Global ETD Search

81	Mechanisms of alternative telomere elongation in human cancer cells Gocha, April Renee Sandy 18 December 2012 (has links) No description available. Biomedical Research telomere maintenance telomere ALT telomerase WRN Werner syndrome sarcoma
82	Marital disruption is associated with shorter salivary telomere length in a probability sample of older adults. Whisman, Mark A., Robustelli, Briana L., Sbarra, David A. 05 1900 (has links) Marital disruption (i.e., marital separation, divorce) is associated with a wide range of poor mental and physical health outcomes, including increased risk for all-cause mortality. One biological intermediary that may help explain the association between marital disruption and poor health is accelerated cellular aging. United States Telomere Cellular aging Marital disruption Divorce Marital separation
83	Roles of high mobility group AT-hook protein 2 (HMGA2) in human cancers Natarajan, Suchitra January 2013 (has links) High Mobility Group AT-hook protein 2 (HMGA2) is a non-histone chromatin binding protein expressed in stem cells, cancer cells but not in normal human somatic cells. The presence of HMGA2 in cancer correlates with advanced neoplastic disease and poor prognosis. HMGA2 plays important roles in Base Excision Repair (BER) and at replication forks. HMGA2 is present at mammalian metaphase telomeres and its loss induces chromosomal aberrations. However, the functional role of HMGA2 at telomeres remains elusive. We hypothesized a protective role of HMGA2 that guards telomeres and modulates DNA damage repair signaling pathways. Employing different HMGA2+ human tumor cell models, we investigated the HMGA2-mediated functions that contribute to chemoresistance in glioblastoma (GB). This study presents a novel interaction of HMGA2 with telomeric protein TRF2 (Telomere Repeat-Binding Factor 2). This interaction retains TRF2 at telomeres, thus capping the telomeres and reducing telomere-dysfunction induced foci despite induced telomere stress. Loss of HMGA2 coincides with increased phosphorylation of TRF2, decreased TRF2 retention at telomeres and increased formation of telomeric aggregates, anaphase bridges and micronuclei. These findings provide new evidence for a unique role of HMGA2 at telomeres as a novel contributor of telomeric integrity. We show that upon DNA damage, HMGA2 causes increased and sustained phosphorylation of Ataxia Telangiectasia and Rad3-related kinase (ATR) and checkpoint kinase 1 (CHK1). Prolonged presence of pCHK1Ser296 coincides with prolonged G2/M block and increased tumor cell survival. The relationship between (ATR)-CHK1 DNA damage response pathway and HMGA2 identifies a novel mechanism by which HMGA2 can alter DNA repair function in cancer cells. We identified HMGA2 as a novel factor contributing to temozolomide (TMZ) resistance in GB. HMGA2 knockdown sensitizes the GB cells to TMZ. We propose a specific combination of FDA-approved drugs, TMZ and Dovitinib (DOV), to increase GB cell death. We show that DOV downregulates key BER proteins, attenuates pSTAT3-coordinated Lin28A and HMGA2 expression. Our results suggest that a sequential therapeutic strategy of pretreating GB cells with DOV followed by a sequence of TMZ and DOV diminishes TMZ resistance and enhances the ability of TMZ to induce GB cell death. Overall, we identified HMGA2 as a multifunctional survival factor in human cancer cells and showed that targeting HMGA2 is a valid strategy to combat HMGA2+ cancer cells. / February 2016 HMGA2 Telomere TRF2-RAP1 ATR-CHK1 Glioblastoma Chemoresistance Genomic stability
84	Comparisons of Isogenic Trisomic and Disomic Cells from People with Mosaicism for Down Syndrome Unmask Cellular Differences Related to Trisomy 21 Rafferty, Kelly A 01 January 2017 (has links) It is known that age-related changes impacting multiple organ systems occur earlier in people with Down syndrome (Ds), but the biological basis underlying this trisomy 21-associated propensity for premature aging is poorly understood. Given that the trisomic/normal cells from people with mosaic Ds (mDs) are identical with regards to environmental exposures and genes (except for chromosome 21 copy number), comparisons of these isogenic trisomic/disomic cells allow one to “unmask” the cellular consequences of trisomy 21 by removing extraneous factors. The primary aim of this study was to determine if trisomy 21 results in an increase in the acquisition of age-related somatic chromosomal changes. To meet this aim, chromosome-specific telomere lengths, senescence-associated distension of satellites (SADS), and chromosomal instability frequencies were compared between the isogenic trisomic/disomic cells of people with mDs ranging from 1 to 44 years of age. Chromosome-specific telomere lengths were quantified using a Q-FISH (pantelomeric probe) method. The average trisomic cell telomere length (3.609 mean, +/- 0.082 SE) was significantly less than the average disomic cell telomere length (3.888 +/- 0.083) (n=28; p cytogenetics Down syndrome aging telomere chromosomal instability mosaicism Genetics
85	Chaperone Association with Telomere Binding Proteins Depcrynski, Amy 23 July 2009 (has links) The Hsp90 chaperone complex associates with the telomerase enzyme, facilitating the assembly of the ribonucleoprotein complex. While previous data from our laboratory indicate that Hsp90 and p23 remain stably associated with (functionally active) telomerase, more recent experiments suggest that these chaperones associate with telomeres independent of telomerase, presumably through a specific interaction with telomere binding proteins. The current study examines the novel interactions between TRF2, TRF1, TIN2 and TPP1 and molecular chaperones (Hsp90, Hsp70, p23). In vitro and in cell experiments have shown an interaction between TRF1 and TRF2 and the molecular chaperones Hsp90 and Hsp70. Inhibition of Hsp90 using drugs that specifically block ATPase activity results in an increased association of TRF1 and TRF2 with Hsp90 to presumably stabilize the telomere associated proteins to the telomere. A definitive explanation as to the mechanisms underlying the chaperone/telomere associated protein interaction has yet to be determined and further studies examining chaperones’ contribution to telomere structure and function are underway. A better understanding of the telomeric proteins and Hsp90 and their roles in nuclear events is important, as both have extremely important functions in the cell. Our current working hypothesis is that chaperone proteins associate with TRF2, TRF1, TIN2 and TPP1 to facilitate telomeric protein-protein interactions and protein-telomere binding in both cancer and normal cells. The interaction between chaperones and telomere binding proteins may eventually provide a better understanding of telomeric structure and function. Defining the mechanisms of telomeric protein regulation is important in the development of new therapeutic approaches for targeting telomeres to induce dysfunction. Clinical trials are underway employing drugs targeting Hsp90 in cancer cells and given the results here, these Hsp90 compounds likely cause telomere alterations. Telomere Chaperone Medical Genetics Medical Sciences Medicine and Health Sciences
86	DNA methylation as a prognostic marker i acute lymphoblastic leukemia Borssén, Magnus January 2016 (has links) Acute lymphoblastic leukemia (ALL) is the most common childhood malignancy. Most ALL cases originate from immature B-cells (BCP-ALL) and are characterized by reoccurring structural genetic aberrations. These aberrations hold information of the pathogenesis of ALL and are used for risk stratification in treatment. Despite increased knowledge of genetic aberrations in pediatric T-cell ALL (T-ALL), no reliable molecular genetic markers exist for identifying patients with higher risk of relapse. The lack of molecular prognostic markers is also evident in patients with relapsed ALL. During the last decades, aberrant epigenetic mechanisms including DNA methylation have emerged as important components in cancer development. Telomere maintenance is another important factor in malignant transformation and is crucial for long-term cell survival. Like DNA methylation, telomere length maintenance has also been implicated to reflect outcomes for patients with leukemia. In this thesis, the prognostic relevance of DNA methylation and telomere length was investigated in pediatric ALL at diagnosis and relapse. The telomere length (TL) was significantly shorter in diagnostic ALL samples compared to normal bone marrow samples collected at cessation of therapy, reflecting the proliferation associated telomere length shortening. Prognostic relevance of TL was shown in low-risk BCP-ALL patients where longer telomeres at diagnosis were associated with higher risk of relapse. Genome-wide methylation characterization by arrays in diagnostic T-ALL samples identified two distinct methylation subgroups denoted CIMP+ (CpG Island Methylator Phenotype high) and CIMP- (low). CIMP- T-ALL patients had significantly worse outcome compared to CIMP+ cases. These results were confirmed in a Nordic cohort treated according to the current NOPHO-ALL2008 protocol. By combining minimal residual disease (MRD) status at treatment day 29 and CIMP status at diagnosis we could further separate T-ALL patients into risk groups. Likewise, the CIMP profile could separate relapsed BCP-ALL patients into risk groups, where the CIMP- cases had a significantly worse outcome compared to CIMP+ cases. From these data we conclude that DNA methylation subgrouping is a promising prognostic marker in T-ALL, as well as in relapsed BCP-ALL two groups where reliable prognostic markers are currently missing. By elucidating the biology behind the different CIMP profiles, the pathogenesis of ALL will be further understood and may contribute to new treatment strategies. DNA methylation acute lymphoblastic leukemia T-ALL Relapse Telomere length
87	The Effects of Relocating the Ku-binding Stem-loop of Telomerase RNA on Telomere Healing Events Denham, Elizabeth January 2008 (has links) Thesis advisor: Anne E. Stellwagen / Thesis advisor: Clare O'Connor / In most eukaryotes, the enzyme telomerase adds telomeric DNA repeats to the 3' ends of chromosomes in order to stabilize them and protect them from degradation. In the budding yeast Saccharomyces cerevisiae, telomerase is a ribonucleoprotein complex consisting of multiple protein subunits and an approximately 1.3 kb RNA component termed TLC1. Among the various proteins involved in telomerase, Ku is a heterodimer that binds both to double-stranded DNA and to a 48 nucleotide stem loop on the TLC1 RNA. Beyond its function of extending telomeres at the ends of chromosomes, telomerase can also be instrumental in repairing double-stranded DNA breaks (DSBs) by adding telomeric repeats at the site of the break. This stabilizes the damaged chromosome, but also silences genes proximal to the break. Ku is an important factor in the recruitment of telomerase to these double stranded breaks, so this investigation explored whether TLC1 structural variants with relocated Ku-binding sites are still capable of healing chromosomes via the addition of telomeres. It was determined that the TLC1 RNA is flexible and can retain its function with relocated and additional Ku-binding stem loops. / Thesis (BS) — Boston College, 2008. / Submitted to: Boston College. College of Arts and Sciences. / Discipline: Biology. / Discipline: College Honors Program. Biology, Genetics telomere telomerase DNA yeast Ku TLC1
88	Efeitos da corticosterona e do estrógeno na atividade do eixo HPA de ratas: comportamento e comprimento dos telômeros / Effects of corticosterone and estrogen on HPA axis activity in rats: behavior and telomere length Barcellos Filho, Procópio Cleber Gama de 26 June 2018 (has links) O estresse crônico promove diversas alterações no funcionamento de um organismo. O aumento de glicocorticoides pode interferir no estado físico e psicológico de um individuo. Trabalhos recentes correlacionam estresse psicossocial crônico à redução do comprimento dos telômeros de determinadas células. E o estrógeno, além de ser um fator modulador da atividade do sistema de estresse, também pode interferir no comprimento dos telômeros. O objetivo desse trabalho foi verificar se a exposição crônica aos glicocorticóides promove alterações no comprimento dos telômeros de áreas encefálicas envolvidas no controle da atividade do eixo Hipotálamo-Hipófise-Adrenal (HPA) e em respostas comportamentais de ratas, e se o estrógeno pode modular essas alterações. Ratas Wistar ovariectomizadas foram tratadas com cipionato de estradiol (50 ou 100 µg/kg, s.c.) ou óleo, e submetidas à administração de corticosterona 20 mg/Kg ou veículo (salina isotônica 2% Tween 80, s.c.), durante 28 dias. No 25 º dia os animais foram submetidos ao teste do nado forçado, e no 27º dia, ao teste de labirinto em cruz elevado. No dia subsequente ao término do tratamento hormonal, os animais foram eutanasiados para coleta do sangue, cérebro e hipófise. O tratamento com cipionato de estradiol causou: aumento das concentrações plasmáticas de corticosterona e progesterona; redução da expressão de mRNA para CRH, AVP e POMC no PVN; um efeito ansiolítico a avaliado pelo teste do labirinto em cruz elevado; . um efeito depressivo indicado pelo teste de nado forçado; reduziu o tamanho dos na amígdala central e hipocampo dorsal, mas não no PVN. A corticosterona causou: redução da secreção de gonadotrofina; redução da expressão de RNA mensageiro para CRH e POMC e aumento para AVP no PVN; um efeito depressivo indicado pelo teste de nado forçado. O conjunto de resultados mostra que modificação na atividade do eixo HPA e a variação das concentrações plasmáticas de estrógeno podem provocar diversas alterações de ações hormonais, atividades comportamentais e de estrutura do DNA em áreas cerebrais. / Chronic stress promotes several changes in the functioning of an organism. Increased glucocorticoids may interfere with an individual\'s physical and psychological state. Recent works correlate chronic psychosocial stress to the reduction of the telomere length of certain cells. And estrogen, besides being a modulating factor of the activity of the stress system, can also interfere in the length of telomeres. The objective of this study was to verify if chronic exposure to glucocorticoids promotes changes in telomere length of encephalic areas involved in the control of hypothalamic-hypophysis-adrenal (HPA) axis activity and in rat behavioral responses, and whether estrogen can modulate these changes. Ovariectomized Wistar rats were treated with estradiol cypionate (50 or 100 ?g / kg, s.c.) or oil, and given 20 mg / kg corticosterone or vehicle (isotonic saline 2% Tween 80, s.c.) for 28 days. On the 25th day the animals were submitted to the forced swim test, and on the 27th day, the elevated plus maze test. On the day after the end of the hormonal treatment, the animals were euthanized for collection of blood, brain and pituitary gland. Treatment with estradiol cypionate caused: increased corticosterone and progesterone plasma concentrations; reduction of mRNA expression for CRH, AVP and POMC in PVN; an anxiolytic effect as assessed by the elevated plus maze test. A depressive effect indicated by the forced swim test; reduced size in the central amygdala and dorsal hippocampus, but not in PVN. Corticosterone caused: reduction of gonadotrophin secretion; reduction of mRNA expression for CRH and POMC and increase for AVP in PVN; a depressive effect indicated by the forced swim test. The set of results shows that changes in HPA axis activity and variation in plasma estrogen concentrations can lead to several changes in hormonal actions, behavioral activities and DNA structure in brain areas.
89	DNA repetitivo e seu papel na estrutura cromossômica terminal em Rhynchosciara americana (Diptera: Sciaridae) / The role of repetitive DNA in the chromosome termini of Rhynchosciara americana (Diptera: Sciaridae) Madalena, Christiane Rodriguez Gutierrez 29 July 2008 (has links) A localização cromossômica do DNA ribossômico (rDNA) foi estudada em cromossomos politênicos e em tecidos diplóides de quatro espécies de sciarídeos: Trichosia pubescens; Rhynchosciara americana; R. milleri e Schwenkfeldina sp.. Resultados de hibridação em cromossomos mitóticos mostraram a existência de um único locus de rDNA; entretanto, sondas ribossomais hibridaram em mais de uma região dos cromossomos politênicos em todas as espécies analisadas devido à adesão de micronucléolos em regiões específicas dos cromossomos. Os micronucléolos são estruturas arredondadas que contêm, provavelmente, DNA extracromossômico transcricionalmente ativo. Em T. pubescens, o rDNA está predominantemente localizado nas secções cromossômicas X-10 e X-8. Em R. americana o rDNA está freqüentemente associado à heterocromatina centromérica dos cromossomos X, C, B e A, e também às secções X-1 e B-13. Sondas ribossômicas em R. milleri hibridaram, em alta freqüência, em regiões teloméricas e pericêntricas de cromossomos politênicos. Schwenkfeldina sp. apresenta uma distribuição incomum do rDNA em núcleos politênicos, caracterizada pela adesão de micronucléolos em muitas regiões cromossômicas. Os resultados mostraram que os micronucléolos estão preferencialmente associados à heterocromatina intercalar ou terminal de todos os sciarídeos analisados e, dependendo da espécie, estão aderidos a um número pequeno (Trichosia), moderado (Rhynchosciara) e grande (Schwenkfeldina sp.) de sítios em cromossomos politênicos. Este trabalho também descreve a caracterização de seqüências presentes nas extremidades cromossômicas de R. americana, que se iniciou através da triagem de uma microbiblioteca plasmidial, feita a partir de uma extremidade microdissecada B-1. Uma repetição do tipo satélite foi identificada e sua composição de bases, estrutura genômica e localização cromossômica são semelhantes às repetições teloméricas complexas de Nematocera que já foram descritas. Contudo, dados obtidos em outras espécies de Rhynchosciara, assim como a localização desse satélite e da transcriptase reversa, sugerem que o elemento repetitivo caracterizado neste trabalho não atinge as extremidades dos cromossomos. A caracterização de seqüências terminais e subterminais presentes nos cromossomos de R. americana foi continuada através da triagem de uma biblioteca de DNA desse díptero clonada em fagos Dash. Escolhemos como sonda para a triagem o clone pRaM47.33, representativo do elemento repetitivo M22, caracterizado em R. americana. Foram analisados cerca de 12kb de um único inserto de fago, que continha, alem das repetições M22, uma nova repetição de 16pb, organizada em tandem e que denominamos de M16. Resultados de hibridações in situ revelaram a presença da repetição M16 nas 5 extremidades cromossômicas não-telocêntricas de R. americana. Essa repetição também foi utilizada como sonda em uma outra triagem da mesma biblioteca genômica, o que permitiu a seleção e análise de aproximadamente 50kb de DNA cromossômico terminal de R. americana. Encontramos também, ao longo dessas 50kb de DNA analisado, repetições de 414pb anteriormente caracterizadas em R. americana; parte de seqüências do transposon Ramar1 e do retrotransposon RaTART . Além disso, foram observadas também seqüências que não apresentam semelhança significativa com seqüências depositadas no banco de dados GenBank, e que tampouco apresentam motivos repetitivos. Os resultados obtidos apontam para a possibilidade de que a região telomérica de R. americana seja composta por mais de um tipo de elemento repetitivo. / The chromosomal localization of ribosomal DNA (rDNA) was studied in polytene and diploid tissues of four sciarid species, Trichosia pubescens, Rhynchosciara americana, R. milleri and Schwenkfeldina sp. While hybridization to mitotic chromosomes showed the existence of a single rDNA locus, ribosomal probes hybridized to more than one polytene chromosome region in all the species analyzed as a result of micronucleolar attachment to specific chromosome sites. Micronucleoli are small, round bodies containing transcriptionally active, probably extrachromosomal rDNA. In T. pubescens the rDNA is predominantly localized in chromosome sections X-10 and X-8. In R. americana the rDNA is frequently found associated with centromeric heterochromatin of the chromosomes X, C, B and A, and also with sections X-1 and B-13. Ribosomal probes in R. milleri hybridized with high frequency to pericentric and telomeric regions of its polytene complement. Schwfenkfeldina sp. displays a remarkably unusual distribution of rDNA in polytene nuclei, characterized by the attachment of micronucleoli to many chromosome regions. The results showed that micronucleoli preferentially associate with intercalary or terminal heterochromatin of all sciarid flies analyzed and, depending on the species, are attached to a few (Trichosia), moderate (Rhynchosciara) or a large (Schwenkfeldina sp.) number of polytene chromosome sites. This work also describes the characterization of chromosome end sequences of Rhynchosciara americana, initiated with the screening of a plasmid microlibrary made from a microdissected polytene chromosome end. We report the identification and sequencing of an R. americana satellite displaying base composition, genomic structure and chromosomal localization similar to the complex telomeric repeats of Nematocera that have previously been characterized. However, data obtained in other Rhynchosciara species, as well as distinct chromosomal localization of satellite and reverse transcriptase loci in R. americana, suggest that the repetitive element characterized does not reach the very end of the chromosome. The characterization of chromosome end sequences of Rhynchosciara americana continued with the screening of a phage library made with its genomic DNA. We choose pRaM47.33, a clone whose insert is a repetitive microsatellite characterized in the subtelomeric region of R. americana chromosomes, as a probe for the screening. We analyzed 12kb of a single phage insert, composed of M22 tandem arrays and a new microsatellite which was 16pb long, arranged in tandem (named M16). In situ hybridization showed the presence of M16 repeats in the five telomeric termini of R. americana chromosomes. The M16 repeat was used as a probe in another screen of the same phage library, which allowed us to analyze approximately 50kb of terminal DNA. We find that repetitive sequences, such as the 414pb repeat previously characterized in R. americana and stretches of Ramar1 and RaTART mobile elements, also characterized in R. americana, compose the subtelomeric region of R. americana chromosomes. Additionally, we find sequences that do not match sequences in the GenBank database and do not present repetitive motifs. Our results suggest that the telomeric regions of R. americana chromosomes are composed of more than one type of repetitive sequence. Rhynchosciara americana Rhynchosciara americana Repetitive sequences Seqüências repetitivas Telomere Telômeros
90	A mechanistic investigation into candidate markers of telomere-induced senescence in normal human epidermal keratinocytes dos Santos Soares Martins de Castro, Alicia Maria January 2014 (has links) Telomere dysfunction is one mechanism of cellular and tissue ageing. Dysfunctional telomeres in fibroblasts are recognised as DNA double-strand breaks (DSBs) and trigger the DNA damage pathway of senescence. However, telomere uncapping in normal human epidermal keratinocytes, via expression of the dominant negative mutant of the telomere repeat-binding factor 2 (TRF2!B!M), resulted in a senescent-like arrest without a significant DNA damage response (DDR). This suggests that either keratinocytes are unusually sensitive to telomere uncapping and the low DDR is sufficient to induce senescence or that dysfunctional telomeres may also be signalled through an alternative pathway. Subsequent analysis revealed genes HIST2H2BE, ICEBERG, S100A7 and HOPX as potential markers for telomere dysfunction-induced senescence (TDIS) since they were induced by telomere uncapping and seemed to be regulated by telomerase. The aim of this project was to assess the specificity of these candidate markers for TDIS and to select the most promising for use as a biomarker. To this end, keratinocytes were exposed to doses of ionising radiation, capable of generating transient or permanent damage to the DNA, or transduced with retroviral constructs expressing p14ARF, p16INK4a, p53 or TRF2!B!M and the gene expression levels of the candidates assessed after a recovery period or at the early stages of senescence. Whilst S100A7, HOPX or ICEBERG were not induced by a transient or persistent DDR or by p16INK4a, ICEBERG and HOPX were induced by p53 and p14ARF when these were ectopically expressed at higher levels. Thus, S100A7 seems to be the most specific early marker for telomere dysfunction in keratinocytes since it was selectively induced by telomere uncapping via expression of TRF2!B!M and not by DSBs or by over expression of p14ARF, p53 or p16INK4a. S100A7 may have the potential to identify cells with telomere dysfunction in human epithelia and body fluids. 572.8

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