Defining RAD54 function in the alternative lengthening of telomeres pathway

Terranova, Katherine

01 December 2020

BACKGROUND: Telomeres are the DNA sequences at the end of chromosomes that are made up of highly repetitive sequences to protect the ends of chromosomes from damage. Telomeres shorten with each round of DNA replication eventually causing cellular senescence. Many cancer cells are able to overcome or evade senescence by elongating their telomeres. Alternative lengthening of telomeres (ALT) is a recombination based mechanism used by cancer cells to maintain telomere length. Evidence supports that unresolved replication stress at telomeric DNA promotes telomere elongation. Given the role of RAD54 in recombination genome wide, we were interested in investigating whether RAD54 is contributing to ALT telomere maintenance. OBJECTIVE: To define the role of RAD54 in ALT telomere maintenance. METHODS: Several different known ALT cell lines and non-ALT cell lines were examined using wet-lab techniques. Combined immunofluorescence and DNA FISH (IF-FISH) was used to visualize co-localization between RAD54 and telomeres, siRNA was used to deplete specific mRNA, and western blots were used to confirm these knockdowns. RESULTS: IF-FISH showed enrichment of RAD54 at the telomeres in ALT cells as compared to non-ALT cells. There was a decrease in incorporation of the synthetic nucleotide EdU in the absence of RAD54, indicating a decrease in DNA synthesis. No change was seen in the recruitment of RAD51, a recombinase, to telomeres in the absence of RAD54. There was a significant increase in MUS81 colocalization to ALT telomeres in the absence of RAD54 and an increase in the number of ultra-fine anaphase bridges. CONCLUSIONS: Using combined immunofluorescence and DNA FISH, we found enrichment of RAD54 at the telomeres in ALT cells as compared to non-ALT cell lines. Furthermore, RAD54 is predominantly found at ALT telomeres in ALT-associated promyelocytic leukemia (PML) bodies (APBs), which are nuclear condensates containing telomeres and many repair proteins. APBs are thought to be sites of active recombination, mediated by the recombinase RAD51. We can monitor recombination using EdU incorporation events at telomeres. RAD54 promotes DNA synthesis events at ALT telomeres, as measured through EdU incorporation. No change was found in RAD51 recruitment to telomeres in the absence of RAD54, indicating that RAD54 is not required for RAD51 mediated synapsis. By over-expressing RAD54 mutants, we found that sites of DNA synthesis, that are thought to be elongation events at ALT telomeres, are dependent on the ATPase and branch migration activities of RAD54. These results suggest that RAD54 is promoting telomere elongation by mediating the migration of the branched DNA structures formed at telomeres during recombination. When RAD54 is depleted, we found an increase in recruitment of the nuclease MUS81 to ALT telomeres, suggesting that in the absence of branch migration, ALT telomeres are cleaved to resolve recombination intermediates. Together, these data demonstrate a crucial role for RAD54 in promoting ALT mediated telomere elongation through resolving homologous recombination intermediates via branch migration.

Pharmacology

ALT

RAD54

Capital budgeting practices : an empirical study of companies listed on the ALT X

Sibanda, Thabani

January 2012

The main focus of this study is the analysis of the capital budgeting practices and techniques implemented by companies listed on the Alternative Exchange (Alt X) of the Johannesburg Securities Exchange (JSE). Dayananda, Iron, Harrison, Herbohn and Rowland (2002) explain that capital budgeting is the process through which companies assess various sizeable investments, both tangible and intangible, to determine the most viable investment projects for the company. Dayananda et al. (2002) further explain that viable investment projects are ventures that correspond with the company’s objective of maximising shareholder wealth. Therefore, the capital budgeting process used by a company is very influential to its long-term sustainability. Ryan and Ryan (2002) add that an effective capital budgeting process employs appropriate measures and accurate techniques that ensure the company invests only in the most lucrative proposed projects. This study commences by presenting a general introduction into the research conducted, offering background insight that explains the need for a study of this nature. The research problem that was identified is discussed, followed by the purpose statement of the study and a definition of all the research objectives that guide the study. Furthermore, the academic value and intended contribution of the study as well as its practical benefits are disclosed. The introductory chapter also consists of the delimitations of the study and the key concepts covered in this study. In order to provide a complete analysis of the capital budgeting practices employed by the companies listed on the Alt X, a comprehensive literature review was conducted. This highlighted the importance of capital budgeting as well as the capital budgeting behaviour of large firms in South Africa and internationally. What emerged from this research was that the capital budgeting practices and techniques implemented by large companies generally tend to align with the recommendations of financial theory which advocates the use of discounted cash flow techniques and a discount rate that accounts for all sources of funds available to the company. The literature review also assesses studies conducted on the capital budgeting practices of small and medium sized enterprises (SMEs), the category under which Alt X listed companies fall. Findings from those studies reveal that SMEs traditionally employ inferior capital budgeting techniques in comparison to their - iii - larger counterparts and use no formal procedures to calculate an acceptable rate of return required from proposed investment projects. The theoretical background gained from the literature review is complimented by an empirical analysis which investigates the actual capital budgeting behaviour of the SMEs listed on the Alt X. Companies included in the study were from all seven sectors represented on the Alt X and selection was limited only to those with an active primary listing on this board. A web-based survey comprising of 28 questions was formulated using Survey Monkey Software to collect and analyse responses. The survey was divided into sections which included questions about respondent demographics, company profiles, capital budgeting practices implemented, capital rationing and the use of discount rates. The survey remained active for a period of eight weeks to allow sufficient time for all respondents invited to participate. A total of 15 responses were obtained from this process when the survey was closed to further responses. The research design, methodology and techniques that guided this study are also disclosed in this dissertation. The final part of this dissertation contains research findings obtained from analysing the primary data gathered through the survey. These findings are analysed and interpreted in isolation, by relating them to findings from comparable studies of the same population as well as to similar studies conducted both locally and internationally. Finally, this dissertation concludes by summarising all research findings derived from the literature review and the empirical study. It also presents recommendations and areas for further study that could be of academic and practical value to the field of finance. / Dissertation (LLM)--University of Pretoria, 2012. / gm2014 / Financial Management / unrestricted

Alt X. companies

UCTD

Analysis of the Allergenic Potential of the Ubiquitous Airborne Fungus Alternaria Using Bioinformatics

Babiceanu, Mihaela

14 July 2011

Among the environmental airborne fungi one of the most common is <i>Alternaria alternata</i>. From a clinical perspective Alternaria has long been associated with IgE-mediated, histamine-dependent mold allergy, allergic rhinitis, chronic rhinosinusitis (CRS) and asthma. Recently it has been proven that an abnormal immunological response to Alternaria most likely contributes to the pathogenesis of upper respiratory airway disorders. In this body of work, we present for the first time results of several sets of experiments including, 1) the analysis of A. alternata spore germination expressed sequence tags (ESTs), 2) the survey of global allergen homologues in fungal genomes, and 3) the first microarray experiment investigating airway epithelial cell responses to this fungus. In the first project, the analyses of the EST dataset offered a first look into the gene content of A. alternata and represents the beginning of future research of this ubiquitous fungus. Annotation and classification of ESTs revealed a number of genes that could be involved in the immunomodulation process of the human immune response toward fungi. We also discovered that the majority of known allergens are expressed during the spore germination phase of A. alternata. For investigating the allergenic potential of fungi we developed a whole genome approach by querying fungal genome sequences (<i>A. alternata, A. brassicicola,</i> and <i>Aspergillus fumigatus</i>) with a database of all known allergenic proteins from a taxonomically diverse group of organisms. Interestingly, we identified homologues of diverse types of allergens in these fungal genomes and also many homologues of allergens from other organisms including those from pollen, insects, and venoms. Finally, we investigated global gene expression changes of human airway cells in response to <i>A. alternata</i> and an ∆alt a 1 deletion mutant. We found that wild type Alternaria spores induced significant changes in gene expression patterns in human airway epithelial cells, especially known immune response genes. Furthermore, results of these analyses revealed that Alt a 1 is a major factor in inducing epithelial inflammatory responses. / Ph. D.

Alt a 1

Alternaria

allergen

NR2C/F telomeric association drives telomere-genome rearrangements in ALT cells / Réarrangements télomères/génome médiés par les facteurs NR2C/F dans les cellules ALT

Marzec, Paulina

06 December 2013

L'immortalité cellulaire est toujours accompagnée par l'activation du mécanisme de maintien des télomères. Dans la plupart des cancers humains, ce rôle est assuré par l'enzyme télomérase. Cependant, dans 15 % des tumeurs, la télomérase n'est pas activée et les télomères sont maintenus par l'allongement alternatif des télomères (ALT), voie qui implique la recombinaison des télomères. ALT est plus fréquent dans les tumeurs provenant de tissus mésenchymateux (sarcomes), representant 40-60 % des cas, que dans les tumeurs épithéliales. Comprendre le mécanisme ALT est primordial dans les thérapies anti-cancéreuses puisque certaines drogues inhibant la télomérase conduisent souvent à l'activation de l'ALT.La voie ALT est définie par de caractéristiques typiques des télomères. Dans les cellules ALT, les recombinaisons aberrantes d'ADN ne se limitent pas aux télomères puisque les génomes sont souvent fortement réarrangés. Les liens de ces caractéristiques génomiques anormales et la maintenance des télomères atypique ne sont pas connues, mais l'instabilité du génome contribue certainement à la transformation. Notre équipe a montré que les récepteurs orphelins appartenant aux familles NR2C/F ont été trouvés enrichies dans les télomères des lignées cellulaires ALT. Nous avons proposé que ces facteurs puissent être recrutés aux télomères par liaison directe à la séquence répétée GGGTCA, un site de liaison à haute affinité pour ces protéines. Mon projet vise à comprendre (i) leur mécanisme de liaison et (ii) leur rôle, dans le processus d'ALT.Dans cette étude nous montrons que dans les sarcomes primaires humains, les télomères d'ALT sont souvent liés par des récepteurs nucléaires orphelins des sous-familles NR2C/F, en particulier dans les tumeurs au stade avancé. Ceci suggère un rôle actif de ces facteurs dans la progression tumorale ALT. En utilisant la technique de ChIP-sequencing, nous avons montré que les protéines NR2C/F se lient à une répétition directe amplifiée (DR0) aux télomères, et pas de manière significative à toute autre combinaison de motif GGGTCA. Nous avons également analysé la distribution sur tout le génome de NR2C2/F2 et TRF2, une protéine de liaison des télomères, dans des cellules ALT (-) et ALT (+). Bien qu'il n'y ait que peu de sites génomiques liés par TRF2 dans les cellules ALT (-), nous avons été surpris d'identifier plusieurs centaines de régions liées par TRF2 dans les cellules ALT (+). Plus surprenant, la grande majorité de ces régions spécifiques TRF2 ALT chevauche des sites endogènes de NR2C2/F2. Étant donné que ces sites ne contiennent généralement pas les répétitions des télomères, TRF2 est probablement recruté de façon indirecte. Conformément à cette interprétation, nous montrons que les facteurs NR2C/F entrainent un rapprochement des loci et sont responsables du regroupement atypique des télomeres dans ALT. De plus, un sous-ensemble de ces régions génomiques uniques a des additions hétérogènes des séquences télomeriques ALT, suggérant un rôle dans le recrutement des télomères par des protéines NR2C/F mais aussi une fonction de ciblage de recombinaison génomique. Systématiquement, nous trouvons que ces réarrangements des télomères/génome sont situés à proximité des motifs GGGTCA endogènes. Le caryotype spectral des lignées cellulaires ATL montre que les sites télomériques interstitielles sont fréquemment localisés aux niveaux des sites de translocations/réarrangements entre deux ou plusieurs chromosomes, ce qui est également observé dans les données de ChIPseq. Ces résultats suggèrent que les réarrangements entres les télomères et le génome pourraient participer à la formation d'un caryotype complexe ce qui caractérise environ 50% des sarcomes. De plus, l'addition de sites télomériques interstitielles dans le génome est spécifique des cellules ALT et est favorisée par les dommages de l'ADN. / Cellular immortality is always accompanied by the activation of telomere maintenance mechanism. In most human cancers this role is fulfilled by the telomerase enzyme. However in 15% of tumors, telomerase is not activated and telomeres are maintained by an Alternative Lengthening of Telomeres (ALT) pathway that involves telomere-telomere recombination. Interestingly ALT is more prevalent in tumors originating from mesenchymal tissues (sarcomas), where it is present in 40-60% of cases, than in epithelial tumors. Understanding ALT maintenance is critical since inhibiting telomerase in tumors leads to the activation of ALT. The ALT pathway is operationally defined by typical telomere hallmarks. In ALT cells, aberrant DNA transactions are not restricted to telomeres since genomes are often highly rearranged. Whether these abnormal genomic features are linked to atypical telomere maintenance is not known, but genome instability is certainly contributing to transformation. We have previously shown that orphan receptors of the NR2C/F families were enriched at telomeres in ALT cell lines. We proposed that these factors could be recruited to telomeres through direct binding to the GGGTCA variant repeat, a high affinity binding site for these proteins. My project is aimed at understanding (i) their mechanism of binding and (ii) their role, if any, in the ALT process.We show that in human primary sarcomas, ALT telomeres are often bound by orphan nuclear receptors of the NR2C/F subfamilies, particularly in more advanced-stage tumors. This suggests an active role for these factors in ALT tumor progression. Using ChIP-sequencing, we show that NR2C/F proteins bind to an amplified direct repeat (DR0) at telomeres, and not significantly to any other GGGTCA motif combination. We also analyzed the genome wide distribution of NR2C2/F2 and TRF2, a telomere binding protein, in ALT(-) and in ALT(+) cells. While there are only few genomic sites bound by TRF2 in ALT(-) cells, we were surprised to identify several hundred regions bound by TRF2 in ALT(+) cells. More surprisingly, the great majority of these ALT specific TRF2 regions overlap with endogenous NR2C2/F2 sites. Since these sites usually do not contain telomere repeats, TRF2 is likely indirectly recruited. Consistent with this interpretation, we show that NR2C/F factors drive locus proximity. Moreover, a subset of these unique genomic regions harbor heterogeneous ALT telomere sequence additions, not only suggesting a telomere recruitment role for NR2C/F proteins but also a recombination targeting function in the genome. Consistently, we find these telomere/genome rearrangements are located close to endogenous GGGTCA motifs. Next, we wanted to evaluate a role of these rearrangements in formation of complex karyotype which characterize approximately 50% of sarcomas. We found by spectral karyotyping that interstitial telomeric sites are frequently located at translocation/ rearrangements sites between two or more chromosomes, which we could also observe in our ChIPseq data. Furthermore, we demonstrate that addition of interstitial telomeric sites to the genome is enhanced by DNA damage and specific for ALT genome. Therefore we conclude that NR2C/F factors target telomere proximity to defined NR2C/F regions which enables telomere-genome rearrangements under DNA damage condition. This contributes not only to efficient telomere recombination, but also it drives further genomic instability at selected NR2C/F sites.We believe we identified a new mechanism of telomere dysfunction potentially driving targeted genome instability and mediated by NR2C/F proteins in ALT cells which probably underlie complexity of sarcomas genome. Understanding the ALT mechanism allows designing NR2C/F-targeted therapies in treatment of ALT tumors and therapies for patients treated with anti-telomerase drugs to prevent ALT appearance.

Récepteurs orphelins

Alt

Télomères

Sarcomes

Orphan receptors

Alt

Telomeres

Sarcomas

Replication stress and the alternative lengthening of telomeres pathway

Cox, Kelli

15 June 2016

In an effort to achieve replicative immortality, human cancer cells must avoid the constant telomere attrition that accompanies DNA replication. Cancer cells accomplish this by employing mechanisms to lengthen their telomeres. Approximately 10 percent of all cancers utilize the Alternative Lengthening of Telomeres (ALT) pathway to maintain telomere length. Although ALT is known to rely on homologous recombination between two telomeric sequences, the exact mechanism and regulators of the ALT pathway remain elusive. As common fragile sites, telomeres pose a challenge to the replication machinery. This replication challenge is exacerbated in ALT cells due to defects in nucleosome assembly, suggesting the importance of managing replication stress at telomeres in these cells. ATR (ataxia telangiectasia and Rad3-related) is an important kinase in the response to replication stress. The work in this thesis demonstrates that ATR is also a key mediator of ALT activity. Due to the highly recombinogenic state of ALT telomeres, these cells depend on ATR activity. In fact, we illustrate that small molecule inhibition and siRNA mediated loss of ATR disrupts ALT activity and promotes cell death specifically in ALT positive cancer cells. Although we establish ATR as a critical regulator and effective therapeutic target in ALT cancers, the exact mechanism of ATR in this pathway remains elusive. Recently, the chromatin remodeling enzyme SMARCAL1 (SWI/SNF-related, matrix-associated, actin-dependent regulator of chromatin subfamily A-like protein 1) was identified as one of the most abundant proteins bound to sites of replication stress. We demonstrate by combined immunofluorescence-FISH and chromatin immunoprecipitation that SMARCAL1 associates with ALT telomeres to resolve replication stress and maintain telomere stability. Specifically, we illustrate that siRNA mediated loss of SMARCAL1 in ALT cancer cells results in persistently stalled replication forks that collapse into DNA double strand breaks, which promotes the formation of chromosome fusions. Ultimately, we illustrate that loss of SMARCAL1 in ALT cancer cells promotes genomic instability through telomere dysfunction. Although great strides have been made in defining the ALT mechanism, the drivers of this pathway remain elusive. These studies highlight the importance of replication stress in both activation and maintenance of the ALT pathway. Our data demonstrate chronic replication stress as a key feature at ALT telomeres. Importantly, we were able to exploit this feature to identify a novel therapeutic avenue for ALT positive cancers.

Cellular biology

ALT

Cancer

Replication stress

Telomere

The role of Alternative Lengthening of Telomeres in human cancer

Henson, Jeremy D

January 2006

Doctor of Philosophy / Activation of a telomere maintenance mechanism is a vital step in the development of most cancers and provides a target for the selective killing of cancer cells. Cancers can use either telomerase or Alternative Lengthening of Telomeres (ALT) to maintain their telomeres and inhibition of either telomere maintenance mechanism can cause cancer cells to undergo senescence or apoptosis. Although telomerase inhibitors are undergoing clinical trials, on commencing this study very little was known about the role of ALT in cancer, what proteins were involved in its mechanism and regulation and how it could be targeted clinically. The primary aim of this thesis was to develop an assay for ALT suitable for examining archived tumour specimens and to begin using it to examine the prevalence and clinical significance of ALT in cancer. This assay and gene expression analysis was also used to identify genes that are involved in or associated with the activation of the ALT mechanism, to contribute towards the overall goal of an ALT cancer therapy. The ALT mechanism involves recombination mediated replication and ALT cells have a marked increase in a range of recombinational events specifically at their telomeres. Presumably, as a consequence of this the telomere lengths of ALT cells are very heterogeneous and on average long. This can be detected by terminal restriction fragment (TRF) Southern analysis, which has been used previously as the definitive test for ALT activity. However, TRF analysis requires intact genomic DNA and is unsuitable for tumour specimens which are commonly archived by paraffin embedding. Another hallmark of ALT is ALT-associated PML bodies (APBs) which are the subset of PML bodies that contain telomeric DNA. Work done in this study to consolidate APBs as a hallmark of ALT, combined with published data, showed 29/31 ALT[+], 3/31 telomerase[+] and 0/10 mortal cell lines/strains are APB[+]. The three APB[+]/telomerase[+] cell lines identified here had an order of magnitude lower frequency of APB[+] nuclei than the ALT[+] cell lines. APBs may be functionally linked to the ALT mechanism and contain the recombination proteins that are thought to be involved in the ALT mechanism. This study, in collaboration with Dr W-Q Jiang, strengthened this functional link by demonstrating that loss of ALT activity (as determined by TRF analysis) coincided with the disruption of APBs. The detection of APBs was developed into a robust assay for ALT in archived tumour specimens using a technique of combined immunofluorescence and telomere fluorescence in situ hybridisation. It was demonstrated that the APB assay concurred exactly with the standard assay for ALT (TRF analysis) in 60 tumours for which TRF analysis gave unequivocal results. The APB assay may be a more appropriate technique in the case of tumour specimen heterogeneity, which may explain why the APB assay was able to give definitive results when TRF analysis was equivocal. We demonstrated that intratumoral heterogeneity for ALT does exist and this could explain why about 3% of tumours in this study were APB[+] but with more than a ten-fold reduction in the frequency of APB[+] nuclei. This study also made the novel discovery of single stranded C-rich telomeric DNA inside APBs which potentially could be used to make the APB assay more suitable for routine pathology laboratory use. The APB assay was used to show that ALT is a significant concern for oncology. ALT was utilised in approximately one quarter of glioblastoma multiforme (GBM), one third of soft tissue sarcomas (STS) including three quarters of malignant fibrous histiocytomas (MFH), half of osteosarcomas and one tenth of non-small cell lung carcinomas (NSCLC). Furthermore, the patients with these ALT[+] tumours had poor survival; median survivals were 2 years for ALT[+] GBM, 4 years for ALT[+] STS including 3.5 years for ALT[+] MFH and 5 years for ALT[+] osteosarcoma. ALT[+] STS and osteosarcomas were also just as aggressive as their ALT[-] counterparts in terms of grade and patient outcome. ALT status was not found to be associated with response to chemotherapy in osteosarcomas or survival in STS. ALT was however, less prevalent in metastatic STS. The APB assay was a prognostic indicator for GBM and was correlated with three fold increased median survival in GBM (although this survival was still poor). ALT was more common in lower grade astrocytomas (88% ALT[+]) than GBM (24% ALT[+]) and ALT[+] GBM had an identical median age at diagnosis to that reported for secondary GBM. It is discussed that these data indicate that ALT was indirectly associated with secondary GBM and is possibly an early event in its progression from lower grade astrocytoma. This is relevant because secondary GBM have distinct genetic alterations that may facilitate activation of the ALT mechanism. Putative repressors of ALT could explain why this study found that ALT varied among the different STS subtypes. ALT was common in MFH (77%), leiomyosarcoma (62%) and liposarcoma (33%) but rare in rhabdomyosarcoma (6%) and synovial sarcoma (9%). ALT was not found in colorectal carcinoma (0/31) or thyroid papillary carcinoma (0/17) which have a high prevalence of telomerase activity and a reduced need for a telomere maintenance mechanism (low cell turnover), respectively. A yeast model of ALT predicts that one of the five human RecQ helicases may be required for ALT. Using the APB assay to test for the presence of ALT in tumours from patients with known mutations in either WRN or RECQL4 it was demonstrated that neither of these RecQ helicases is essential for ALT. Although p53 and mismatch repair (MMR) proteins have been suggested to be possible repressors of ALT, there was no apparent increase in the frequency of ALT in tumours from patients with a germline mutation in p53 codon 273 or in colorectal carcinomas that had microsatellite instability and thus MMR deficiency. Also contrary to being a repressor of ALT but consistent with its ability to interact with a protein involved in the ALT mechanism, the MMR protein MLH1, was demonstrated to be present in the APBs of an ALT[+] cell line. To further test for genes that may be involved in the ALT mechanism or associated with its activation, RNA microarray was used to compare the gene expression of 12 ALT[+] with 12 matched telomerase[+] cell lines; 240 genes were identified that were significantly differentially expressed (p<0.005) between the ALT[+] and telomerase[+] cell lines. Only DRG2 and SFNX4 were significantly differentially expressed after adjusting for the estimated false positive rate. Overall, DRG2, MGMT and SATB1 were identified as most likely to be relevant to the ALT[+] tumours and Western analysis indicated that DRG2 and MGMT levels were down-regulated after activation of ALT and up-regulated after activation of telomerase, whereas SATB1 protein levels appeared to be up-regulated after immortalisation but to a higher degree with activation of ALT compared to telomerase. Since lack of MGMT is known to be a determinant of temozolomide sensitivity in GBM, the possibility that ALT and the APB assay could be used to predict temozolomide sensitivity is discussed. The microarray data was consistent with MGMT expression being suppressed by EGF (p < 0.05), indicating that caution may be needed with combining EGFR inhibitors with temozolomide in ALT cancers. One ALT[+] cell line which did not express MGMT had TTAA sequence in its telomeres. This could possibly have resulted from mutations due to lack of MGMT expression and a possible role for MGMT in the ALT mechanism is discussed. Further analysis of the microarray data identified two groups of co-regulated genes (p < 5x10-5): CEBPA, TACC2, SFXN4, HNRPK and MGMT, and SIGIRR, LEF1, NSBP1 and SATB1. Two thirds of differentially expressed genes were down-regulated in ALT. Chromosomes 10 and 15 had a bias towards genes with lower expression in ALT while chromosomes 1, 4, 14 and X had a bias towards genes with higher expression levels in ALT. This work has developed a robust assay for ALT in tumour specimens which was then used to show the significance of ALT in sarcomas, astrocytomas and NSCLC. It has also identified genes that could possibly be molecular targets for the treatment of ALT[+] cancers.

Cancer

Telomere

Molecular Studies of an alternative lengthening of telomeres (ALT) mechanism

Perrem, Kilian Thomas

January 2001

Telomeres are specialised structures, consisting of TTAGGG DNA repeats and binding proteins, that cap the ends of human chromosomes and maintain chromosome integrity. It has been shown that telomeres shorten with each round of cell division in most normal human somatic cells. It has become generally accepted that this shortening is due, in part, to the inability of DNA polymerases to replicate the extreme ends of chromosomes which is a phenomenon known as the �end replication problem�. An intriguing hypothesis that has emerged from these observations is that critically shortened telomeres trigger growth arrest and senescence. This is regarded as a key determining factor in the limited lifespan of normal cells in culture and is commonly known as the �Telomere Hypothesis of Senescence�. In support of this hypothesis it has been demonstrated that immortalised human cells, that have an unlimited lifespan in culture, maintain stable telomere lengths and do not undergo progressive telomere shortening. In most cases this is due to the ribonucleoprotein enzyme telomerase, the activation of which is as a key step in the immortalisation process. Telomerase compensates for sequential telomere shortening by utilising an RNA template to catalyse the addition of repeat sequences by reverse transcription. It is absent from most normal tissue but is present in the germline and is presumably downregulated during development. Significantly, analysis of human tumour cells has shown that a majority also have active telomerase, which supports the importance of immortalisation in tumourigenesis. Previous work in this laboratory has shown that, although the majority of in vitro immortalised cells and tumour cells that have been studied maintain telomeres by reactivation of telomerase, a proportion do not have detectable telomerase activity. These telomerase-negative cells still maintain telomeres, however, and this is via a mechanism(s) yet to be fully elucidated known as Alternative Lengthening of Telomeres (ALT). ALT is characterised, in addition to lack of telomerase activity, by extreme telomere length heterogeneity with telomere lengths ranging from over 50 kilobases (kb) of DNA to almost undetectable. This phenotype is evident, by Southern analysis and fluorescent in situ hybridisation (FISH), in all ALT cells. Alternative mechanisms of telomere maintenance, via retrotransposition and recombination, had already been characterised in lower eukaryotes. It has been shown in this laboratory that ALT cell lines and tumours contain a novel type of PML body, referred to as ALT-associated PML bodies (APBs). APBs have been found in all of the ALT cell lines so far tested and also in archival tumour sections, and contain a number of factors which co-localise. These include PML, TTAGGG repeats, TRF 1 & TRF 2 telomere binding proteins and proteins involved in homologous recombination: RAD51 & RAD52. More recently, it has been shown that the RAD50/Mre11/Nbs1 complex, which is involved in cell cycle checkpoint control and repair of DNA damage, is also present in APBs. The presence of these RAD proteins in APBs is of great interest as a recombination between telomeres has been proposed as the central mechanism by which ALT lengthens telomeres. Studies in yeast have identified such a mechanism and it was proposed that a similar process occurred in human immortal cells that utilise ALT. It has now been shown by this laboratory that a recombination mechanism is indeed evident at the telomeres of ALT cells. To date all in vitro immortalised cell lines and most tumour cell types that have been studied have a telomere maintenance mechanism either via telomerase or ALT. Targeting telomerase has become a major focus of anti-cancer research as inhibitors have the potential to treat a wide variety of different tumour types. An understanding of ALT and its regulation is likely to be important in such therapeutic strategies, as selective pressure due to telomerase inhibition may result in ALT revertants within the tumour mass. Development of inhibitors of both telomerase and ALT may therefore be required when targeting telomere maintenance. The main focus of this thesis is the understanding of ALT repression in the SV40 immortalised skin fibroblast cell line GM847, as a means to further understanding the mechanism of ALT. The data presented provide new insights into the repression of ALT and also the relationship between telomerase and ALT which is important for our understanding of telomere maintenance in human cancer. Hybrids formed by fusion of normal cells and ALT cells underwent rapid telomere loss followed by senescence, indicating that normal cells contain factors that repress ALT. This strongly suggests that ALT is recessive and is activated in part by loss or mutation of repressors. Similar experiments were performed with ALT cells and telomerasepositive cells, and the resulting hybrids were all telomerase-positive and ALT repressed. It is possible that the same negative regulators are involved as additional data show that telomerase does not act as an ALT inhibitor. Exogenous expression of telomerase in ALT cells did not repress ALT, but both mechanisms co-existed in these transfected cells. This result provides a further argument for targeting both ALT and telomerase in any future treatments of tumours as it demonstrates in principle that these mechanisms are not mutually exclusive. A serendipitous finding was that a dominant-negative telomerase catalytic subunit caused telomere shortening in ALT cells, had not been reported elsewhere, and indeed was in contrast to previous findings. This provided further evidence for a link between telomerase and ALT as it suggested that there were essential components that were common to both pathways. As a further means to understanding ALT repression, a series of experiments was performed to determine the chromosomal localisation of ALT repressor(s) by microcell mediated chromosome transfer. This was done to facilitate the eventual isolation of repressors. A repressor of ALT in the chemically immortalised fibroblast cell line SUSM-1, had been reported to be localised to chromosome 7. This result could not be repeated in the GM847 cell line, but ALT repression was evident in GM847 cells upon transfer of chromosome 6. Another important question regarding the nature of ALT is the structure and sequence of the long heterogeneous telomeres generated by ALT specific recombination, which is the focus of the final series of data that is presented. ALT telomere length heterogeneity was detected under denaturing conditions, ruling out the possibility that it was an artefact of electrophoresis conditions due to novel secondary structure. Although the hybridisation signal intensity of TTAGGG increases at the onset of immortalisation in ALT cells, it had been demonstrated by restriction digests that degenerate repeats did exist at the telomeres of some ALT cell lines. Sequences containing telomere repeats were cloned from the ALT cell line WI38 VA13/2RA (SV40 immortalised fibroblasts) and these were found to be interspersed with a number of other sequence fragments. The significance of these sequences in relation to the mechanism of ALT is discussed.

Biochemical Staging of the Chronic Hepatic Lesions of Wilson Disease

GOTO, HIDEMI, HAYASHI, HISAO, MIZUTANI, NAOKI, KUMADA, TAKASHI, TOYODA, HIDENORI, YANO, MOTOYOSHI, WAKUSAWA, SHINYA, UEYAMA, JUN, TATSUMI, YASUAKI, HATTORI, AI, HAYASHI, KAZUHIKO, KATANO, YOSHIAKI

02 1900

No description available.

Wilson disease

Stage

Phenotype

ALT

AST

Estudi etnobotànic de la comarca de l'Alt Empordà

Parada Soler, Montserrat

14 April 2008

L'Alt Empordà és una de les comarques catalanes més extenses (1357,53 km2) amb un total de 68 municipis i 129.160 habitants. La seva situació geogràfica (es troba en una zona de pas i ha estat habitada des de temps immemorials) i les seves característiques orogràfiques (és una plana oberta al mar que va pujant a mida que ens desplacem cap a l'interior), fan que hagi estat una zona òptima per a dur-hi a terme un estudi etnobotànic.S'han realitzat 101 entrevistes, durant les quals hem parlat amb 178 persones (126 dones i 52 homes) amb una mitjana d'edat de 69 anys. Les dades més rellevants dels resultats obtinguts són les següents:Dels 518 tàxons citats, 335 tenen aplicació en medicina humana o veterinària i 147 formen part de barreges amb finalitats terapèutiques.Les 338 espècies medicinals sobre les quals hem obtingut informació pertanyen a 80 famílies botàniques, essent les cinc més representades les més freqüents al territori.El 98% de les aplicacions medicinals inventariades fan referència a medicina humana i el 2% restant, a veterinària.Els trastorns digestius són un dels cinc principals grups d'afeccions guarides amb remeis vegetals de manera majoritària (entre les que predominen les propietats digestives, laxants, antidiarreiques, hepatoprotectores i antiflatulents). També destaca la importància dels remeis antiinflamatoris (intestinals, oculars, gàstrics, faringis i òtics com a més citats), els remeis contra infeccions i infestacions (sobretot d'origen víric), els trastorns del sistema genitourinari i per últim, les referències a trastorns de la pell o del teixit cel·lular subcutani.En la preparació dels remeis, les estructures florals són la part més utilitzada (31,9%), seguida de la fulla (20,68%) i de la part aèria (16,28%). Segueix, per ordre d'importància, la utilització del fruit o la infructescència (14%) i de les estructures caulinars (7,65%).El 75% de les preparacions per via interna són tisanes seguides de lluny per l'administració directa de la planta o d'alguna part de la planta sense preparació prèvia i de la inhalació d'essències, bafs i perfums. Destaquem les citacions a l'elaboració de xarops i d'essències per la laboriositat que representa la seva preparació.Per via externa també en destaquen les preparacions amb base aquosa seguides de l'aplicació de la planta o part d'ella directament o prèviament manipulada. Cal destacar també les preparacions en base alcohòlica o en oli d'oliva.Al llarg de l'estudi hem recopilat informació sobre 375 barreges, 183 d'aplicació externa i 192 per a administració interna en les que hi intervenen 147 espècies vegetals diferents. Prop de 800 usos de 200 espècies botàniques diferent no els hem trobat citats en les obres consultades i d'aquests, 32 usos de 30 espècies diferents han estat citats per tres o més informants independents, la qual cosa les fa bones candidates a estudis posteriors.Han estat descrits efectes nocius o tòxics per a 103 espècies de plantes, en 35 d'elles com a efectes secundaris a l'ús terapèutic. El nombre total d'espècies citades com a alimentàries és de 248 (de les quals se n'usen 212 en alimentació humana, 74 en alimentació animal i 38 tant en humana com en veterinària). Hem recollit 228 plantes (algunes d'elles amb més d'un ús) que es fan servir per a finalitats no terapèutiques ni alimentàries.En l'aspecte lingüístic, hem recopilat 1.013 noms populars per a les 518 espècies referenciades; d'aquests, n'hi ha 418 de no documentats prèviament per a l'espècie a la que es designen. / "ASSESSMENT AND ANALYSIS OF THE ETHNOFLORA OF ALT EMPORDÀ (CATALONIA, IBERIAN PENINSULA)"TEXT:The district of Alt Empordà (1,358 km2, 129,160 inhabitants) is located in the north-eastern corner of the Iberian Peninsula. With a big diversity of landscapes (from sea level to 1,400 m in a few kilometres), having been a crossroad for many cultures and conserving to a certain extent rural life, it constitutes a good candidate for ethnobotanical research within Europe. To collect, analyse and evaluate the folk plant knowledge in this territory we performed 101 semi-structured interviews to 178 informants (mean age 69; 71% women), identified the plant taxa reported and analysed the results, comparing the statistic results obtained with those from other territories. The informants reported data on 518 species. Of these, 335, belonging to 80 botanical families, were claimed as medicinal and 103 as toxic. Human medicine represents 98% of the pharmaceutical uses (3,581 out of 3,643 use reports). Around 800 medicinal uses, concerning 200 species (often very well known for other therapeutic uses), have not, or have very rarely been cited; of these, 32 uses of 30 species could be object of further studies because they have been reported by three or more independent informants, indicating a high degree of reliability. The number of food plants is 248 (212 human food, 74 animal feed and 38 both). Finally, 228 species are used for other purposes. An amount of 1,015 popular names (1,347 phonetic variants) have been collected to designate the 518 catalogued taxa. Frequently, phenomena of polysemy (the same popular name for different species) and synonymy (different popular names for one species) appeared, even together. The folk knowledge about medicinal and other plant uses is still alive in the studied area. Nevertheless, being a tourist and industrialised region, some degree of acculturation exists, so that there is urgency in recording such data and in reverting them to the population as soon as possible.

Alt Empordà

Etnobotànica

Ciències de la Salut

58

Molecular Studies of an alternative lengthening of telomeres (ALT) mechanism

Perrem, Kilian Thomas

January 2001

Telomeres are specialised structures, consisting of TTAGGG DNA repeats and binding proteins, that cap the ends of human chromosomes and maintain chromosome integrity. It has been shown that telomeres shorten with each round of cell division in most normal human somatic cells. It has become generally accepted that this shortening is due, in part, to the inability of DNA polymerases to replicate the extreme ends of chromosomes which is a phenomenon known as the �end replication problem�. An intriguing hypothesis that has emerged from these observations is that critically shortened telomeres trigger growth arrest and senescence. This is regarded as a key determining factor in the limited lifespan of normal cells in culture and is commonly known as the �Telomere Hypothesis of Senescence�. In support of this hypothesis it has been demonstrated that immortalised human cells, that have an unlimited lifespan in culture, maintain stable telomere lengths and do not undergo progressive telomere shortening. In most cases this is due to the ribonucleoprotein enzyme telomerase, the activation of which is as a key step in the immortalisation process. Telomerase compensates for sequential telomere shortening by utilising an RNA template to catalyse the addition of repeat sequences by reverse transcription. It is absent from most normal tissue but is present in the germline and is presumably downregulated during development. Significantly, analysis of human tumour cells has shown that a majority also have active telomerase, which supports the importance of immortalisation in tumourigenesis. Previous work in this laboratory has shown that, although the majority of in vitro immortalised cells and tumour cells that have been studied maintain telomeres by reactivation of telomerase, a proportion do not have detectable telomerase activity. These telomerase-negative cells still maintain telomeres, however, and this is via a mechanism(s) yet to be fully elucidated known as Alternative Lengthening of Telomeres (ALT). ALT is characterised, in addition to lack of telomerase activity, by extreme telomere length heterogeneity with telomere lengths ranging from over 50 kilobases (kb) of DNA to almost undetectable. This phenotype is evident, by Southern analysis and fluorescent in situ hybridisation (FISH), in all ALT cells. Alternative mechanisms of telomere maintenance, via retrotransposition and recombination, had already been characterised in lower eukaryotes. It has been shown in this laboratory that ALT cell lines and tumours contain a novel type of PML body, referred to as ALT-associated PML bodies (APBs). APBs have been found in all of the ALT cell lines so far tested and also in archival tumour sections, and contain a number of factors which co-localise. These include PML, TTAGGG repeats, TRF 1 & TRF 2 telomere binding proteins and proteins involved in homologous recombination: RAD51 & RAD52. More recently, it has been shown that the RAD50/Mre11/Nbs1 complex, which is involved in cell cycle checkpoint control and repair of DNA damage, is also present in APBs. The presence of these RAD proteins in APBs is of great interest as a recombination between telomeres has been proposed as the central mechanism by which ALT lengthens telomeres. Studies in yeast have identified such a mechanism and it was proposed that a similar process occurred in human immortal cells that utilise ALT. It has now been shown by this laboratory that a recombination mechanism is indeed evident at the telomeres of ALT cells. To date all in vitro immortalised cell lines and most tumour cell types that have been studied have a telomere maintenance mechanism either via telomerase or ALT. Targeting telomerase has become a major focus of anti-cancer research as inhibitors have the potential to treat a wide variety of different tumour types. An understanding of ALT and its regulation is likely to be important in such therapeutic strategies, as selective pressure due to telomerase inhibition may result in ALT revertants within the tumour mass. Development of inhibitors of both telomerase and ALT may therefore be required when targeting telomere maintenance. The main focus of this thesis is the understanding of ALT repression in the SV40 immortalised skin fibroblast cell line GM847, as a means to further understanding the mechanism of ALT. The data presented provide new insights into the repression of ALT and also the relationship between telomerase and ALT which is important for our understanding of telomere maintenance in human cancer. Hybrids formed by fusion of normal cells and ALT cells underwent rapid telomere loss followed by senescence, indicating that normal cells contain factors that repress ALT. This strongly suggests that ALT is recessive and is activated in part by loss or mutation of repressors. Similar experiments were performed with ALT cells and telomerasepositive cells, and the resulting hybrids were all telomerase-positive and ALT repressed. It is possible that the same negative regulators are involved as additional data show that telomerase does not act as an ALT inhibitor. Exogenous expression of telomerase in ALT cells did not repress ALT, but both mechanisms co-existed in these transfected cells. This result provides a further argument for targeting both ALT and telomerase in any future treatments of tumours as it demonstrates in principle that these mechanisms are not mutually exclusive. A serendipitous finding was that a dominant-negative telomerase catalytic subunit caused telomere shortening in ALT cells, had not been reported elsewhere, and indeed was in contrast to previous findings. This provided further evidence for a link between telomerase and ALT as it suggested that there were essential components that were common to both pathways. As a further means to understanding ALT repression, a series of experiments was performed to determine the chromosomal localisation of ALT repressor(s) by microcell mediated chromosome transfer. This was done to facilitate the eventual isolation of repressors. A repressor of ALT in the chemically immortalised fibroblast cell line SUSM-1, had been reported to be localised to chromosome 7. This result could not be repeated in the GM847 cell line, but ALT repression was evident in GM847 cells upon transfer of chromosome 6. Another important question regarding the nature of ALT is the structure and sequence of the long heterogeneous telomeres generated by ALT specific recombination, which is the focus of the final series of data that is presented. ALT telomere length heterogeneity was detected under denaturing conditions, ruling out the possibility that it was an artefact of electrophoresis conditions due to novel secondary structure. Although the hybridisation signal intensity of TTAGGG increases at the onset of immortalisation in ALT cells, it had been demonstrated by restriction digests that degenerate repeats did exist at the telomeres of some ALT cell lines. Sequences containing telomere repeats were cloned from the ALT cell line WI38 VA13/2RA (SV40 immortalised fibroblasts) and these were found to be interspersed with a number of other sequence fragments. The significance of these sequences in relation to the mechanism of ALT is discussed.