n absence. Diptera is the large insect order, which shows the lost of the (TTAGG)n sequence together with telomerase system and its replacement by the transposition of telomeric elements in Drosophila or homologous recombination in mosquitoes or midges. The (TTAGG)n sequence was reported as telomeric sequence in most insect orders, however, the (TTAGG) specific telomerase activity was not tested in these orders.Therefore, I first speculated that non-telomerase systems in insects may not be limited only to Diptera and the presence of non-telomerase systems in insect might be underestimated. When I tested a distribution of the TTAGG-specific telomerase activity I confirmed that the telomerase system is the most comon telomere length compensation mechanism in insect, however, it is not present in Zygentoma, Orthoptera and Phasmida, which are insect orders with a previously reported presence of the (TTAGG)n telomeric motif. Data of the thesis showed that the activity of telomeric retrolements at Drosophila is up-regulated by mild-levels of free radical species, enhancing telomere extension. The role of non-telomerase mechanisms to overcome stress conditions during evolution of insect telomeres is hypothesized.

Aktivita telomerázy u termita \kur{Prorhinotermes simplex}

JEHLÍK, Tomáš

January 2017

Social insect is known for its unique caste system, coherence and effective division of labor, but also for the extreme longevity of reproductive individuals in comparison with asexual castes. Although mechanisms leading to lifespan differences between reproductive and non-reproductive castes of social insects are not sufficiently explained, one of the longevity determinants might be telomere length and activity of telomerase as the most common mechanism of telomere length maintenance. Telomere length belongs to general indicators of organismal lifespan. This work is focused on monitoring of telomerase activity in various stages, castes and organs of the termite Prorhinotermes simplex (Isoptera: Rhinotermitidae) showing up-regulation of telomerase in reproductive castes.

Trajetórias de transtornos mentais graves : contribuições da pesquisa em esquizofrenia

Czepielewski, Letícia Sanguinetti

January 2016

Transtornos mentais graves são doenças crônicas altamente incapacitantes que geram um alto custo para a sociedade. Indivíduos acometidos por essas doenças apresentam maior morbidade e mortalidade. Dentre elas, a esquizofrenia parece possuir os piores desfechos. Portanto, estudar a esquizofrenia pode trazer contribuições importantes para o entendimento e manejo de transtornos mentais graves como a depressão maior e o transtorno bipolar. Esse trabalho buscou compreender mecanismos fisiopatológicos da esquizofrenia ao longo de quatro artigos que exploram aspectos de funcionamento cognitivo, funcionamento intelectual, de biomarcadores e de estrutura cerebral. O primeiro artigo investigou as alterações de performance de memória em indivíduos com esquizofrenia em estágios iniciais e tardios da doença comparadas ao transtorno bipolar e a sujeitos saudáveis. Os resultados mostraram que indivíduos com esquizofrenia apresentaram precoces prejuízos cognitivos de memória, diferentemente de indivíduos com transtorno bipolar quando comparados a controles. O segundo artigo investigou as influências das performances cognitiva e intelectual em estruturas cerebrais de indivíduos com esquizofrenia comparados a controles saudáveis. Os resultados indicaram que o funcionamento intelectual pré-morbido estava relacionado ao volume de estruturas globais, enquanto o funcionamento cognitivo estava relacionado ao volume e espessura de massa cinzenta cortical, sugerindo influências diferentes e complementares relacionadas a neurodesenvolvimento e neurodegeneração. O terceiro artigo investigou um biomarcador de envelhecimento precoce, um possível mecanismo para a neuroprogressão na esquizofrenia. Os resultados monstraram que indivíduos com esquizofrenia apresentaram encurtamento de telômero quando comparados a controles, mas não houveram diferenças entre o tamanho de telômero de pacientes e seus irmãos não afetados pela doença. Por fim, o quarto artigo buscou investigar a teoria do envelhecimentoa patológico acelerado na esquizofrenia, integrando os achados dos artigos anteriores. Os resultados demonstraram correlações entre comprimento de telômero, níveis de CCL11, performance de memória, volume de massa cinzenta e tempo de doença em indivíduos com esquizofrenia. Esses achados sugerem que a esquizofrenia seria uma doença do neurodesenvolvimento associada a uma carga adicional ao longo do curso da doença que levaria a um envelhecimento patológico precoce. A partir dos achados em esquizofrenia, pode-se ampliar a compreensão de alterações percebidas nas trajetórias de outras psicopatologias. Com adequado entendimento desses mecanismos, será possível o desenvolvimento de novos tratamentos e intervenções mais efetivas e eficazes. / Severe mental disorders are debilitating chronic diseases that have a high cost to society. Individuals affected by these diseases have increased morbidity and mortality. Among them, schizophrenia seems to have the worst outcomes. Therefore, studying schizophrenia may provide important contributions to the understanding and management of severe mental disorders such as major depression and bipolar disorder. The present study aimed to understand the pathophysiological mechanisms of schizophrenia over four articles that explore aspects of cognitive functioning, intellectual functioning, biomarkers and brain structure. The first article investigated changes in memory performance in individuals with schizophrenia in early and late stages of disease compared to bipolar disorder and healthy subjects. The results showed that subjects with schizophrenia had early cognitive deficits of memory, unlike individuals with bipolar disorder compared to controls. The second article investigated influences of cognitive and intellectual performances on brain structures of individuals with schizophrenia compared to healthy controls. The results indicated that premorbid intellectual functioning was related to volume of global structures, while cognitive functioning was related to volume and thickness of cortical gray matter, suggesting different and complementary influences related to neurodevelopment and neurodegeneration. The third article investigated an early aging biomarker, a possible mechanism of neuroprogression in schizophrenia. The results showed that individuals with schizophrenia had shortened telomeres when compared to controls, but there were no differences between the telometer length of patients and their siblings not affected by the disease. Finally, the fourth article sought to investigate the theory of pathological accelerated aging in schizophrenia, integrating the findings of the previous articles. The results demonstrated correlations between telometer length, CCL11 levels, memory performance, gray matter volume and illness duration in individuals with schizophrenia. These findings suggest that schizophrenia is a neurodevelopmental disorder associated with an additional burden over the course of the disease that leads to a pathological accelerated agig.

Biomarcadores

Telômero

Esquizofrenia

Transtornos mentais

Schizophrenia

Cognition

Intellectual functioning

Telomere length

Gray matter

Trajetórias de transtornos mentais graves : contribuições da pesquisa em esquizofrenia

Czepielewski, Letícia Sanguinetti

January 2016

Transtornos mentais graves são doenças crônicas altamente incapacitantes que geram um alto custo para a sociedade. Indivíduos acometidos por essas doenças apresentam maior morbidade e mortalidade. Dentre elas, a esquizofrenia parece possuir os piores desfechos. Portanto, estudar a esquizofrenia pode trazer contribuições importantes para o entendimento e manejo de transtornos mentais graves como a depressão maior e o transtorno bipolar. Esse trabalho buscou compreender mecanismos fisiopatológicos da esquizofrenia ao longo de quatro artigos que exploram aspectos de funcionamento cognitivo, funcionamento intelectual, de biomarcadores e de estrutura cerebral. O primeiro artigo investigou as alterações de performance de memória em indivíduos com esquizofrenia em estágios iniciais e tardios da doença comparadas ao transtorno bipolar e a sujeitos saudáveis. Os resultados mostraram que indivíduos com esquizofrenia apresentaram precoces prejuízos cognitivos de memória, diferentemente de indivíduos com transtorno bipolar quando comparados a controles. O segundo artigo investigou as influências das performances cognitiva e intelectual em estruturas cerebrais de indivíduos com esquizofrenia comparados a controles saudáveis. Os resultados indicaram que o funcionamento intelectual pré-morbido estava relacionado ao volume de estruturas globais, enquanto o funcionamento cognitivo estava relacionado ao volume e espessura de massa cinzenta cortical, sugerindo influências diferentes e complementares relacionadas a neurodesenvolvimento e neurodegeneração. O terceiro artigo investigou um biomarcador de envelhecimento precoce, um possível mecanismo para a neuroprogressão na esquizofrenia. Os resultados monstraram que indivíduos com esquizofrenia apresentaram encurtamento de telômero quando comparados a controles, mas não houveram diferenças entre o tamanho de telômero de pacientes e seus irmãos não afetados pela doença. Por fim, o quarto artigo buscou investigar a teoria do envelhecimentoa patológico acelerado na esquizofrenia, integrando os achados dos artigos anteriores. Os resultados demonstraram correlações entre comprimento de telômero, níveis de CCL11, performance de memória, volume de massa cinzenta e tempo de doença em indivíduos com esquizofrenia. Esses achados sugerem que a esquizofrenia seria uma doença do neurodesenvolvimento associada a uma carga adicional ao longo do curso da doença que levaria a um envelhecimento patológico precoce. A partir dos achados em esquizofrenia, pode-se ampliar a compreensão de alterações percebidas nas trajetórias de outras psicopatologias. Com adequado entendimento desses mecanismos, será possível o desenvolvimento de novos tratamentos e intervenções mais efetivas e eficazes. / Severe mental disorders are debilitating chronic diseases that have a high cost to society. Individuals affected by these diseases have increased morbidity and mortality. Among them, schizophrenia seems to have the worst outcomes. Therefore, studying schizophrenia may provide important contributions to the understanding and management of severe mental disorders such as major depression and bipolar disorder. The present study aimed to understand the pathophysiological mechanisms of schizophrenia over four articles that explore aspects of cognitive functioning, intellectual functioning, biomarkers and brain structure. The first article investigated changes in memory performance in individuals with schizophrenia in early and late stages of disease compared to bipolar disorder and healthy subjects. The results showed that subjects with schizophrenia had early cognitive deficits of memory, unlike individuals with bipolar disorder compared to controls. The second article investigated influences of cognitive and intellectual performances on brain structures of individuals with schizophrenia compared to healthy controls. The results indicated that premorbid intellectual functioning was related to volume of global structures, while cognitive functioning was related to volume and thickness of cortical gray matter, suggesting different and complementary influences related to neurodevelopment and neurodegeneration. The third article investigated an early aging biomarker, a possible mechanism of neuroprogression in schizophrenia. The results showed that individuals with schizophrenia had shortened telomeres when compared to controls, but there were no differences between the telometer length of patients and their siblings not affected by the disease. Finally, the fourth article sought to investigate the theory of pathological accelerated aging in schizophrenia, integrating the findings of the previous articles. The results demonstrated correlations between telometer length, CCL11 levels, memory performance, gray matter volume and illness duration in individuals with schizophrenia. These findings suggest that schizophrenia is a neurodevelopmental disorder associated with an additional burden over the course of the disease that leads to a pathological accelerated agig.

Biomarcadores

Telômero

Esquizofrenia

Transtornos mentais

Schizophrenia

Cognition

Intellectual functioning

Telomere length

Gray matter

Identificação de moduladores genéticos em pacientes com anemia aplástica por sequenciamento de nova geração / Genetic screening of patients with aplastic anemia by targeting sequencing

Fernanda Gutierrez Rodrigues

16 November 2017

A fisiopatologia das síndromes de falência da medula óssea (FMO) está relacionada a mecanismos adquiridos de destruição das células-tronco hematopoeiticas na medula ou a defeitos constitucionais em genes fundamentais para o reparo do DNA e manutenção dos telômeros. A anemia aplástica (AA), o protótipo das doenças de FMO, pode ter etiologia adquirida ou constitucional. A avaliação genética de pacientes com AA adquirida tem como objetivo a detecção de mutações somáticas que possam ser usadas como marcadores de resposta ao tratamento imunossupressor. Diferentemente, em pacientes com AA constitucional, a avaliação genética é fundamental para detecção de mutações etiológicas na doença do paciente, sendo essencial para o tratamento e seleção de doadores de medula óssea. Contudo, o papel das mutações constitucionais na fisiopatologia e modulação imunológica da AA adquirida ainda não é conhecido. Neste estudo, nós sequenciamos pacientes com AA de duas coortes independentes utilizando diferentes painéis de sequenciamento de genes alvos. A primeira coorte, composta por 13 pacientes com AA adquirida, foi sequenciada utilizando um painel com 165 genes relacionados à FMO, neoplasias hematológicas, reparo de DNA, manutenção dos telômeros e vias de resposta imune. A segunda coorte, composta por 59 pacientes investigados para doença constitucional, foi sequenciada com um painel de sequenciamento comercial com 49 genes relacionados à FMO hereditária. Foram identificadas alterações potencialmente patogênicas em três dos cinco pacientes com AA adquirida que não responderam à imunossupressão: dois pacientes com variantes em TERT e um com uma variante em DHX36. Não foram identificadas variantes funcionalmente relevantes nos pacientes que responderam ao tratamento imunossupressor. Em contraste, foram identificadas variantes potencialmente patogênicas em RTEL1 em 8 pacientes com AA constitucional. Variantes em RTEL1 foram associadas tanto ao encurtamento telomérico quanto à erosão excessiva do 3\' overhang, independentemente do comprimento dos telômeros. Desse modo, apenas a medida do comprimento dos telômeros não foi suficiente para identificar todos ospacientes com disfunções teloméricas. As plataformas de sequenciamento de nova geração diminuíram o custo e o tempo para a avaliação genética dos pacientes com FMO. Em nosso estudo, os pacientes com AA adquirida não apresentaram um padrão genético associado à sua resposta ao tratamento com imunossupressores, no entanto, o sequenciamento da coorte com suspeita de AA constitucional foi capaz de identificar o defeito genético associado à doença do paciente em 40% dos casos. O uso de dados clínicos, investigação familiar, análises in silico e testes funcionais foram essenciais para uma correta interpretação da patogenicidade de novas variantes identificadas por sequenciamento de nova geração. / The pathophysiology of bone marrow failure (BMF) can be immune, as in acquired aplastic anemia (AA), or constitutional, due to germline mutations in genes critical for DNA repair and telomere maintenance. The genetic screening of patients with constitutional AA is performed to detect germline mutations that are etiologic in patients\' disease. That is critical for treatment decisions and to identify a donor for a bone marrow transplant. In acquired AA, the genetic screening has been used to detect somatic mutations that can predict patients\' outcomes after treatment, as the role of germline mutations in this disease is yet not clear. To investigate the role of germline variants in AA, we screened two independent cohorts with two different targeting sequencing panels; a first cohort composed by 13 patients with acquired AA that was screened using a panel with 165 genes related to BMF, hematologic malignancies, DNA repair, telomere maintenance, and immune response pathways. A second cohort composed of 59 patients suspected to have a constitutional disease screened by a commercial Inherited Bone Marrow Failure Sequencing panel. In our first cohort, while patients without functional relevant germline variants responded to immunosuppression treatment (n=8), three out of 5 nonresponder patients were identified with variants in telomere biology genes. We found patients carrying TERT and DHX36 variants. In our constitutional AA cohort, we identified 8 patients carrying variants in the RTEL1 gene, a helicase critical to telomere maintenance. RTEL1 variants associated with both patients\' overall telomere shortening and single-stranded 3\' overhang erosion independent of telomere length. Also, 3\' overhang erosion was associated with patients\' predisposition to clonal evolution. In this context, the variants identified in the helicases genes DHX36 and RTEL1 were both associated with patients\' normal telomere length and poor outcomes. Also, telomere length measurement alone was insufficient to identify all primary telomere defects. The platforms of next-generation sequencing decreased the cost and time for the genetic screening of patients with BMF. In our study, acquired AA patients did not display a clear genetic pattern associated with their immunosuppressive treatment response. In contrast, the sequencing of the cohort selected based on their suspicion to have an inherited diseaseidentified a molecular defect that might be pathogenic in up to 40% of patients, including the RTEL1 variants. Pathogenicity assessment of genetic variants requires a combination of clinical, in silico, and functional data required to avoid misinterpretation of common variants.

Anemia aplástica

Disfunção telomérica

RTEL1

Sequenciamento de nova geração

Aplastic anemia

Next-generation sequencing

RTEL1

Telomere dysfunction

Pathologies des hélicases et vieillissement précoce : modèle d'étude par dérivation de cellules souches pluripotentes induites (iPS) / Pathologies of helicases and premature aging : study by derivation of induced pluripotent stem cells

Gatinois, Vincent

27 November 2017

Les hélicases sont des enzymes ubiquitaires catalysant la séparation de l’ADN double-brin et impliquées dans la réplication, la réparation de l’ADN et dans le maintien des télomères. Chez l’Homme, 3 hélicases présentent des mutations responsables de syndromes cliniques : WRN pour le syndrome de Werner, BLM pour le syndrome de Bloom et RECQL4 pour le syndrome de Rothmund-Thomson. Tous ces syndromes associent un vieillissement pathologique accéléré à un risque accru de développement de cancer notamment par une augmentation de l’instabilité génomique. Les connaissances sur les mécanismes moléculaires et cellulaires impliqués dans ces maladies du vieillissement sont encore très partielles, notamment en ce qui concerne le lien entre l’instabilité génomique et le vieillissement. Au cours de ce projet, l'utilisation de prélèvements sanguins et cutanés de patients atteints de ces pathologies rares a permis de générer des modèles de cellules souches pluripotentes induites (iPS). Ces cellules présentent l’avantage de s’auto-renouveler et de pouvoir théoriquement se différencier dans tous les types cellulaires d’un organisme. Parallèlement, un témoin de sénescence a été généré de la même manière avec des cellules d’un patient souffrant du syndrome de la progéria de Hutchinson-Gilford. Après caractérisation de ces cellules, nous avons identifié des ensembles de phénotypes cellulaires et moléculaires dans le but de récapituler in vitro les pathologies. Nous avons également engagé les cellules iPS dans des voies de différenciation proches des tissus atteints dans les pathologies in vivo. Enfin, nous avons étudié la stabilité génomique de ces lignées dans les différents types cellulaires cultivés. Ainsi nous avons observé que la lignée Bloom est le siège de recombinaisons particulièrement fréquentes et est caractérisée par une instabilité du génome dans tous les types cellulaires étudiés. Egalement, la lignée Werner semblerait se distinguer par une instabilité de ses télomères. Enfin, l’ensemble des lignées des pathologies du vieillissement prématuré présenterait un défaut mitochondrial. / Helicases process the double-stranded DNA dissociation. They are involved in replication, DNA repair and maintenance of telomeres. In human, 3 helicases display mutations responsible for clinical syndromes: WRN for the Werner syndrome, BLM for the Bloom syndrome and RECQL4 for the Rothmund-Thomson syndrome. All these diseases cause premature ageing and high risk of cancer. Molecular and cellular mechanisms involved in these diseases are not well defined. Particularly, little is known concerning the link between genomic instability and ageing. During this project, we used blood samples and skin biopsies of affected patients to generate models by reprogramming cells to induced pluripotent stem cells (iPSCs). These cells have the advantage of self-renewing and theoretically could be differentiated in all cell types. At the same time, an iPSC senescence control was performed from cells of a Hutchinson-Gilford Progeria syndrome patient. iPSCs were characterized for pluripotency. In the aim of recapitulate these pathologies in vitro, we identified sets of cellular and molecular phenotypes. We also engaged differentiation of iPSCs in cell pathways closed to the affected tissues in vivo. Finally, we studied the genomic stability of iPSCs and derived cells. We observed that Bloom cells are susceptible to frequent recombinations and are characterized by a genome instability through all studied cell types. Werner cells showed an instability of telomeres length. Finally, all premature ageing diseases displayed mitochondrial defects.

Ips

Cellules souches

Hélicase

Instabilité chromosomique

Télomère

Ipsc

Stem Cells

Helicase

Chromosome instability

Telomere

The role of Tbf1 in telomere homeostasis in Saccharomyces cerevisiae

Bonnell, Erin

January 2017

Abstract: By differentiating chromosomal ends from internal breaks, telomeres prevent DNA damage checkpoint activation and provide protection from inappropriate DNA repair activity that could create genomic instability. In Saccharomyces cerevisiae, a large number of genes have been identified that are implicated in telomerase and telomere structure and/or function. However, a comprehension of the mechanism of action of these genes and how they relate to other genes is lacking. The function of end protection is based on the telomeric repeats and associated proteins, but evidence is accumulating that the subtelomeric region also plays a role. This region contains binding sites for various proteins, notably Tbf1. TBF1 is an essential gene and the protein has been implicated in telomere homeostasis, chromatin remodelling, and the DNA damage response. My master’s project is based on the observation that cells harbouring a thermosensitive (tbf1-ts) allele have abnormally short telomeres. However, all four known mutant tbf1 alleles have multiple point mutations, which renders their analyses difficult. In order to be able to more precisely determine the origin of the phenotypic variations, we used site-directed mutagenesis to create single point mutation tbf1 alleles. These experiments yielded two particular mutations, tbf1-82 and tbf1-453, which were found to have growth defects at various temperatures as well as increased sensitivity to DNA damaging drugs. Although the alleles had only minor telomere length phenotypes, it was discovered that Tbf1 could have a direct role in telomere stability in special situations. For example, in the absence of telomerase, which normally maintains telomeres, cells enter replicative senescence after about 60 population doublings and stop dividing. A small subset of the cellular population is able to evade this growth arrest by maintaining telomeres via a recombination-dependent process. An introduction of the tbf1-82 or tbf1-453 mutation into strains that also lacked telomerase caused a dramatic advance in time of onset of senescence. Thus this work uncovered that Tbf1 is a previously unknown regulator of senescence. Various genetic assays with homologous recombination genes and chromatin regulators were performed to help further characterize TBF1 and its interactors. Characterization of these novel tbf1 alleles has given new insights into the multiple roles of Tbf1. / En différenciant les extrémités chromosomiques des cassures d’ADN internes, les télomères empêchent l'activation de la signalisation d’un dommage à l'ADN et fournissent une protection contre des activités inappropriées qui sont associées à une réparation de l'ADN. Une telle réparation pourrait en fait créer une instabilité génomique. Chez Saccharomyces cerevisiae, un nombre de protéines sont impliquées dans la structure du télomère et / ou la fonction de la élomérase. On pense que la protection des télomères est gérée par les répétitions télomériques et les protéines associées, mais il y a de plus en plus d’indices que la région sous-télomérique joue également un rôle. Cette région contient des sites de liaison pour plusieures protéines, notamment pour Tbf1. TBF1 est un gène essentiel et la protéine est impliquée dans l'homéostasie des télomères et dans la réponse aux dommages de l’ADN. Toutefois, les mécanismes moléculaires restent à être précisés. Mon projet de Maîtrise est basé sur l’observation que dans les cellules qui ont un allèle thermosensible (tbf1-ts), les télomères sont anormalement courts. Malheureusement, les 4 allèles mutants de tbf1 connus présentent tous des mutations ponctuelles multiples ce qui rend leur analyse difficile. Pour clarifier l'origine des variations phénotypiques de ces mutations, la mutagenèse dirigée a été utilisée pour créer des allèles tbf1 avec une seule mutation. Mes résultats montrent que deux mutations spécifiques, tbf1-82 et tbf1-453, causent des défauts de croissance cellulaires, ainsi qu'une sensibilité aux drogues qui endommageant l'ADN. Une analyse détaillée de ces nouveaux allèles de tbf1 a montré que la protéine pourrait avoir un rôle direct dans le maintien de la stabilité des télomères. Par exemple, en absence de la télomérase qui est responsable du maintien des télomères, les cellules entrent en sénescence réplicative après environ 60 générations et arrêtent de se diviser. Par contre, une petite fraction de la population est capable de contourner cet arrêt de croissance car ces cellules maintiennent les télomères par un processus dépendant de la recombinaison homologue. L'introduction de mutations tbf1 dans des souches sans télomérase provoque une accélération d’entrée en sénescence; donc Tbf1 est un régulateur précédemment inconnu de la sénescence. Divers tests génétiques avec des gènes de recombinaison homologue et des régulateurs de chromatine ont été effectués pour aider à caractériser TBF1 et ses interactions. La caractérisation de ces nouveaux allèles a permis de mieux comprendre les multiples rôles de Tbf1.

Tbf1

Telomere

Senescence

DNA damage

Survivor

Chromatin

Télomère

Sénescence

Survivant

Chromatine