Publications

We maintain this section to inform interested users about independent scientific studies conducted on MetaSystems products. We assume no responsibility or liability regarding the accuracy or correct use of the information or statements provided by external authors. The conclusions or statements expressed in the publications listed are those of the external authors or researchers. The publications may involve user-specific adaptations of MetaSystems products. They are not intended for diagnostic use. For publications covered by the Intended Purpose of Metafer or Ikaros, please refer to the respective instructions for use (IFU).

Filter by Keyword

Filter by Product


Molecular cytogenetics, 7, 71
2014

Karyotypic evolutions of cancer species in rats during the long latent periods after injection of nitrosourea.

Bloomfield, Mathew, McCormack, Amanda, Mandrioli, Daniele, Fiala, Christian, Aldaz, C Marcelo, Duesberg, Peter

A century of research has established that cancers arise from tissues exposed to carcinogens only after long latencies of years to decades and have individual clonal karyotypes. Since speciation from known precursors also depends on long latencies and new species also have individual karyotypes, we and others have recently proposed that carcinogenesis is a form of speciation. According to this theory karyotypic evolutions generate new cancer species from normal cells as follows: Carcinogens induce aneuploidy (Figure 1). By unbalancing thousands of genes aneuploidy automatically destabilizes the karyotype and thus catalyzes random karyotypic variations. Selections of variants with proliferative phenotypes form non-clonal hyperplasias with persistently varying karyotypes. Very rare karyotypic variations form new cancer species with individual clonal karyotypes. Despite destabilization by the resulting congenital aneuploidies, cancer karyotypes are stabilized within narrow margins of variation by clonal selections for cancer-specific autonomy. Because all non-cancerous aneuploidies are unstable, all aneusomies of prospective cancers are joined in single-steps, rather than gradually. Since this mechanism is very inefficient, it predicts long latent periods from carcinogens to cancers and individual clonal cancer karyotypes. Here we have tested the predicted roles of karyotypic evolutions during the time course of carcinogenesis in an established experimental system. In this system injection of nitrosourea induces in female rats non-invasive mammary hyperplasias ("tumors") after two or more months, and invasive carcinomas after six or more months. Accordingly four specific predictions were tested: (1) Invasive cancers are late and carry individual clonal karyotypes and phenotypes, (2) Persistent hyperplasias carry non-clonal karyotypes, (3) Non-clonal hyperplasias generate clonal cancers spontaneously but rarely, (4) Cancer-karyotypes arise with all individual clonal aneusomies in single-steps. All four predictions were experimentally confirmed. Our results along with the literature reveal a coherent karyotypic mechanism of carcinogenesis: Carcinogens induce aneuploidy. The inherent instability of aneuploidy automatically catalyzes new karyotypic variations. Aneuploid karyotypes with proliferative phenotypes form varying non-clonal hyperplasias. Rare variations form cancer species with individual clonal karyotypes, which are stabilized by clonal selection for autonomy. The low odds of this mechanism explain the long latencies of carcinogenesis, the individuality and karyotypic clonality of cancers.

Digital object identifier (DOI): 10.1186/s13039-014-0071-x

Neoplasia, 15(11), 1301–1313
November, 2013

Alternative Lengthening of Telomeres: Recurrent Cytogenetic Aberrations and Chromosome Stability under Extreme Telomere Dysfunction.

Despoina Sakellariou, Maria Chiourea, Christina Raftopoulou, Sarantis Gagos

Human tumors using the alternative lengthening of telomeres (ALT) exert high rates of telomere dysfunction. Numerical chromosomal aberrations are very frequent, and structural rearrangements are widely scattered among the genome. This challenging context allows the study of telomere dysfunction-driven chromosomal instability in neoplasia (CIN) in a massive scale. We used molecular cytogenetics to achieve detailed karyotyping in 10 human ALT neoplastic cell lines. We identified 518 clonal recombinant chromosomes affected by 649 structural rearrangements. While all human chromosomes were involved in random or clonal, terminal, or pericentromeric rearrangements and were capable to undergo telomere healing at broken ends, a differential recombinatorial propensity of specific genomic regions was noted. We show that ALT cells undergo epigenetic modifications rendering polycentric chromosomes functionally monocentric, and because of increased terminal recombinogenicity, they generate clonal recombinant chromosomes with interstitial telomeric repeats. Losses of chromosomes 13, X, and 22, gains of 2, 3, 5, and 20, and translocation/deletion events involving several common chromosomal fragile sites (CFSs) were recurrent. Long-term reconstitution of telomerase activity in ALT cells reduced significantly the rates of random ongoing telomeric and pericentromeric CIN. However, the contribution of CFS in overall CIN remained unaffected, suggesting that in ALT cells whole-genome replication stress is not suppressed by telomerase activation. Our results provide novel insights into ALT-driven CIN, unveiling in parallel specific genomic sites that may harbor genes critical for ALT cancerous cell growth.

Br J Haematol
October, 2013

Fusion of the additional sex combs like 1 and teashirt zinc fingerhomeobox 2 genes resulting from ider(20q) aberration in a patientwith myelodysplastic syndrome.

Jana Brezinova, Iveta Sarova, Halka Buryova, Jana Markova, Sarka Ransdorfova, Silvia Izakova, Karla Kostylkova, Jacqueline Soukupova, Zuzana Zemanova, Kyra Michalova

A variant of del(20q), an isochromosome of the long arm with the loss of an interstitial part of 20q, ider(20q), has been reported in patients with myeloid diseases (Li et al, 2004). About 40 cases with this rearrangement have been reported up to 2012 (reviewed by Mullier et al, 2012). Molecular cytogenetic and array techniques have been used for mapping of the deleted region on 20q (Douet-Guilbert et al, 2009). The proximal breakpoints are consistently located in the 20q11.21 band, and the distal breakpoints span from band 20q13.13 to band 20q13.33.

Mutat Res
June, 2013

Persisting ring chromosomes detected by mFISH in lymphocytes of acancer patient-A case report.

Sabine Schmitz, Michael Pinkawa, Michael J. Eble, Ralf Kriehuber

<p>We report the case of an 84 years old prostate cancer patient with severe side effects after radiotherapy in 2006. He was cytogenetically analysed in 2009 and in 2012 in a comparative study for individual radiosensitivity of prostate cancer patients. No other patient had clonal aberrations, but this patient showed ring chromosomes in the range of 21-25% of lymphocytes. He received 5 cycles of 5-fluorouracil/folic acid for chemotherapy of sigmoid colon carcinoma in 2003, three years before radiotherapy of prostate cancer. Blood samples were irradiated ex vivo with Cs-137 γ-rays (0.7Gy/min) in the G0-phase of the cell cycle. 100 FISH painted metaphases were analysed for the control and the irradiated samples each. Multicolour in situ hybridisation techniques like mFISH and mBand as well as MYC locus, telomere and centromere painting probes were used to characterise ring metaphases. Metaphase search and autocapture was performed with a Zeiss Axioplan 2 imaging microscope followed by scoring and image analysis using Metafer 4/ISIS software (MetaSystems). In 2009 chromosome 8 rings were found in about 25% of lymphocytes. Rings were stable over time and increased to about 30% until 2012. The ring chromosome 8 always lacked telomere signals and a small amount of rings displayed up to four centromere signals. In aberrant metaphases 8pter and 8qter were either translocated or deleted. Further analyses revealed that the breakpoint at the p arm is localised at 8p21.2-22. The breakpoint at the q arm turned out to be distal from the MYC locus at 8q23-24. We hypothesise that the ring chromosome 8 has been developed during the 5 FU/folic acid treatments in 2003. The long term persistence might be due to clonal expansion of a damaged but viable hematopoietic stem cell giving rise to cycling progenitor cells that permit cell survival and proliferation.</p>

Leukemia, 26(7), 1695–1697
July, 2012

Molecular characterization of deletions of the long arm of chromosome5 (del(5q)) in 94 MDS/AML patients.

N. Douet-Guilbert, E. De Braekeleer, A. Basinko, A. Herry, N. Gueganic, C. Bovo, K. Trillet, A. Dos Santos, M. J. Le Bris, F. Morel, J. R. Eveillard, C. Berthou, M. De Braekeleer

Deletion of the long arm of chromosome 5 (del(5q)) is a common finding in myelodysplastic syndrome (MDS) and in acute myeloid leukemia (AML). First described in 1974 by Van den Berghe et al.,1 the 5q- syndrome, more frequently found in old-aged females, is characterized by erythroid hypoplasia, macrocytic anemia, normal to elevated platelets count, preponderance of monolobulated megakaryocytes, isolated 5q deletion and low rate of progression to AML.

J Clin Invest, 122(2), 569–574
February, 2012

Recurrent genomic instability of chromosome 1q in neural derivativesof human embryonic stem cells.

Christine Varela, Jérôme Alexandre Denis, Jérôme Polentes, Maxime Feyeux, Sophie Aubert, Benoite Champon, Geneviève Piétu, Marc Peschanski, Nathalie Lefort

Human pluripotent stem cells offer a limitless source of cells for regenerative medicine. Neural derivatives of human embryonic stem cells (hESCs) are currently being used for cell therapy in 3 clinical trials. However, hESCs are prone to genomic instability, which could limit their clinical utility. Here, we report that neural differentiation of hESCs systematically produced a neural stem cell population that could be propagated for more than 50 passages without entering senescence; this was true for all 6 hESC lines tested. The apparent spontaneous loss of evolution toward normal senescence of somatic cells was associated with a jumping translocation of chromosome 1q. This chromosomal defect has previously been associated with hematologic malignancies and pediatric brain tumors with poor clinical outcome. Neural stem cells carrying the 1q defect implanted into the brains of rats failed to integrate and expand, whereas normal cells engrafted. Our results call for additional quality controls to be implemented to ensure genomic integrity not only of undifferentiated pluripotent stem cells, but also of hESC derivatives that form cell therapy end products, particularly neural lines.

Blood, 118(26), 6760–6768
December, 2011

Impact of additional cytogenetic aberrations at diagnosis on prognosisof CML: long-term observation of 1151 patients from the randomizedCML Study IV.

Alice Fabarius, Armin Leitner, Andreas Hochhaus, Martin C Müller, Benjamin Hanfstein, Claudia Haferlach, Gudrun Göhring, Brigitte Schlegelberger, Martine Jotterand, Andreas Reiter, Susanne Jung-Munkwitz, Ulrike Proetel, Juliana Schwaab, Wolf-Karsten Hofmann, Jörg Schubert, Hermann Einsele, Anthony D Ho, Christiane Falge, Lothar Kanz, Andreas Neubauer, Michael Kneba, Frank Stegelmann, Michael Pfreundschuh, Cornelius F Waller, Karsten Spiekermann, Gabriela M Baerlocher, Michael Lauseker, Markus Pfirrmann, Joerg Hasford, Susanne Saussele, Rüdiger Hehlmann, für Klinische Krebsforschung (SAKK), Schweizerische Arbeitsg, the German CML Study Group,

<p>The prognostic relevance of additional cytogenetic findings at diagnosis of chronic myeloid leukemia (CML) is unclear. The impact of additional cytogenetic findings at diagnosis on time to complete cytogenetic (CCR) and major molecular remission (MMR) and progression-free (PFS) and overall survival (OS) was analyzed using data from 1151 Philadelphia chromosome-positive (Ph(+)) CML patients randomized to the German CML Study IV. At diagnosis, 1003 of 1151 patients (8%) had standard t(9;22)(q34;q11) only, 69 patients (6.0%) had variant t(v;22), and 79 (6.9%) additional cytogenetic aberrations (ACAs). Of these, 38 patients (3.3%) lacked the Y chromosome (-Y) and 41 patients (3.6%) had ACAs except -Y; 16 of these (1.4%) were major route (second Philadelphia [Ph] chromosome, trisomy 8, isochromosome 17q, or trisomy 19) and 25 minor route (all other) ACAs. After a median observation time of 5.3 years for patients with t(9;22), t(v;22), -Y, minor- and major-route ACAs, the 5-year PFS was 90%, 81%, 88%, 96%, and 50%, and the 5-year OS was 92%, 87%, 91%, 96%, and 53%, respectively. In patients with major-route ACAs, the times to CCR and MMR were longer and PFS and OS were shorter (P &lt; .001) than in patients with standard t(9;22). We conclude that major-route ACAs at diagnosis are associated with a negative impact on survival and signify progression to the accelerated phase and blast crisis.</p>

Stem Cell Rev, 7(2), 471–477
June, 2011

An improved technique for chromosomal analysis of human ES and iPScells.

Daniela Moralli, Mohammed Yusuf, Mohammad A Mandegar, Suhail Khoja, Zoia L Monaco, Emanuela V Volpi

Prolonged in vitro culture of human embryonic stem (hES) cells can result in chromosomal abnormalities believed to confer a selective advantage. This potential occurrence has crucial implications for the appropriate use of hES cells for research and therapeutic purposes. In view of this, time-point karyotypic evaluation to assess genetic stability is recommended as a necessary control test to be carried out during extensive 'passaging'. Standard techniques currently used for the cytogenetic assessment of ES cells include G-banding and/or Fluorescence in situ Hybridization (FISH)-based protocols for karyotype analysis, including M-FISH and SKY. Critical for both banding and FISH techniques are the number and quality of metaphase spreads available for analysis at the microscope. Protocols for chromosome preparation from hES and human induced pluripotent stem (hiPS) cells published so far appear to differ considerably from one laboratory to another. Here we present an optimized technique, in which both the number and the quality of chromosome metaphase spreads were substantially improved when compared to current standard techniques for chromosome preparations. We believe our protocol represents a significant advancement in this line of work, and has the required attributes of simplicity and consistency to be widely accepted as a reference method for high quality, fast chromosomal analysis of human ES and iPS cells.

Mol Cytogenet, 4, 16
2011

Biclonal myelodysplastic syndrome involving six chromosomes and monoallelicloss of RB1 - A rare case.

Walid Al-Achkar, Abdulsamad Wafa, Elisabeth Klein, Abdulmunim Aljapawe

<p>Myelodysplastic syndrome (MDS) represents a group of clonal hematological disorders characterized by progressive cytopenia, and reflects to defects in erythroid, myeloid and megakaryocytic maturation. MDS is more frequently observed in older aged patients with cytogenetic abnormalities like monosomy of chromosome(s) 5 and/or 7. In 50% of de novo MDS cases, chromosomal aberrations are found and rearrangements involving the retinoblastoma (RB1) gene in 13q14 are found. Here, we are presenting a case report of a rare biclonal MDS with a karyotype of 45, XY,-4, der(6)t(4;6)(p15.1;p21.3), der(8)t(4;8)(q31.2;q22), t(13;16)(q21.3;p11.2)11/45, XY, der(7)t(7;13)(p22.2~22.3;q21.3),-13 9. The patient was diagnosed according to WHO classification as refractory anemia with excess of blasts (RAEB-II).Immunophenotyping was positive for CD11b, CD11c, CD10, CD13, CD15, CD16 and CD33. We report, a novel and cytogenetically rare case of a biclonal MDS with complex chromosomal aberrations and deletion of RB1-gene in both clones. These findings are associated with a poor prognosis as the patient died 3 months after diagnosis.</p>

Mol Cytogenet, 4(1), 8
2011

A rare case of t(11;22) in a mantle cell lymphoma like B-cell neoplasiaresulting in a fusion of IGL and CCND1: case report.

Cristiano Krings Rocha, Inka Praulich, Iris Gehrke, Michael Hallek, Karl-Anton Kreuzer

ABSTRACT: The chromosomal translocation (11;14)(q13;q32) rearranging the locus for cyclin D1 (CCND1) to that of the immunoglobulin heavy chain (IGH) can be found in virtually all cases of mantle cell lymphoma (MCL), while other CCND1 translocations are extremely rare. As CCND1 overexpression and activation is a hallmark of MCL it is regarded as a central biological mechanism in the development and maintenance of this disease.Here we present a patient initially diagnosed with chronic lymphocytic leukemia (CLL) where chromosome banding analysis revealed, among other aberrations, a translocation (11;22)(q13;q11.2). We show by fluorescence in situ hybridization (FISH) analysis that on chromosome 22 the immunoglobulin light chain lambda (IGL) is involved in this cytogenetic aberration. Additionally, we demonstrate the resulting overexpression of CCND1 on the RNA and protein level, thereby consolidating the new diagnosis of a MCL-like B-cell neoplasia. Summing up, we described a rare case of t(11;22)(q13;q11.2) in a MCL-like neoplasia and showed that this aberration leads to an overexpression of CCND1 which is regarded as a key biological feature in MCL. This case underlines the importance of cytogenetic analyses especially in atypical cases of B cell lymphomas.

Methods Mol Biol, 730, 203–218
2011

The use of M-FISH and M-BAND to define chromosome abnormalities.

Ruth N. Mackinnon, Ilse Chudoba

Multicolour fluorescence in situ hybridisation (M-FISH) and multicolour banding (M-BAND) are advanced chromosome painting techniques combining multiple chromosome- or region-specific paints in one step. M-FISH identifies all chromosomes or chromosome arms at once, whereas M-BAND identifies the different regions of a single chromosome. The use of either or both can improve the accuracy of karyotyping and help identify cryptic chromosome rearrangements. These probes are prepared by pooling multiple chromosome- or chromosome region-specific DNA libraries, each labelled with a unique combination of fluorochromes. Commercial probes are available, avoiding the need for probe preparation. In the protocol described here, a commercial probe is used. Well-spread metaphases are prepared according to standard techniques, followed by alkaline denaturation and application of the denatured probe. After an incubation period, the slides are washed. A fluorescence microscope with filter sets specific to the fluorescent labels is used for analysis, together with specialised image analysis software. The software interprets the combination of fluorochromes to identify each chromosome and produce a false colour image specific for each chromosome or region. The single colour galleries - which show the hybridisation patterns of the individual fluorochromes - are useful to help interpret and confirm the false colour images produced by the software, including ambiguous signals.

Mutat Res, 701(1), 52–59
August, 2010

Complex exchanges are responsible for the increased effectivenessof C-ions compared to X-rays at the first post-irradiation mitosis.

Ryonfa Lee, Sylwester Sommer, Carola Hartel, Elena Nasonova, Marco Durante, Sylvia Ritter

<p>The purpose of the present study was to investigate as to what extent differences in the linear energy transfer (LET) are reflected at the chromosomal level. For this study human lymphocytes were exposed to 9.5 MeV/u C-ions (1 or 2 Gy, LET=175 keV/microm) or X-rays (1-6 Gy), harvested at 48, 72 or 96 h post-irradiation and aberrations were scored in first cycle metaphases using 24 color fluorescence in situ hybridization (mFISH). Additionally, in selected samples aberrations were measured in prematurely condensed G2-phase cells. Analysis of the time-course of aberrations in first cycle metaphases showed a stable yield of simple and complex exchanges after X-ray irradiation. In contrast, after C-ion exposure the yields profoundly increased with harvesting time complicating the estimation of the frequency of aberrations produced by high LET particles within the entire cell population. This is especially true for the yield of complex exchanges. Complex aberrations dominate the aberration spectrum produced by C-ions. Their fraction was about 50\% for the two measured doses. In contrast, isodoses of X-rays induced smaller proportions of complex aberrations (i.e. 5% and 15%, respectively). For both radiation qualities the fraction of complexes did not change with harvesting time. As expected from the different dose deposition of high and low LET radiation, complex exchanges produced by high LET C-ions involved more breaks and more chromosomes than those induced by isodoses of X-rays. Noteworthy, C-ions but not X-rays induced a small number of complex chromatid-isochromatid exchanges that are not expected for cells exposed in the G0-phase. The results obtained so far for cells arrested in G2-phase confirm these patterns. Altogether our data show that the increased effectiveness of C-ions for the induction of aberrations in first cycle cells is determined by complex exchanges, whereas for simple exchanges the relative biological effectiveness is about one.</p>

Leuk Res, 34(8), 1002–1006
August, 2010

Recurrent involvement of heterochromatic regions in multiple myeloma-amulticolor FISH study.

Kathrin Lange, Dorothea Gadzicki, Brigitte Schlegelberger, Gudrun Göhring

Chromosome aberrations are important prognostic markers in multiple myeloma (MM), but their identification may be hampered by complexity of the karyotypes. Using multicolor fluorescence in situ hybridization (mFISH), we found cryptic aberrations in 7 of 10 patients with a complex karyotype. Moreover, in addition to typical aberrations involving 1q, 13q, 14q and 17p and structural aberrations in chromosomes 1, 6, 9 and 19, (iso)dicentric chromosomes and whole-arm translocations were detected. These chromosome aberrations were generated by breaks in heterochromatic regions indicating an increased breakage of these regions, which may predispose to the generation of chromosome aberrations in multiple myeloma.

Radiat Res, 174(1), 20–26
July, 2010

Influence of nuclear geometry on the formation of genetic rearrangementsin human cells.

M. Durante, D. Pignalosa, J. A. Jansen, X. F. Walboomers, S. Ritter

Interphase chromosomes are divided into discrete domains, with limited overlapping and movement. We explored the role of nuclear topology in the formation of chromosome aberrations by irradiating normal human fibroblasts with high-energy heavy ions from different directions. Cells with elliptical nuclei were grown in an aligned manner onto micrometer grooved culturing substrates to have a predetermined orientation with respect to the accelerated iron ions. Particles were directed either perpendicular to the cell layer or along the major or minor axis of the nucleus. Analysis of chromosome aberrations by mFISH showed that, at the same radiation dose, the yield of chromosomal damage and its complexity are largely modified by the irradiation geometry. The results demonstrate that the architecture of the cell nucleus determines the formation of chromosomal rearrangements.

Cancer Genet Cytogenet, 200(2), 79–99
July, 2010

Transgenic oncogenes induce oncogene-independent cancers with individualkaryotypes and phenotypes.

Andreas Klein, Nan Li, Joshua M Nicholson, Amanda A McCormack, Adolf Graessmann, Peter Duesberg

Cancers are clones of autonomous cells defined by individual karyotypes, much like species. Despite such karyotypic evidence for causality, three to six synergistic mutations, termed oncogenes, are generally thought to cause cancer. To test single oncogenes, they are artificially activated with heterologous promoters and spliced into the germ line of mice to initiate cancers with collaborating spontaneous oncogenes. Because such cancers are studied as models for the treatment of natural cancers with related oncogenes, the following must be answered: 1) which oncogenes collaborate with the transgenes in cancers; 2) how do single transgenic oncogenes induce diverse cancers and hyperplasias; 3) what maintains cancers that lose initiating transgenes; 4) why are cancers aneuploid, over- and underexpressing thousands of normal genes? Here we try to answer these questions with the theory that carcinogenesis is a form of speciation. We postulate that transgenic oncogenes initiate carcinogenesis by inducing aneuploidy. Aneuploidy destabilizes the karyotype by unbalancing teams of mitosis genes. This instability thus catalyzes the evolution of new cancer species with individual karyotypes. Depending on their degree of aneuploidy, these cancers then evolve new subspecies. To test this theory, we have analyzed the karyotypes and phenotypes of mammary carcinomas of mice with transgenic SV40 tumor virus- and hepatitis B virus-derived oncogenes. We found that (1) a given transgene induced diverse carcinomas with individual karyotypes and phenotypes; (2) these karyotypes coevolved with newly acquired phenotypes such as drug resistance; (3) 8 of 12 carcinomas were transgene negative. Having found one-to-one correlations between individual karyotypes and phenotypes and consistent coevolutions of karyotypes and phenotypes, we conclude that carcinogenesis is a form of speciation and that individual karyotypes maintain cancers as they maintain species. Because activated oncogenes destabilize karyotypes and are dispensable in cancers, we conclude that they function indirectly, like carcinogens. Such oncogenes would thus not be valid models for the treatment of cancers.

Radiat Res, 174(1), 14–19
July, 2010

Inversions in chromosome 10 of human thyroid cells induced by acceleratedheavy ions.

D. Pignalosa, S. Ritter, M. Durante

Papillary thyroid carcinoma (PTC) is a known radiation-induced tumor. Rearrangements in human chromosome 10 and in particular intrachromosomal exchanges are often associated with PTC formation. In this study we measured intrachromosomal exchanges in human thyroid follicular cells exposed to sparsely or densely ionizing radiation. Assuming that inversions in chromosome 10 are a biomarker of PTC risk, we estimated the relative biological effectiveness (RBE) of heavy ions using a molecular marker in vitro. The analysis of chromosomal aberrations was performed with the mBAND technique, which allows detection of both inter- and intrachromosomal exchanges. Our results do not show any significant increase in the yield of intrachanges in samples exposed to heavy ions compared to X rays. Within the constraints imposed by the experimental model we used, we conclude that heavy ions would not necessarily be more effective than X rays in the induction of thyroid cancer.

Mutat Res
March, 2010

mBAND analysis of chromosome aberrations in human epithelial cellsinduced by gamma-rays and secondary neutrons of low dose rate.

M. Hada, B. Gersey, P. B. Saganti, R. Wilkins, F. A. Cucinotta, H. Wu

Human risks from chronic exposures to both low- and high-LET radiation are of intensive research interest in recent years. In the present study, human epithelial cells were exposed in vitro to gamma-rays at a dose rate of 17mGy/h or secondary neutrons of 25mGy/h. The secondary neutrons have a broad energy spectrum that simulates the Earth's atmosphere at high altitude, as well as the environment inside spacecrafts like the Russian MIR station and the International Space Station (ISS). Chromosome aberrations in the exposed cells were analyzed using the multicolor banding in situ hybridization (mBAND) technique with chromosome 3 painted in 23 colored bands that allows identification of both inter- and intrachromosome exchanges including inversions. Comparison of present dose responses between gamma-rays and neutron irradiations for the fraction of cells with damaged chromosome 3 yielded a relative biological effectiveness (RBE) value of 26+/-4 for the secondary neutrons. Our results also revealed that secondary neutrons of low dose rate induced a higher fraction of intrachromosome exchanges than gamma-rays, but the fractions of inversions observed between these two radiation types were indistinguishable. Similar to the previous findings after acute radiation exposures, most of the inversions observed in the present study were accompanied by other aberrations. The fractions of complex type aberrations and of unrejoined chromosomal breakages were also found to be higher in the neutron-exposed cells than after gamma-rays. We further analyzed the location of the breaks involved in chromosome aberrations along chromosome 3, and observed hot spots after gamma-ray, but not neutron, exposures.

Radiother Oncol, 95, 73-78
2010

Chromosomal aberrations in peripheral blood lymphocytes of prostatecancer patients treated with IMRT and carbon ions.

Carola Hartel, Anna Nikoghosyan, Marco Durante, Sylwester Sommer, Elena Nasonova, Claudia Fournier, Ryonfa Lee, Jürgen Debus, Daniela Schulz-Ertner, Sylvia Ritter

BACKGROUND AND PURPOSE: To investigate the cytogenetic damage in blood lymphocytes of patients treated for prostate cancer with different radiation qualities and target volumes. MATERIALS AND METHODS: Twenty patients receiving carbon-ion boost irradiation followed by IMRT or IMRT alone for the treatment of prostate cancer entered the study. Cytogenetic damage induced in peripheral blood lymphocytes of these patients was investigated at different times during the radiotherapy course using Giemsa staining and mFISH. A blood sample from each patient was taken before initiation of radiation therapy and irradiated in vitro to test for individual radiosensitivity. In addition, in vitro dose-effect curves for the induction of chromosomal exchanges by X-rays and carbon ions of different energies were measured. RESULTS: The yield of chromosome aberrations increased during the therapy course, and the frequency was lower in patients irradiated with carbon ions as compared to patients treated with IMRT with similar target volumes. A higher frequency of aberrations was measured by increasing the target volume. In vitro, high-LET carbon ions were more effective than X-rays in inducing aberrations and yielded a higher fraction of complex exchanges. The yield of complex aberrations observed in vivo was very low. CONCLUSION: The investigation showed no higher aberration yield induced by treatment with a carbon-ion boost. In contrast, the reduced integral dose to the normal tissue is reflected in a lower chromosomal aberration yield when a carbon-ion boost is used instead of IMRT alone. No cytogenetic #signature# of exposure to densely ionizing carbon ions could be detected in vivo.

Int J Radiat Biol, 85(11), 1051–1059
November, 2009

Response of human hematopoietic stem and progenitor cells to energeticcarbon ions.

Daniela Becker, Thilo Elsässer, Torsten Tonn, Erhard Seifried, Marco Durante, Sylvia Ritter, Claudia Fournier

To characterise the radiation response of human hematopoietic stem and progenitor cells (HSPC) with respect to X and carbon ion irradiation.HSPC from peripheral blood of healthy donors treated with granulocyte-colony stimulating factor (G-CSF) were enriched for the transmembrane glycoprotein CD34 (cluster of differentiation) and irradiated with X rays or carbon ions (29 keV/microm monoenergetic beam and 60-85 keV/microm spread-out Bragg peak), mimicking radiotherapy conditions. Apoptotic cell death, cell cycle progression and the frequency of chromosomal aberrations were determined.After radiation exposure no inhibition in the progression of the cell cycle was detected. However, an enhanced frequency of apoptotic cells and an increase in aberrant cells were observed, both effects being more pronounced for carbon ions than X rays, resulting in a relative biological effectiveness (RBE) of 1.4-1.7. The fraction of complex-type aberrations was higher following carbon ion exposure.RBE values of carbon ions are low, as expected for radiosensitive cells. The observed frequencies of apoptotic cells and chromosome aberrations in HSPC are similar to those reported for human peripheral blood lymphocytes suggesting that at least with respect to apoptosis and chromosomal aberrations mature lymphocytes reflect the respective radiation responses of their proliferating progenitors.

Cancer Genet Cytogenet, 193(2), 123–126
September, 2009

A case of childhood acute myeloid leukemia AML (M5) with a neocentricchromosome neo(1)(qter–>q23 approximately 24::q23 approximately24–>q43–>neo–>q43–>qter) and tetrasomy of chromosomes 8 and 21.

de Figueiredo, Amanda Faria, Hasmik Mkrtchyan, Thomas Liehr, Eliane Maria Soares Ventura, de Jesus Marques-Salles, Terezinha, Neide Santos, Raul Corrêa Ribeiro, Eliana Abdelhay, Maria Luiza Macedo Silva

Hyperdiploidy is rarely observed in childhood acute myeloid leukemia (AML). Described here is the case of a 2(1/2)-year-old girl with AML-M5 and 51 chromosomes characterized by double tetrasomy of chromosomes 8 and 21 and also a neocentric derivative chromosome neo(1)(qter–>q23 approximately 24::q23 approximately 24–>q43–>neo–>q43–>qter). Little is known about the prognostic significance of these chromosomal abnormalities in childhood AML. In the actual case, complete remission was achieved after chemotherapy, which continued for 7 months. No acquired neocentric chromosome 1 has been described previously, even though neocentromere formation has been reported for other chromosomes in neoplasms.