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5. Fermilab DART run control

Author

Oleynik, G., Engelfried, J., Mengel, L., Moore, C., O'Dell, V., Pordes, R., Semenchenko, A., Slimmer, D., Udumula, L., Votava, M., Prelz, F., Van Drunen, E., and Zioulas, G.

Subjects
Automatic data collection systems -- Evaluation, Data communications -- Evaluation, Control systems -- Evaluation, Nuclear physics -- Information management, Business, Electronics, Electronics and electrical industries
Abstract

DART is the high speed, Unix based data acquisition system being developed by Fermilab in collaboration with seven High Energy Physics Experiments [1 - 6!. This paper describes DART run control, which has been developed over the past year and is a flexible, distributed, extensible system for the control and monitoring of the data acquisition systems. We discuss the unique and interesting concepts of the run control and some of our experiences in developing it. We also give a brief update and status of the whole DART system.

Published
1996

11. Fusion of the homeobox gene HLXB9 and the ETV6 gene in infant acute myeloid leukemias with the t(7;12)(q36;p13)

Author

Hb, Beverloo, Ioannis Panagopoulos, Isaksson M, van Wering E, van Drunen E, de Klein A, Johansson B, and Slater R

Subjects
Homeodomain Proteins, Chromosomes, Human, Pair 12, DNA, Complementary, Base Sequence, Oncogene Proteins, Fusion, Proto-Oncogene Proteins c-ets, Molecular Sequence Data, Infant, Newborn, Sequence Analysis, DNA, Translocation, Genetic, DNA-Binding Proteins, Repressor Proteins, Leukemia, Myeloid, Karyotyping, Acute Disease, Humans, Amino Acid Sequence, RNA, Neoplasm, Chromosomes, Human, Pair 7, In Situ Hybridization, Fluorescence, Transcription Factors
Abstract

Recently, we and others reported a recurrent t(7;12)(q36;p13) found in myeloid malignancies in childrenor =18 months of age and associated with a poor prognosis. Fluorescence in situ hybridization studies mapped the 12p13 breakpoint to the first intron of ETV6 and narrowed down the region of 7q36 involved. By using the sequences made public recently by the Human Genome Project, two candidate genes in 7q36 were identified: the homeobox gene HLXB9 and c7orf3, a gene with unknown function. Reverse transcription-PCR of two cases with t(7;12), using primers for c7orf3 and ETV6, was negative. However, reverse transcription-PCR for HLXB9-ETV6 demonstrated alternative splicing; the two major bands corresponded to fusion of exon 1 of HLXB9 to exons 2 and 3, respectively, of ETV6. The reciprocal ETV6-HLXB9 transcript was not detected. It remains to be elucidated if the leukemic phenotype is attributable to the formation of the HLXB9-ETV6 fusion protein, which includes the helix-loop-helix and E26 transformation-specific DNA binding domains of ETV6 or to the disruption of the normal ETV6 protein.

Published
2001

12. In vitro drug resistance and prognostic impact of p16-INK4a/P15-INK4b deletions in childhood T-cell acute lymphoblastic leukaemia

Author

Ramakers-van Woerden, NL, Pieters, R, Slater, RM, Loonen, A.H., Beverloo, HB, van Drunen, E, Heyman, M, Moreno, TC, Rots, MG, van Wering, ER, Kamps, WA, Janka-Schaub, GE, Veerman, AJP, Pediatrics, Molecular Genetics, Faculteit Medische Wetenschappen/UMCG, Damage and Repair in Cancer Development and Cancer Treatment (DARE), and Restoring Organ Function by Means of Regenerative Medicine (REGENERATE)

Subjects
P16 GENE, P16/MTS1 GENE, p19ARF, T cell, cellular drug resistance, IN-VITRO, PHILADELPHIA-CHROMOSOME, INTERFERON GENES, FREQUENT DELETION, ACUTE LYMPHOCYTIC-LEUKEMIA, p15/INK4b, HOMOZYGOUS DELETIONS, childhood acute lymphoblastic leukaemia, TUMOR-SUPPRESSOR, p16/INK4a, CLINICAL-SIGNIFICANCE, gene deletions
Abstract

p16 gene deletions are present in about 70% of primary paediatric T-cell acute lymphoblastic leukaemia (T-ALL) and 20% of common/precursor B-cell ALL cases. It is not clear what the impact of the frequent p16 deletions is within the subgroup of T-lineage ALL. We studied the relationship between p16/p19(ARF) deletions, using fluorescence in situ hybridization. and in vitro drug resistance and prognosis in childhood T-ALL at diagnosis. The cellular drug resistance was measured with the methyl thiazol tetrazoliumbromide assay using a panel of drugs and the thymidylate synthase inhibition assay for methotrexate. There was a complete overlap of individual LC50 values of p16 gene homozygously deleted and p16 germ-line cases for most of the nine classes of drugs tested. The only difference was for dexamethasone: the p16-deleted group was more sensitive than the germ-line p16 group (P = 0.030). The homozygously deleted p16 T-ALL patients (n = 34) treated with the modern multiagent chemotherapy schemes of the Dutch Childhood Leukaemia Study Group ALL-VII/-VIII or Co-operative ALL-92/-97 protocols have a significantly lower 5-year disease-free survival (DFS) than germ-line p16 T-ALL (n = 25) (65.1 +/- 9.1% vs. 95.5 +/- 4.4%, P-log (rank) = 0.021). Hence, this study identifies a subpopulation of primary childhood T-ALL that appears to have an extremely high DFS, However, the observed differences in outcome do not seem to be related to intrinsic resistance for the tested drugs.

Published
2001

13. Integrated genome-wide genotyping and gene expression profiling reveals BCL11B as a putative oncogene in acute myeloid leukemia with 14q32 aberrations

Author

Abbas, S., primary, Sanders, M. A., additional, Zeilemaker, A., additional, Geertsma-Kleinekoort, W. M. C., additional, Koenders, J. E., additional, Kavelaars, F. G., additional, Abbas, Z. G., additional, Mahamoud, S., additional, Chu, I. W. T., additional, Hoogenboezem, R., additional, Peeters, J. K., additional, van Drunen, E., additional, van Galen, J., additional, Beverloo, H. B., additional, Lowenberg, B., additional, and Valk, P. J. M., additional

Published
2014
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14. Two-body neutral final states produced in antiproton-proton annihilations at GeV

Author

Armstrong, T. A., Bettoni, D., Bharadwaj, V., Biino, C., Blanford, G., Borreani, G., Broemmelsiek, D., Buzzo, A., Calabrese, R., Ceccucci, A., Cester, R., Church, M., Dalpiaz, P., Dalpiaz, P. F., Dimitroyannis, D., Fast, J., Gianoli, A., Ginsburg, C. M., Gollwitzer, K., Govi, G., Hahn, A., Hasan, M., Hsueh, S., Lewis, R., Luppi, E., Macrí, M., Majewska, A. M., Mandelkern, M., Marchetto, F., Marinelli, M., Marques, J., Marsh, W., Martini, M., Masuzawa, M., Menichetti, E., Migliori, A., Mussa, R., Palestini, S., Pallavicini, M., Passaggio, S., Pastrone, N., Patrignani, C., Peoples, J., Petrucci, F., Pia, M. G., Pordes, S., Rapidis, P., Ray, R., Reid, J., Rinaudo, G., Roccuzzo, B., Rosen, J., Santroni, A., Sarmiento, M., Savrie, M., Schultz, J., Seth, K. K., Smith, A., Smith, G. A., Sozzi, M., Trokenheim, S., Van Drunen, E., Weber, M. F., Werkema, S., Zhang, Y., Zhao, J., and Zioulas, G.

Subjects
Physics, Quantum chromodynamics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Proton, Antiproton, Hadron, Fermilab, Center of mass, Resonance (particle physics)
Abstract

We have performed an experiment in the Antiproton Accumulator at Fermilab to study two-body neutral final states formed in p¯p annihilations. Differential cross sections are determined in the center-of-mass energy range 2.911

Published
1997
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15. Two-body neutral final states produced in antiproton-proton annihilations at 2.911<~sqrt[s]<~3.686 GeV

Author

Armstrong, T. A., Bettoni, D., Bharadwaj, V., Biino, C., Blanford, G., Borreani, G., Broemmelsiek, D., Buzzo, A., Calabrese, R., Ceccucci, A., Cester, R., Church, M., Dalpiaz, P., Dalpiaz, P. F., Dimitroyannis, D., Fast, J., Gianoli, A., Ginsburg, C. M., Gollwitzer, K., Govi, G., Hahn, A., Hasan, M., Hsueh, S., Lewis, R., Luppi, E., Macrí, M., Majewska, A. M., Mandelkern, M., Marchetto, F., Marinelli, Mauro, Marques, J., Marsh, W., Martini, M., Masuzawa, M., Menichetti, E., Migliori, A., Mussa, R., Palestini, S., Pallavicini, Marco, Passaggio, S., Pastrone, N., Patrignani, Claudia, Peoples, J., Petrucci, F., Pia, M. G., Pordes, S., Rapidis, P., Ray, R., Reid, J., Rinaudo, G., Roccuzzo, B., Rosen, J., Santroni, Alberto, Sarmiento, M., Savrie, M., Schultz, J., Seth, K. K., Smith, A., Smith, G. A., Sozzi, M., Trokenheim, S., Van Drunen, E., Weber, M. F., Werkema, S., Zhang, Y., Zhao, J., and Zioulas, G.

Published
1997

16. A t(4;22) in a meningioma points to the localization of a putative tumor-suppressor gene

Author

Lekanne Deprez, R H, Groen, N A, van Biezen, N A, Hagemeijer, A, van Drunen, E, Koper, J W, Avezaat, C J, Bootsma, D, and Zwarthoff, E C

Subjects
Genetic Markers, Genetic Linkage, Chromosomes, Human, Pair 22, DNA, Hybrid Cells, Translocation, Genetic, Chromosome Banding, Cricetinae, Tumor Cells, Cultured, Animals, Humans, Genes, Tumor Suppressor, Chromosomes, Human, Pair 4, Meningioma, Alleles, Research Article
Abstract

Cytogenetic analysis of meningioma cells from one particular patient (MN32) displayed the stem-line karyo-type 45, XY, -1, 4p+, 22q-, 22q+, which thus had rearrangements of both chromosomes 22. The 22q+ marker appeared as a dicentric: 22 pter----q11::1p11----qter. The reciprocal product of this translocation has presumably been lost because it lacked a centromere. The 22q- chromosome also appeared to have lost sequences distal to band q11. We assumed that this marker could have been the result of a reciprocal translocation between chromosomes 4 and 22. To investigate the 4p+ and 22q- chromosomes in more detail, human-hamster somatic cell hybrids were constructed that segregated the 22q- and 4p+ chromosomes. Southern blot analysis with DNA from these hybrids showed that sequences from 22q were indeed translocated to 4p+ and that reciprocally sequences from 4p were translocated to 22q-, demonstrating a balanced t(4;22)(p16;q11). On the basis of these results we presume that in this tumor a tumor-suppressor gene is deleted in the case of the 22q+ marker and that the t(4;22) disrupts the second allele of this gene. The latter translocation was mapped between D22S1 and D22S15, a distance of 1 cM on the linkage map of this chromosome. The area in which we have located the translocation is within the region where the gene predisposing to neurofibromatosis 2 has been mapped.

Published
1991

17. Two-body neutral final states produced in antiproton-proton annihilations at2.911<~s<~3.686GeV

Author

Armstrong, T. A., primary, Bettoni, D., additional, Bharadwaj, V., additional, Biino, C., additional, Blanford, G., additional, Borreani, G., additional, Broemmelsiek, D., additional, Buzzo, A., additional, Calabrese, R., additional, Ceccucci, A., additional, Cester, R., additional, Church, M., additional, Dalpiaz, P., additional, Dalpiaz, P. F., additional, Dimitroyannis, D., additional, Fast, J., additional, Gianoli, A., additional, Ginsburg, C. M., additional, Gollwitzer, K., additional, Govi, G., additional, Hahn, A., additional, Hasan, M., additional, Hsueh, S., additional, Lewis, R., additional, Luppi, E., additional, Macrí, M., additional, Majewska, A. M., additional, Mandelkern, M., additional, Marchetto, F., additional, Marinelli, M., additional, Marques, J., additional, Marsh, W., additional, Martini, M., additional, Masuzawa, M., additional, Menichetti, E., additional, Migliori, A., additional, Mussa, R., additional, Palestini, S., additional, Pallavicini, M., additional, Passaggio, S., additional, Pastrone, N., additional, Patrignani, C., additional, Peoples, J., additional, Petrucci, F., additional, Pia, M. G., additional, Pordes, S., additional, Rapidis, P., additional, Ray, R., additional, Reid, J., additional, Rinaudo, G., additional, Roccuzzo, B., additional, Rosen, J., additional, Santroni, A., additional, Sarmiento, M., additional, Savrie, M., additional, Schultz, J., additional, Seth, K. K., additional, Smith, A., additional, Smith, G. A., additional, Sozzi, M., additional, Trokenheim, S., additional, Van Drunen, E., additional, Weber, M. F., additional, Werkema, S., additional, Zhang, Y., additional, Zhao, J., additional, and Zioulas, G., additional

Published
1997
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21. In vitro drug resistance and prognostic impact of p16INK4A/P15INK4B deletions in childhood T-cell acute lymphoblastic leukaemia.

Author

Ramakers-van Woerden, N. L., Pieters, R., Slater, R. M., Loonen, A. H., Beverloo, H. B., van Drunen, E., Heyman, M., Calero Moreno, T., Rots, M. G., van Wering, E. R., Kamps, W. A., Janka-Schaub, G. E., and Veerman, A. J. P.

Subjects
DRUG resistance, LYMPHOBLASTIC leukemia, LEUKEMIA in children
Abstract

p16 gene deletions are present in about 70% of primary paediatric T-cell acute lymphoblastic leukaemia (T-ALL) and 20% of common/precursor B-cell ALL cases. It is not clear what the impact of the frequent p16 deletions is within the subgroup of T-lineage ALL. We studied the relationship between p16/p19ARF deletions, using fluorescence in situ hybridization, and in vitro drug resistance and prognosis in childhood T-ALL at diagnosis. The cellular drug resistance was measured with the methyl thiazol tetrazoliumbromide assay using a panel of drugs and the thymidylate synthase inhibition assay for methotrexate. There was a complete overlap of individual LC50 values of p16 gene homozygously deleted and p16 germ-line cases for most of the nine classes of drugs tested. The only difference was for dexamethasone: the p16-deleted group was more sensitive than the germ-line p16 group (P = 0·030). The homozygously deleted p16 T-ALL patients (n = 34) treated with the modern multiagent chemotherapy schemes of the Dutch Childhood Leukaemia Study Group ALL-VII/-VIII or Co-operative ALL-92/-97 protocols have a significantly lower 5-year disease-free survival (DFS) than germ-line p16 T-ALL (n = 25) (65·1 ± 9·1% vs. 95·5 ± 4·4%, Plog rank = 0·021). Hence, this study identifies a subpopulation of primary childhood T-ALL that appears to have an extremely high DFS. However, the observed differences in outcome do not seem to be related to intrinsic resistance for the tested drugs. [ABSTRACT FROM AUTHOR]

Published
2001
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26. Trampling, defoliation and physiological integration affect growth, morphological and mechanical properties of a root-suckering clonal tree.

Author

Xu L, Yu FH, van Drunen E, Schieving F, Dong M, and Anten NP

Subjects
Biomass, Biomechanical Phenomena, China, Herbivory, Plant Leaves anatomy & histology, Plant Leaves growth & development, Plant Leaves physiology, Plant Roots anatomy & histology, Plant Roots growth & development, Plant Stems anatomy & histology, Plant Stems growth & development, Plant Stems physiology, Populus anatomy & histology, Populus growth & development, Trees anatomy & histology, Trees growth & development, Trees physiology, Plant Roots physiology, Populus physiology
Abstract

Background and Aims: Grazing is a complex process involving the simultaneous occurrence of both trampling and defoliation. Clonal plants are a common feature of heavily grazed ecosystems where large herbivores inflict the simultaneous pressures of trampling and defoliation on the vegetation. We test the hypothesis that physiological integration (resource sharing between interconnected ramets) may help plants to deal with the interactive effects of trampling and defoliation., Methods: In a field study, small and large ramets of the root-suckering clonal tree Populus simonii were subjected to two levels of trampling and defoliation, while connected or disconnected to other ramets. Plant responses were quantified via survival, growth, morphological and stem mechanical traits., Key Results: Disconnection and trampling increased mortality, especially in small ramets. Trampling increased stem length, basal diameter, fibrous root mass, stem stiffness and resistance to deflection in connected ramets, but decreased them in disconnected ones. Trampling decreased vertical height more in disconnected than in connected ramets, and reduced stem mass in disconnected ramets but not in connected ramets. Defoliation reduced basal diameter, leaf mass, stem mass and leaf area ratio, but did not interact with trampling or disconnection., Conclusions: Although clonal integration did not influence defoliation response, it did alleviate the effects of trampling. We suggest that by facilitating resource transport between ramets, clonal integration compensates for trampling-induced damage to fine roots.

Published
2012
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27. The response of mammalian cells to UV-light reveals Rad54-dependent and independent pathways of homologous recombination.

Author

Eppink B, Tafel AA, Hanada K, van Drunen E, Hickson ID, Essers J, and Kanaar R

Subjects
Animals, Cell Survival radiation effects, Chromosome Aberrations radiation effects, DNA Breaks, Double-Stranded radiation effects, DNA Helicases, DNA Replication, DNA-Binding Proteins, Embryonic Stem Cells metabolism, Embryonic Stem Cells radiation effects, Humans, Mice, Mice, Inbred C57BL, Nuclear Proteins genetics, Proliferating Cell Nuclear Antigen metabolism, Protein Transport radiation effects, Signal Transduction radiation effects, Homologous Recombination radiation effects, Nuclear Proteins metabolism, Ultraviolet Rays
Abstract

Ultraviolet (UV) radiation-induced DNA lesions can be efficiently repaired by nucleotide excision repair (NER). However, NER is less effective during replication of UV-damaged chromosomes. In contrast, translesion DNA synthesis (TLS) and homologous recombination (HR) are capable of dealing with lesions in replicating DNA. The core HR protein in mammalian cells is the strand exchange protein RAD51, which is aided by numerous proteins, including RAD54. We used RAD54 as a cellular marker for HR to study the response of mammalian embryonic stem (ES) cells to UV irradiation. In contrast to yeast, ES cells lacking RAD54 are not UV sensitive. Here we show that the requirement for mammalian RAD54 is masked by active NER. By genetically inactivating NER and HR through disruption of the Xpa and Rad54 genes, respectively, we demonstrate the contribution of HR to chromosomal integrity upon UV irradiation. We demonstrate using chromosome fiber analysis at the individual replication fork level, that HR activity is important for the restart of DNA replication after induction of DNA damage by UV-light in NER-deficient cells. Furthermore, our data reveal RAD54-dependent and -independent contributions of HR to the cellular sensitivity to UV-light, and they uncover that RAD54 can compensate for the loss of TLS polymerase η with regard to UV-light sensitivity. In conclusion, we show that HR is important for the progression of UV-stalled replication forks in ES cells, and that protection of the fork is an interplay between HR and TLS., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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28. A functional role for tumor cell heterogeneity in a mouse model of small cell lung cancer.

Author

Calbo J, van Montfort E, Proost N, van Drunen E, Beverloo HB, Meuwissen R, and Berns A

Subjects
Animals, Carcinoma, Small Cell genetics, Cell Line, Tumor, Coculture Techniques, Genes, ras, Humans, Immunohistochemistry, Lung Neoplasms genetics, Mice, Neoplasm Metastasis, Carcinoma, Small Cell pathology, Disease Models, Animal, Lung Neoplasms pathology
Abstract

Small cell lung cancer (SCLC) is the lung neoplasia with the poorest prognosis, due to its high metastatic potential and chemoresistance upon relapse. Using the previously described mouse model for SCLC, we found that the tumors are often composed of phenotypically different cells with either a neuroendocrine or a mesenchymal marker profile. These cells had a common origin because they shared specific genomic aberrations. The transition from neuroendocrine to mesenchymal phenotype could be achieved by the ectopic expression of oncogenic Ras(V12). Crosstalk between mesenchymal and neuroendocrine cells strongly influenced their behavior. When engrafted as a mixed population, the mesenchymal cells endowed the neuroendocrine cells with metastatic capacity, illustrating the potential relevance of tumor cell heterogeneity in dictating tumor properties., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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29. NBS1 cooperates with homologous recombination to counteract chromosome breakage during replication.

Author

Brugmans L, Verkaik NS, Kunen M, van Drunen E, Williams BR, Petrini JH, Kanaar R, Essers J, and van Gent DC

Subjects
Animals, Cell Cycle, Cell Cycle Proteins genetics, Cells, Cultured, DNA Helicases, DNA-Binding Proteins, Female, Mice, Nijmegen Breakage Syndrome genetics, Nijmegen Breakage Syndrome metabolism, Nuclear Proteins deficiency, Nuclear Proteins genetics, Cell Cycle Proteins metabolism, Chromosome Breakage, DNA genetics, DNA Damage, DNA Replication, Nuclear Proteins metabolism, Recombination, Genetic
Abstract

Nijmegen breakage syndrome (NBS) is characterized by genome instability and cancer predisposition. NBS patients contain a mutation in the NBS1 gene, which encodes the NBS1 component of the DNA double-strand break (DSB) response complex MRE11/RAD50/NBS1. To investigate the NBS phenotype in more detail, we combined the mouse mimic of the most common patient mutation (Nbs1(Delta B/DeltaB)) with a Rad54 null mutation, which diminishes homologous recombination. Double mutant cells were particularly sensitive to treatments that cause single strand breaks (SSBs), presumably because these SSBs can be converted into detrimental DSBs upon passage of a replication fork. The persistent presence of nuclear RAD51 foci and increased levels of chromatid type breaks in metaphase spreads indicated that replication-associated DSBs are repaired inefficiently in the double mutant cells. We conclude that Nbs1 and Rad54 function cooperatively, but in separate pathways to counteract this type of DNA damage and discuss mechanistic implications of these findings.

Published
2009
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30. Generation of a tightly regulated doxycycline-inducible model for studying mouse intestinal biology.

Author

Roth S, Franken P, van Veelen W, Blonden L, Raghoebir L, Beverloo B, van Drunen E, Kuipers EJ, Rottier R, Fodde R, and Smits R

Subjects
Animals, Genes, Reporter genetics, Intestinal Mucosa metabolism, Intestines drug effects, Mice, Mice, Transgenic, Organ Specificity, Research, Titrimetry, Transgenes genetics, Doxycycline pharmacology, Gene Expression drug effects, Genetic Engineering methods, Intestines physiology
Abstract

To develop a sensitive and inducible system to study intestinal biology, we generated a transgenic mouse model expressing the reverse tetracycline transactivator rtTA2-M2 under control of the 12.4 kb murine Villin promoter. The newly generated Villin-rtTA2-M2 mice were then bred with the previously developed tetO-HIST1H2BJ/GFP model to assess inducibility and tissue-specificity. Expression of the histone H2B-GFP fusion protein was observed exclusively upon doxycycline induction and was uniformly distributed throughout the intestinal epithelium. The Villin-rtTA2-M2 was also found to drive transgene expression in the developing mouse intestine. Furthermore, we could detect transgene expression in the proximal tubules of the kidney and in a population of alleged gastric progenitor cells. By administering different concentrations of doxycycline, we show that the Villin-rtTA2-M2 system drives transgene expression in a dosage-dependent fashion. Thus, we have generated a novel doxycycline-inducible mouse model, providing a valuable tool to study the effect of different gene dosages on intestinal physiology and pathology., (Copyright 2008 Wiley-Liss, Inc.)

Published
2009
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31. ERCC1-XPF endonuclease facilitates DNA double-strand break repair.

Author

Ahmad A, Robinson AR, Duensing A, van Drunen E, Beverloo HB, Weisberg DB, Hasty P, Hoeijmakers JH, and Niedernhofer LJ

Subjects
Animals, Antigens, Nuclear metabolism, Cell Line, Transformed, Cell Survival radiation effects, Cellular Senescence radiation effects, Chromosome Aberrations radiation effects, DNA-Binding Proteins deficiency, Embryo Loss metabolism, Embryo, Mammalian cytology, Endonucleases deficiency, Fibroblasts enzymology, Fibroblasts radiation effects, Genomic Instability radiation effects, HeLa Cells, Histones metabolism, Humans, Ku Autoantigen, Mice, Plasmids genetics, Radiation, Ionizing, Sequence Analysis, DNA, DNA Breaks, Double-Stranded radiation effects, DNA Repair radiation effects, DNA-Binding Proteins metabolism, Endonucleases metabolism
Abstract

ERCC1-XPF endonuclease is required for nucleotide excision repair (NER) of helix-distorting DNA lesions. However, mutations in ERCC1 or XPF in humans or mice cause a more severe phenotype than absence of NER, prompting a search for novel repair activities of the nuclease. In Saccharomyces cerevisiae, orthologs of ERCC1-XPF (Rad10-Rad1) participate in the repair of double-strand breaks (DSBs). Rad10-Rad1 contributes to two error-prone DSB repair pathways: microhomology-mediated end joining (a Ku86-independent mechanism) and single-strand annealing. To determine if ERCC1-XPF participates in DSB repair in mammals, mutant cells and mice were screened for sensitivity to gamma irradiation. ERCC1-XPF-deficient fibroblasts were hypersensitive to gamma irradiation, and gammaH2AX foci, a marker of DSBs, persisted in irradiated mutant cells, consistent with a defect in DSB repair. Mutant mice were also hypersensitive to irradiation, establishing an essential role for ERCC1-XPF in protecting against DSBs in vivo. Mice defective in both ERCC1-XPF and Ku86 were not viable. However, Ercc1(-/-) Ku86(-/-) fibroblasts were hypersensitive to gamma irradiation compared to single mutants and accumulated significantly greater chromosomal aberrations. Finally, in vitro repair of DSBs with 3' overhangs led to large deletions in the absence of ERCC1-XPF. These data support the conclusion that, as in yeast, ERCC1-XPF facilitates DSB repair via an end-joining mechanism that is Ku86 independent.

Published
2008
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32. Selective inhibition of BRCA2-deficient mammary tumor cell growth by AZD2281 and cisplatin.

Author

Evers B, Drost R, Schut E, de Bruin M, van der Burg E, Derksen PW, Holstege H, Liu X, van Drunen E, Beverloo HB, Smith GC, Martin NM, Lau A, O'Connor MJ, and Jonkers J

Subjects
Animals, Antineoplastic Agents administration & dosage, BRCA2 Protein metabolism, Cell Line, Tumor, DNA Damage, Drug Evaluation, Preclinical, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Enzyme Inhibitors pharmacology, Female, Mammary Neoplasms, Animal genetics, Mice, Mice, Transgenic, Neoplastic Stem Cells radiation effects, Poly(ADP-ribose) Polymerase Inhibitors, Rad51 Recombinase genetics, BRCA2 Protein genetics, Cell Proliferation drug effects, Cisplatin administration & dosage, Mammary Neoplasms, Animal drug therapy, Phthalazines administration & dosage, Piperazines administration & dosage
Abstract

Purpose: To assess efficacy of the novel, selective poly(ADP-ribose) polymerase-1 (PARP-1) inhibitor AZD2281 against newly established BRCA2-deficient mouse mammary tumor cell lines and to determine potential synergy between AZD2281 and cisplatin., Experimental Design: We established and thoroughly characterized a panel of clonal cell lines from independent BRCA2-deficient mouse mammary tumors and BRCA2-proficient control tumors. Subsequently, we assessed sensitivity of these lines to conventional cytotoxic drugs and the novel PARP inhibitor AZD2281. Finally, in vitro combination studies were done to investigate interaction between AZD2281 and cisplatin., Results: Genetic, transcriptional, and functional analyses confirmed the successful isolation of BRCA2-deficient and BRCA2-proficient mouse mammary tumor cell lines. Treatment of these cell lines with 11 different anticancer drugs or with gamma-irradiation showed that AZD2281, a novel and specific PARP inhibitor, caused the strongest differential growth inhibition of BRCA2-deficient versus BRCA2-proficient mammary tumor cells. Finally, drug combination studies showed synergistic cytotoxicity of AZD2281 and cisplatin against BRCA2-deficient cells but not against BRCA2-proficient control cells., Conclusion: We have successfully established the first set of BRCA2-deficient mammary tumor cell lines, which form an important addition to the existing preclinical models for BRCA-mutated breast cancer. The exquisite sensitivity of these cells to the PARP inhibitor AZD2281, alone or in combination with cisplatin, provides strong support for AZD2281 as a novel targeted therapeutic against BRCA-deficient cancers.

Published
2008
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33. High EVI1 levels predict adverse outcome in acute myeloid leukemia: prevalence of EVI1 overexpression and chromosome 3q26 abnormalities underestimated.

Author

Lugthart S, van Drunen E, van Norden Y, van Hoven A, Erpelinck CA, Valk PJ, Beverloo HB, Löwenberg B, and Delwel R

Subjects
Adult, Aged, Alternative Splicing genetics, Cohort Studies, Cytogenetic Analysis, DNA-Binding Proteins metabolism, Female, Gene Expression Regulation, Leukemic, Humans, In Situ Hybridization, Fluorescence, Leukemia, Myeloid, Acute diagnosis, Leukemia, Myeloid, Acute genetics, MDS1 and EVI1 Complex Locus Protein, Male, Middle Aged, Multivariate Analysis, Prognosis, Protein Isoforms genetics, Protein Isoforms metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Reproducibility of Results, Survival Analysis, Transcription Factors metabolism, Treatment Outcome, Chromosome Aberrations, Chromosomes, Human, Pair 3 genetics, DNA-Binding Proteins genetics, Leukemia, Myeloid, Acute pathology, Proto-Oncogenes genetics, Transcription Factors genetics
Abstract

Inappropriate expression of EVI1 (ecotropic virus integration-1), in particular splice form EVI1-1D, through chromosome 3q26 lesions or other mechanisms has been implicated in the development of high-risk acute myeloid leukemia (AML). To validate the clinical relevance of EVI1-1D, as well as of the other EVI1 splice forms and the related MDS1/EVI1 (ME) gene, real-time quantitative polymerase chain reaction was performed in 534 untreated adults with de novo AML. EVI1-1D was highly expressed in 6% of cases (n = 32), whereas 7.8% were EVI1(+) (n = 41) when all splice variants were taken into account. High EVI1 predicted a distinctly worse event-free survival (HR = 1.9; P = .002) and disease-free survival (HR = 2.1, P = .006) following multivariate analysis. Importantly, we distinguished a subset of EVI1(+) cases that lacked expression of ME (EVI1(+)ME(-); n = 17) from cases that were ME(+) (EVI1(+)ME(+); n = 24). The atypical EVI1(+)ME(-) expression pattern exhibited cytogenetically detectable chromosomal 3q26 breakpoints in 8 cases. Fluorescence in situ hybridization revealed 7 more EVI1(+)ME(-) cases that carried cryptic 3q26 breakpoints, which were not found in the EVI1(+)ME(+) group. EVI1(+)ME(-) expression predicts an extremely poor prognosis distinguishable from the general EVI1(+) AML patients (overall survival [OS]: P < .001 and event-free survival [EFS]: P = .002). We argue that EVI1/ME quantitative expression analysis should be implemented in the molecular diagnostic procedures of AML.

Published
2008
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34. Further characterization of the first seminoma cell line TCam-2.

Author

de Jong J, Stoop H, Gillis AJ, Hersmus R, van Gurp RJ, van de Geijn GJ, van Drunen E, Beverloo HB, Schneider DT, Sherlock JK, Baeten J, Kitazawa S, van Zoelen EJ, van Roozendaal K, Oosterhuis JW, and Looijenga LH

Subjects
Gene Expression Profiling, Genomic Imprinting, Humans, Immunohistochemistry, In Situ Hybridization, Fluorescence, Male, Neoplasm Proteins analysis, Nucleic Acid Hybridization, Spectral Karyotyping, Cell Line, Tumor, Seminoma pathology
Abstract

Testicular germ cell tumors of adolescents and adults (TGCTs) can be classified into seminomatous and nonseminomatous tumors. Various nonseminomatous cell lines, predominantly embryonal carcinoma, have been established and proven to be valuable for pathobiological and clinical studies. So far, no cell lines have been derived from seminoma which constitutes more than 50% of invasive TGCTs. Such a cell line is essential for experimental investigation of biological characteristics of the cell of origin of TGCTs, i.e., carcinoma in situ of the testis, which shows characteristics of a seminoma cell. Before a cell line can be used as model, it must be verified regarding its origin and characteristics. Therefore, a multidisciplinary approach was undertaken on TCam-2 cells, supposedly the first seminoma cell line. Fluorescence in situ hybridization, array comparative genomic hybridization, and spectral karyotyping demonstrated an aneuploid DNA content, with gain of 12p, characteristic for TGCTs. Genome wide mRNA and microRNA expression profiling supported the seminoma origin, in line with the biallelic expression of imprinted genes IGF2/H19 and associated demethylation of the imprinting control region. Moreover, the presence of specific markers, demonstrated by immunohistochemistry, including (wild type) KIT, stem cell factor, placental alkaline phosphatase, OCT3/4 (also demonstrated by a specific Q-PCR) and NANOG, and the absence of CD30, SSX2-4, and SOX2, confirms that TCam-2 is a seminoma cell line. Although mutations in oncogenes and tumor suppressor genes are rather rare in TGCTs, TCam-2 had a mutated BRAF gene (V600E), which likely explains the fact that these cells could be propagated in vitro. In conclusion, TCam-2 is the first well-characterized seminoma-derived cell line, with an exceptional mutation, rarely found in TGCTs., ((c) 2007 Wiley-Liss, Inc.)

Published
2008
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35. The structure-specific endonuclease Mus81 contributes to replication restart by generating double-strand DNA breaks.

Author

Hanada K, Budzowska M, Davies SL, van Drunen E, Onizawa H, Beverloo HB, Maas A, Essers J, Hickson ID, and Kanaar R

Subjects
Animals, Aphidicolin pharmacology, Cell Cycle physiology, Cells, Cultured, Chromosomal Instability, Chromosome Aberrations chemically induced, Chromosomes, Mammalian genetics, DNA Helicases, DNA-Binding Proteins genetics, Embryonic Stem Cells cytology, Embryonic Stem Cells drug effects, Embryonic Stem Cells physiology, Embryonic Stem Cells radiation effects, Endonucleases genetics, Enzyme Inhibitors pharmacology, Humans, Hydroxyurea pharmacology, Mice, Mice, Knockout, Nuclear Proteins genetics, Nuclear Proteins metabolism, Nucleic Acid Synthesis Inhibitors pharmacology, Rad51 Recombinase genetics, Rad51 Recombinase metabolism, Radiation, Ionizing, Chromosomes, Mammalian chemistry, Chromosomes, Mammalian metabolism, DNA Breaks, Double-Stranded, DNA Replication, DNA-Binding Proteins metabolism, Endonucleases metabolism, Nucleic Acid Conformation
Abstract

Faithful duplication of the genome requires structure-specific endonucleases such as the RuvABC complex in Escherichia coli. These enzymes help to resolve problems at replication forks that have been disrupted by DNA damage in the template. Much less is known about the identities of these enzymes in mammalian cells. Mus81 is the catalytic component of a eukaryotic structure-specific endonuclease that preferentially cleaves branched DNA substrates reminiscent of replication and recombination intermediates. Here we explore the mechanisms by which Mus81 maintains chromosomal stability. We found that Mus81 is involved in the formation of double-strand DNA breaks in response to the inhibition of replication. Moreover, in the absence of chromosome processing by Mus81, recovery of stalled DNA replication forks is attenuated and chromosomal aberrations arise. We suggest that Mus81 suppresses chromosomal instability by converting potentially detrimental replication-associated DNA structures into intermediates that are more amenable to DNA repair.

Published
2007
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36. Gene expression profiling and gene copy-number changes in malignant mesothelioma cell lines.

Author

Zanazzi C, Hersmus R, Veltman IM, Gillis AJ, van Drunen E, Beverloo HB, Hegmans JP, Verweij M, Lambrecht BN, Oosterhuis JW, and Looijenga LH

Subjects
Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Blotting, Western, Chromosome Mapping, Genome, Human genetics, Humans, In Situ Hybridization, Fluorescence, Mesothelioma metabolism, Nucleic Acid Hybridization, Spectral Karyotyping, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Chromosome Aberrations, Chromosomes, Human genetics, Gene Dosage genetics, Gene Expression Profiling methods, Mesothelioma genetics, Oligonucleotide Array Sequence Analysis methods
Abstract

Malignant mesothelioma (MM) is an asbestos-induced tumor that acquires aneuploid DNA content during the tumorigenic process. We used instable MM cell lines as an in vitro model to study the impact of DNA copy-number changes on gene expression profiling, in the course of their chromosomal redistribution process. Two MM cell lines, PMR-MM2 (early passages of in vitro culture) and PMR-MM7 (both early and late passages of in vitro culture), were cytogenetically characterized. Genomic gains and losses were precisely defined using microarray-based comparative genomic hybridization (array-CGH), and minimal overlapping analysis led to the identification of the common unbalanced genomic regions. Using the U133Plus 2.0 Affymetrix gene chip array, we analyzed PMR-MM7 early and late passages for genome-wide gene expression, and correlated the differentially expressed genes with copy-number changes. The presence of a high number of genetic imbalances occurring from early to late culture steps reflected the tendency of MM cells toward genomic instability. The selection of specific chromosomal abnormalities observed during subsequent cultures demonstrated the spontaneous evolution of the cancer cells in an in vitro environment. MM cell lines were characterized by copy-number changes associated with the TP53 apoptotic pathway already present at the first steps of in vitro culture. Prolonged culture led to acquisition of additional chromosomal copy-number changes associated with dysregulation of genes involved in cell adhesion, regulation of mitotic cell cycle, signal transduction, carbohydrate metabolism, motor activity, glycosaminoglycan biosynthesis, protein binding activity, lipid transport, ATP synthesis, and methyltransferase activity., (Copyright (c) 2007 Wiley-Liss, Inc.)

Published
2007
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37. JKT-1 is not a human seminoma cell line.

Author

de Jong J, Stoop H, Gillis AJ, van Gurp RJ, van Drunen E, Beverloo HB, Lau YF, Schneider DT, Sherlock JK, Baeten J, Hatakeyama S, Ohyama C, Oosterhuis JW, and Looijenga LH

Subjects
Humans, Immunohistochemistry, Karyotyping, Male, Models, Biological, Reproducibility of Results, Cell Line, Tumor, Seminoma, Testicular Neoplasms
Abstract

The JKT-1 cell line has been used in multiple independent studies as a representative model of human testicular seminoma. However, no cell line for this specific tumour type has been independently confirmed previously; and therefore, the seminomatous origin of JKT-1 must be proven. The genetic constitution of the JKT-1 cells was determined using flow cytometry and spectral karyotyping, as well as array comparative genomic hybridization and fluorescent in situ hybridization. Marker profiling, predominantly based on differentially expressed proteins during normal germ cell development, was performed by immunohistochemistry and Western blot analyses. Moreover, genome wide affymetrix mRNA expression and profiling of 157 microRNAs was performed, and the status of genomic imprinting was determined. A germ cell origin of the JKT-1 cells was in line with genomic imprinting status and marker profile (including positive staining for several cancer-testis antigens). However, the supposed primary tumour, from which the cell line was derived, being indeed a classical seminoma, was molecularly proven not to be the origin of the cell line. The characteristic chromosomal anomalies of seminoma, e.g. gain of the short arm of chromosome 12, as well as the informative marker profile (positive staining for OCT3/4, NANOG, among others) were absent in the various JKT-1 cell lines investigated, irrespective of where the cells were cultured. All results indicate that the JKT-1 cell line is not representative of human seminoma. Although it can originate from an early germ cell, a non-germ cell derivation cannot be excluded.

Published
2007
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38. High incidence of t(7;12)(q36;p13) in infant AML but not in infant ALL, with a dismal outcome and ectopic expression of HLXB9.

Author

von Bergh AR, van Drunen E, van Wering ER, van Zutven LJ, Hainmann I, Lönnerholm G, Meijerink JP, Pieters R, and Beverloo HB

Subjects
Acute Disease, Child, Preschool, Chromosome Breakage, Cohort Studies, Female, Homeodomain Proteins metabolism, Humans, In Situ Hybridization, Fluorescence, Infant, Infant, Newborn, Male, Models, Genetic, Oncogene Proteins, Fusion genetics, Proto-Oncogene Proteins c-ets genetics, Repressor Proteins genetics, Transcription Factors metabolism, ETS Translocation Variant 6 Protein, Chromosomes, Human, Pair 12, Chromosomes, Human, Pair 7, Homeodomain Proteins genetics, Leukemia, Myeloid genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Transcription Factors genetics, Translocation, Genetic
Abstract

The t(7;12)(q36;p13) is a recurrent translocation involving the ETV6/TEL gene (12p13) and a heterogeneous breakpoint at 7q36. A fusion transcript between HLXB9 and ETV6 in AML with t(7;12) is occasionally found. To study the incidence of t(7;12) in infant and childhood acute leukemia, we screened 320 cases <36 months using FISH. Additionally, 28 pediatric cases >36 months with cytogenetic breakpoints at 12p and 7q were investigated. We studied the presence of an HXLB9-ETV6 fusion transcript and quantified the expression of various genes located in the 7q36 breakpoint region. In total, six AML patients carried the t(7;12) of which five were infants and one child of 18 months. Only one out of 99 infant ALL patients harbored the t(7;12). No t(7;12) was found in older children with AML or ALL. AML patients carrying a t(7;12) had a poor outcome with a 3-year EFS of 0%. A fusion of HLXB9 to ETV6 was found in four AML cases with t(7;12). The 7q36 genes NOM1, LMBR1, RNF32, and SHH were equally expressed among t(7;12)-positive AML versus t(7;12)-negative AML, t(7;12)-negative ALL, or normal bone marrow. However, the HLXB9 expression was highly increased in t(7;12)-positive cases, including those with an HLXB9-ETV6 fusion. We conclude that the t(7;12) is almost exclusively present in infant AML and covers 30% of infant AML, while it is extremely rare in infant ALL and older children. The t(7;12) is associated with a poor outcome and an ectopic expression of HLXB9 is commonly involved in this genetic subtype of leukemia.

Published
2006
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39. Identification of NUP98 abnormalities in acute leukemia: JARID1A (12p13) as a new partner gene.

Author

van Zutven LJ, Onen E, Velthuizen SC, van Drunen E, von Bergh AR, van den Heuvel-Eibrink MM, Veronese A, Mecucci C, Negrini M, de Greef GE, and Beverloo HB

Subjects
Acute Disease, Adolescent, Adult, Aged, Amino Acid Sequence, Base Sequence, Child, Child, Preschool, DNA Primers, Female, Humans, In Situ Hybridization, Fluorescence, Infant, Karyotyping, Male, Middle Aged, Molecular Sequence Data, Chromosomes, Human, Pair 12, Leukemia genetics, Nuclear Pore Complex Proteins genetics
Abstract

Chromosome rearrangements are found in many acute leukemias. As a result, genes at the breakpoints can be disrupted, forming fusion genes. One of the genes involved in several chromosome aberrations in hematological malignancies is NUP98 (11p15). As NUP98 is close to the 11p telomere, small translocations might easily be missed. Using a NUP98-specific split-signal fluorescence in situ hybridization (FISH) probe combination, we analyzed 84 patients with acute myeloid leukemia (AML), acute lymphoblastic leukemia, or myelodysplastic syndrome with either normal karyotypes or 11p abnormalities to investigate whether there are unidentified 11p15 rearrangements. Neither NUP98 translocations nor deletions were identified in cases with normal karyotypes, indicating these aberrations may be very rare in this group. However, NUP98 deletions were observed in four cases with unbalanced 11p aberrations, indicating that the breakpoint is centromeric of NUP98. Rearrangements of NUP98 were identified in two patients, both showing 11p abnormalities in the diagnostic karyotype: a t(4;11)(q1?3;p15) with expression of the NUP98-RAP1GDS1 fusion product detected in a 60-year-old woman with AML-M0, and an add(11)(p15) with a der(21)t(11;21)(p15;p13) observed cytogenetically in a 1-year-old boy with AML-M7. JARID1A was identified as the fusion partner of NUP98 using 3' RACE, RT-PCR, and FISH. JARID1A, at 12p13, codes for retinoblastoma binding protein 2, a protein implicated in transcriptional regulation. This is the first report of JARID1A as a partner gene in leukemia., (2006 Wiley-Liss, Inc)

Published
2006
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40. Increased genomic instability is not a prerequisite for shortened lifespan in DNA repair deficient mice.

Author

Dollé ME, Busuttil RA, Garcia AM, Wijnhoven S, van Drunen E, Niedernhofer LJ, van der Horst G, Hoeijmakers JH, van Steeg H, and Vijg J

Subjects
Aging, Premature genetics, Animals, Base Sequence, Chromosome Mapping, Crosses, Genetic, DNA Primers, Gene Rearrangement, Genes, Reporter, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Mutant Strains, beta-Galactosidase genetics, DNA Repair genetics, Genome, Mutation
Abstract

Genetic defects in nucleotide excision repair (NER) are associated with premature aging, including cancer, in both humans and mice. To investigate the possible role of increased somatic mutation accumulation in the accelerated appearance of symptoms of aging as a consequence of NER deficiency, we crossed four different mouse mutants, Xpa-/-, Ercc6(Csb)-/-, Ercc2(Xpd)m/m and Ercc1-/m, with mice harboring lacZ-reporter genes to assess mutant frequencies and spectra in different organs during aging. The results indicate an accelerated accumulation of mutations in both liver and kidney of Xpa defective mice, which correlated with a trend towards a decreased lifespan. Until 52 weeks, Xpa deficiency resulted mainly in 1-bp deletions. At old age (104 weeks), the spectrum had undergone a shift, in both organs, to G:C-->T:A transversions, a signature mutation of oxidative DNA damage. Ercc1-/m mice, with their short lifespan of 6 months and severe symptoms of premature aging, especially in liver and kidney, displayed an even faster lacZ-mutant accumulation in liver. In this case, the excess mutations were mostly genome rearrangements. Csb-/- mice, with mild premature aging features and no reduction in lifespan, and Xpdm/m mice, exhibiting prominent premature aging features and about 20% reduction in lifespan, did not have elevated lacZ-mutant frequencies. It is concluded that while increased genomic instability could play a causal role in the mildly accelerated aging phenotype in the Xpa-null mice or in the severe progeroid symptoms of the Ercc1-mutant mice, shortened lifespan in mice with defects in transcription-related repair do not depend upon increased mutation accumulation.

Published
2006
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41. Genomic and expression profiling of human spermatocytic seminomas: primary spermatocyte as tumorigenic precursor and DMRT1 as candidate chromosome 9 gene.

Author

Looijenga LH, Hersmus R, Gillis AJ, Pfundt R, Stoop HJ, van Gurp RJ, Veltman J, Beverloo HB, van Drunen E, van Kessel AG, Pera RR, Schneider DT, Summersgill B, Shipley J, McIntyre A, van der Spek P, Schoenmakers E, and Oosterhuis JW

Subjects
Biomarkers, Tumor biosynthesis, Biomarkers, Tumor genetics, Female, Gene Expression Profiling, Genomic Instability, Humans, Immunohistochemistry, Male, Ovarian Neoplasms genetics, Ovarian Neoplasms metabolism, Seminoma metabolism, Spermatocytes pathology, Testicular Neoplasms metabolism, Chromosomes, Human, Pair 9 genetics, Seminoma genetics, Testicular Neoplasms genetics, Transcription Factors genetics
Abstract

Spermatocytic seminomas are solid tumors found solely in the testis of predominantly elderly individuals. We investigated these tumors using a genome-wide analysis for structural and numerical chromosomal changes through conventional karyotyping, spectral karyotyping, and array comparative genomic hybridization using a 32 K genomic tiling-path resolution BAC platform (confirmed by in situ hybridization). Our panel of five spermatocytic seminomas showed a specific pattern of chromosomal imbalances, mainly numerical in nature (range, 3-24 per tumor). Gain of chromosome 9 was the only consistent anomaly, which in one case also involved amplification of the 9p21.3-pter region. Parallel chromosome level expression profiling as well as microarray expression analyses (Affymetrix U133 plus 2.0) was also done. Unsupervised cluster analysis showed that a profile containing transcriptional data on 373 genes (difference of > or = 3.0-fold) is suitable for distinguishing these tumors from seminomas/dysgerminomas. The diagnostic markers SSX2-4 and POU5F1 (OCT3/OCT4), previously identified by us, were among the top discriminatory genes, thereby validating the experimental set-up. In addition, novel discriminatory markers suitable for diagnostic purposes were identified, including Deleted in Azospermia (DAZ). Although the seminomas/dysgerminomas were characterized by expression of stem cell-specific genes (e.g., POU5F1, PROM1/CD133, and ZFP42), spermatocytic seminomas expressed multiple cancer testis antigens, including TSP50 and CTCFL (BORIS), as well as genes known to be expressed specifically during prophase meiosis I (TCFL5, CLGN, and LDHc). This is consistent with different cells of origin, the primordial germ cell and primary spermatocyte, respectively. Based on the region of amplification defined on 9p and the associated expression plus confirmatory immunohistochemistry, DMRT1 (a male-specific transcriptional regulator) was identified as a likely candidate gene for involvement in the development of spermatocytic seminomas.

Published
2006
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42. Novel murine B-cell lymphoma/leukemia model to study BCL2-driven oncogenesis.

Author

Meijerink JP, Van Lieshout EM, Beverloo HB, Van Drunen E, Mensink EJ, Macville M, and Pieters R

Subjects
Animals, DNA Damage, Disease Models, Animal, Genes, p53, Hepatomegaly, Leukemia, B-Cell veterinary, Lymphoma, B-Cell veterinary, Male, Mice, Mice, Inbred BALB C, Proto-Oncogene Proteins c-bcl-2 genetics, Splenomegaly, Transfection, Tumor Cells, Cultured, Cell Transformation, Neoplastic, Leukemia, B-Cell genetics, Leukemia, B-Cell physiopathology, Lymphoma, B-Cell genetics, Lymphoma, B-Cell physiopathology, Proto-Oncogene Proteins c-bcl-2 pharmacology
Abstract

The BCL-2 family has been implicated in the pathogenesis of various hematopoietic malignancies, including follicular non-Hodgkin lymphoma and B-cell chronic lymphocytic leukemia. To identify genes that act synergistically in BCL2-enforced leukemogenesis, we developed a murine B-cell lymphoma/leukemia model based on the IL-3-dependent Balb/C pro-B line (FL5.12). FL5.12 cells were stably transfected with antiapoptotic BCL-2 alone or in combination with proapoptotic BAX or nonfunctional mutant BAX, thereby creating various levels of imbalance within the BCL-2 family. Transfectants were intravenously injected into normal Balb/C mice. Whereas FL5.12 cells did not provoke leukemia, mice injected with stable transfectants died of leukemia over time. Disease incidence and latency time depended on the degree of imbalance in the BCL-2 family, supporting a model whereby BCL2 drives tumorigenesis. All mice presented with hepatosplenomegaly and leukemic FL5.12 cells in peripheral blood and bone marrow compartments. Leukemic conversion was accompanied by secondary genetic aberrations leading to clonal IL-3-responsive leukemia. Cellular transformation was independent of alterations in c-Myc or downstream apoptotic pathway. Leukemic clones retained a normal DNA damage response leading to elevated P53 and P21 levels and cell cycle arrest upon irradiation. In conclusion, our mouse model may prove a valuable tool to identify genes that cooperate in BCL2-enforced lymphoma/leukemogenesis.

Published
2005
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43. Dynamics of relative chromosome position during the cell cycle.

Author

Essers J, van Cappellen WA, Theil AF, van Drunen E, Jaspers NG, Hoeijmakers JH, Wyman C, Vermeulen W, and Kanaar R

Subjects
Animals, Biomarkers metabolism, CHO Cells, Cell Nucleus genetics, Chromosomes, Human genetics, Chromosomes, Mammalian genetics, Clone Cells, Cricetinae, Cricetulus, DNA metabolism, DNA radiation effects, DNA Damage, DNA, Neoplasm metabolism, DNA, Neoplasm radiation effects, Fluorescent Antibody Technique, Indirect, Fluorescent Dyes, Green Fluorescent Proteins metabolism, HeLa Cells, Histones metabolism, Humans, Hydrazines, Kinetics, Microscopy, Confocal, Microscopy, Video, Photobleaching, Proliferating Cell Nuclear Antigen metabolism, Transfection, Ultraviolet Rays, Cell Cycle genetics, Chromosomes, Human metabolism, Chromosomes, Mammalian metabolism
Abstract

The position of chromosomal neighborhoods in living cells was followed using three different methods for marking chromosomal domains occupying arbitrary locations in the nucleus; photobleaching of GFP-labeled histone H2B, local UV-marked DNA, and photobleaching of fluorescently labeled DNA. All methods revealed that global chromosomal organization can be reestablished through one cell division from mother to daughters. By simultaneously monitoring cell cycle stage in the cells in which relative chromosomal domain positions were tracked, we observed that chromosomal neighborhood organization is apparently lost in the early G1 phase of the cell cycle. However, the daughter cells eventually regain the general chromosomal organization pattern of their mothers, suggesting an active mechanism could be at play to reestablish chromosomal neighborhoods.

Published
2005
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44. Mutation of the mouse Rad17 gene leads to embryonic lethality and reveals a role in DNA damage-dependent recombination.

Author

Budzowska M, Jaspers I, Essers J, de Waard H, van Drunen E, Hanada K, Beverloo B, Hendriks RW, de Klein A, Kanaar R, Hoeijmakers JH, and Maas A

Subjects
Amino Acid Sequence, Animals, Base Sequence, Cell Cycle genetics, Cell Cycle Proteins metabolism, Cell Line, DNA genetics, DNA Damage, DNA Repair genetics, DNA-Binding Proteins, Female, Gamma Rays, Gene Targeting, Genes, Lethal, Gestational Age, Mice, Mice, Inbred C57BL, Mice, Knockout, Models, Biological, Molecular Sequence Data, Mutagens toxicity, Pregnancy, Radiation Tolerance genetics, Recombination, Genetic, Ultraviolet Rays, Cell Cycle Proteins genetics, Fetal Death genetics, Mutation
Abstract

Genetic defects in DNA repair mechanisms and cell cycle checkpoint (CCC) genes result in increased genomic instability and cancer predisposition. Discovery of mammalian homologs of yeast CCC genes suggests conservation of checkpoint mechanisms between yeast and mammals. However, the role of many CCC genes in higher eukaryotes remains elusive. Here, we report that targeted deletion of an N-terminal part of mRad17, the mouse homolog of the Schizosaccharomyces pombe Rad17 checkpoint clamp-loader component, resulted in embryonic lethality during early/mid-gestation. In contrast to mouse embryos, embryonic stem (ES) cells, isolated from mRad17(5'Delta/5'Delta) embryos, produced truncated mRad17 and were viable. These cells displayed hypersensitivity to various DNA-damaging agents. Surprisingly, mRad17(5'Delta/5'Delta) ES cells were able to arrest cell cycle progression upon induction of DNA damage. However, they displayed impaired homologous recombination as evidenced by a strongly reduced gene targeting efficiency. In addition to a possible role in DNA damage-induced CCC, based on sequence homology, our results indicate that mRad17 has a function in DNA damage-dependent recombination that may be responsible for the sensitivity to DNA-damaging agents.

Published
2004
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45. The structure-specific endonuclease Ercc1-Xpf is required to resolve DNA interstrand cross-link-induced double-strand breaks.

Author

Niedernhofer LJ, Odijk H, Budzowska M, van Drunen E, Maas A, Theil AF, de Wit J, Jaspers NG, Beverloo HB, Hoeijmakers JH, and Kanaar R

Subjects
Animals, Cell Cycle, Cell Line, Chromosome Aberrations, DNA chemistry, DNA metabolism, DNA-Binding Proteins deficiency, DNA-Binding Proteins physiology, Endonucleases deficiency, Endonucleases physiology, Gamma Rays, Histones analysis, Immunohistochemistry, Mice, Mice, Knockout, Mitomycin pharmacology, Nucleic Acid Conformation, Ultraviolet Rays, DNA Damage drug effects, DNA Damage radiation effects, DNA Repair, DNA-Binding Proteins genetics, Endonucleases genetics
Abstract

Interstrand cross-links (ICLs) are an extremely toxic class of DNA damage incurred during normal metabolism or cancer chemotherapy. ICLs covalently tether both strands of duplex DNA, preventing the strand unwinding that is essential for polymerase access. The mechanism of ICL repair in mammalian cells is poorly understood. However, genetic data implicate the Ercc1-Xpf endonuclease and proteins required for homologous recombination-mediated double-strand break (DSB) repair. To examine the role of Ercc1-Xpf in ICL repair, we monitored the phosphorylation of histone variant H2AX (gamma-H2AX). The phosphoprotein accumulates at DSBs, forming foci that can be detected by immunostaining. Treatment of wild-type cells with mitomycin C (MMC) induced gamma-H2AX foci and increased the amount of DSBs detected by pulsed-field gel electrophoresis. Surprisingly, gamma-H2AX foci were also induced in Ercc1(-/-) cells by MMC treatment. Thus, DSBs occur after cross-link damage via an Ercc1-independent mechanism. Instead, ICL-induced DSB formation required cell cycle progression into S phase, suggesting that DSBs are an intermediate of ICL repair that form during DNA replication. In Ercc1(-/-) cells, MMC-induced gamma-H2AX foci persisted at least 48 h longer than in wild-type cells, demonstrating that Ercc1 is required for the resolution of cross-link-induced DSBs. MMC triggered sister chromatid exchanges in wild-type cells but chromatid fusions in Ercc1(-/-) and Xpf mutant cells, indicating that in their absence, repair of DSBs is prevented. Collectively, these data support a role for Ercc1-Xpf in processing ICL-induced DSBs so that these cytotoxic intermediates can be repaired by homologous recombination.

Published
2004
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46. Detection of genetic prognostic markers in uveal melanoma biopsies using fluorescence in situ hybridization.

Author

Naus NC, Verhoeven AC, van Drunen E, Slater R, Mooy CM, Paridaens DA, Luyten GP, and de Klein A

Subjects
Adult, Aged, Aged, 80 and over, Biopsy, Chromosome Aberrations, Chromosomes, Human, Pair 3, Chromosomes, Human, Pair 6, Chromosomes, Human, Pair 8, Female, Humans, Karyotyping, Male, Middle Aged, In Situ Hybridization, Fluorescence methods, Melanoma genetics, Melanoma pathology, Prognosis, Uveal Neoplasms genetics, Uveal Neoplasms pathology
Abstract

Purpose: In uveal melanoma, specific chromosomal abnormalities are known to correlate with the risk of metastases; changes in chromosomes 3 and 8q correlate strongly with a decreased survival of the patient, whereas chromosome 6 abnormalities are associated with a better prognosis. Usually, karyotyping and fluorescence in situ hybridization (FISH) analysis are used to detect these abnormalities in resected tumor tissues. However, the evaluation of these chromosomal changes is compromised in patients treated with eye-retaining treatment protocols because of the lack of tumor material. The purpose of this study was to validate the use of FISH for the analysis of genetic prognostic markers., Experimental Design: We analyzed 40 uveal melanoma fine needle aspiration biopsies (FNABs) and the corresponding main tumor with FISH., Results: All biopsies were found to contain tumor cells, and FISH analyses of the samples were successful in all cases. Statistical analysis showed very good agreement between the FISH results from the biopsies and those from the main tumor. In only 2 of 249 hybridizations did we find a small variation that could have led to a misclassification., Conclusions: Our results indicate that the application of FISH to FNABs is a reliable method for assaying genetic prognostic parameters such as chromosome 3 loss and/or chromosome 8q gain. Implementation of this method in a diagnostic setting means that we are able to identify patients at risk of developing metastatic disease, not only in enucleated patients but also in cases treated with conservative treatment modalities such as radiotherapy.

Published
2002

47. Deletions at chromosome regions 7q11.23 and 7q36 in a patient with Williams syndrome.

Author

Wouters CH, Meijers-Heijboer HJ, Eussen BJ, van der Heide AA, van Luijk RB, van Drunen E, Beverloo BB, Visscher F, and Van Hemel JO

Subjects
Adult, Chromosome Banding, Female, Humans, In Situ Hybridization, Fluorescence, Karyotyping, Williams Syndrome pathology, Chromosome Deletion, Chromosomes, Human, Pair 7 genetics, Williams Syndrome genetics
Abstract

We report on a patient with Williams syndrome and a complex de novo chromosome rearrangement, including microdeletions at 7q11.23 and 7q36 and additional chromosomal material at 7q36. The nature of this additional material was elucidated by spectral karyotyping and first assigned to chromosome 22. Subsequent fluorescence in situ hybridization (FISH) experiments showed that it consisted of satellite material only. Refinement of the 7q36 breakpoint was performed with several FISH probes, showing a deletion distal to the triphalangeal thumb (TPT) region. The phenotype of the patient principally results from the microdeletion of the 7q11.23; the small deletion at 7qter and the extra satellite material may not be of clinical significance., (Copyright 2001 Wiley-Liss, Inc.)

Published
2001
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48. Growth inhibition and DNA damage induced by Cre recombinase in mammalian cells.

Author

Loonstra A, Vooijs M, Beverloo HB, Allak BA, van Drunen E, Kanaar R, Berns A, and Jonkers J

Subjects
Aneuploidy, Animals, Cells, Cultured, G2 Phase, Mammals, Mitosis, Recombination, Genetic, Sister Chromatid Exchange, Cell Division, DNA Damage, Integrases metabolism, Viral Proteins metabolism
Abstract

The use of Cre/loxP recombination in mammalian cells has expanded rapidly. We describe here that Cre expression in cultured mammalian cells may result in a markedly reduced proliferation and that this effect is dependent on the endonuclease activity of Cre. Chromosome analysis after Cre expression revealed numerous chromosomal aberrations and an increased number of sister chromatid exchanges. Titration experiments in mouse embryo fibroblasts with a ligand-regulatable Cre-ER(T) show that toxicity is dependent on the level of Cre activity. Prolonged, low levels of Cre activity permit recombination without concomitant toxicity. This urges for a careful titration of Cre activity in conditional gene modification in mammalian cells.

Published
2001
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49. Fusion of the homeobox gene HLXB9 and the ETV6 gene in infant acute myeloid leukemias with the t(7;12)(q36;p13).

Author

Beverloo HB, Panagopoulos I, Isaksson M, van Wering E, van Drunen E, de Klein A, Johansson B, and Slater R

Subjects
Acute Disease, Amino Acid Sequence, Base Sequence, DNA, Complementary chemistry, DNA, Complementary genetics, Humans, In Situ Hybridization, Fluorescence, Infant, Newborn, Karyotyping, Leukemia, Myeloid pathology, Molecular Sequence Data, Oncogene Proteins, Fusion genetics, Proto-Oncogene Proteins c-ets, RNA, Neoplasm genetics, RNA, Neoplasm metabolism, Sequence Analysis, DNA, ETS Translocation Variant 6 Protein, Chromosomes, Human, Pair 12 genetics, Chromosomes, Human, Pair 7 genetics, DNA-Binding Proteins genetics, Homeodomain Proteins genetics, Leukemia, Myeloid genetics, Repressor Proteins, Transcription Factors genetics, Translocation, Genetic
Abstract

Recently, we and others reported a recurrent t(7;12)(q36;p13) found in myeloid malignancies in children < or =18 months of age and associated with a poor prognosis. Fluorescence in situ hybridization studies mapped the 12p13 breakpoint to the first intron of ETV6 and narrowed down the region of 7q36 involved. By using the sequences made public recently by the Human Genome Project, two candidate genes in 7q36 were identified: the homeobox gene HLXB9 and c7orf3, a gene with unknown function. Reverse transcription-PCR of two cases with t(7;12), using primers for c7orf3 and ETV6, was negative. However, reverse transcription-PCR for HLXB9-ETV6 demonstrated alternative splicing; the two major bands corresponded to fusion of exon 1 of HLXB9 to exons 2 and 3, respectively, of ETV6. The reciprocal ETV6-HLXB9 transcript was not detected. It remains to be elucidated if the leukemic phenotype is attributable to the formation of the HLXB9-ETV6 fusion protein, which includes the helix-loop-helix and E26 transformation-specific DNA binding domains of ETV6 or to the disruption of the normal ETV6 protein.

Published
2001

50. Characterization of complex chromosomal abnormalities in uveal melanoma by fluorescence in situ hybridization, spectral karyotyping, and comparative genomic hybridization.

Author

Naus NC, van Drunen E, de Klein A, Luyten GP, Paridaens DA, Alers JC, Ksander BR, Beverloo HB, and Slater RM

Subjects
Adult, Aged, Chromosome Disorders, Chromosomes, Human, Pair 6 genetics, Chromosomes, Human, Pair 8 genetics, Female, Humans, Male, Middle Aged, Nucleic Acid Hybridization, Tumor Cells, Cultured, Chromosome Aberrations genetics, In Situ Hybridization, Fluorescence, Karyotyping methods, Melanoma genetics, Uveal Neoplasms genetics
Abstract

Several nonrandom recurrent chromosomal changes are observed in uveal melanoma. Some of these abnormalities, e.g., loss of chromosome 3, gain of the q arm of chromosome 8, and chromosome 6 abnormalities, are of prognostic value. Cytogenetic analysis and/or fluorescence in situ hybridization (FISH) are used to detect these changes. In some cases, however, detailed cytogenetic analysis is not possible due to the presence of complex abnormalities. To define more accurately these cytogenetic changes, we have applied comparative genomic hybridization (CGH) and/or spectral karyotyping (SKY) to two uveal melanoma cell lines and five primary uveal melanomas, with partially defined and/or complex abnormalities. SKY provided additional information on 34/39 partially defined aberrant chromosomes and revealed a new abnormality, a der(17)t(7;17)(?;q?), that had not been recognized by conventional cytogenetics. Additionally, using SKY, abnormalities involving chromosome 6 or 8 were found to be twice as common as observed with cytogenetic analysis. CGH was especially useful in assigning the abnormalities identified by SKY to specific chromosomal regions and, in addition, resulted in the detection of a small deletion of chromosome region 3q13 approximately 21. We conclude that SKY and CGH, as methods complementary to cytogenetic and FISH analysis, provide more complete information on the chromosomal abnormalities occurring in uveal melanoma., (Copyright 2001 Wiley-Liss, Inc.)

Published
2001

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