Your search keyword '"Gomolka, Maria"' showing total 34 results

1. The Chromosome Passenger Complex (CPC) Components and Its Associated Pathways Are Promising Candidates to Differentiate Between Normosensitive and Radiosensitive ATM-Mutated Cells.

Author

Dietz, Anne, Subedi, Prabal, Azimzadeh, Omid, Duchrow, Lukas, Kaestle, Felix, Paetzold, Juliane, Katharina Payer, Sarah, Hornhardt, Sabine, von Toerne, Christine, Hauck, Stefanie M, Kempkes, Bettina, Kuklik-Roos, Cornelia, Brandes, Danielle, Borkhardt, Arndt, Moertl, Simone, and Gomolka, Maria

Subjects

CELL cycle, ATAXIA telangiectasia, CELL survival, RADIATION tolerance, CHROMOSOMES, DNA repair

Abstract

Background: Sensitivity to ionizing radiation differs between individuals, but there is a limited understanding of the biological mechanisms that account for these variations. One example of such mechanisms are the mutations in the ATM (mutated ataxia telangiectasia) gene, that cause the rare recessively inherited disease Ataxia telangiectasia (AT). Hallmark features include chromosomal instability and increased sensitivity to ionizing radiation (IR). Objectives: To deepen the molecular understanding of radiosensitivity and to identify potential new markers to predict it, human ATM-mutated and proficient cells were compared on a proteomic level. Design: In this study, we analyzed 3 cell lines from AT patients, with varying radiosensitivity, and 2 cell lines from healthy volunteers, 24 hours and 72 hours post-10 Gy irradiation Methods: We used label-free mass spectrometry to identify differences in signaling pathways after irradiation in normal and radiosensitive individuals. Cell viability was initially determined by water soluble tetrazolium (WST) assay and DNA damage response was analyzed with 53BP1 repair foci formation along with KRAB-associated protein 1 (KAP1) phosphorylation. Results: Proteomic analysis identified 4028 proteins, which were used in subsequent in silico pathway enrichment analysis to predict affected biological pathways post-IR. In AT cells, networks were heterogeneous at both time points with no common pathway identified. Mitotic cell cycle progress was the most prominent pathway altered after IR in cells from healthy donors. In particular, components of the chromosome passenger complex (INCENP and CDCA8) were significantly downregulated after 72 hours. This could also be verified at the mRNA level. Conclusion: Altogether, the most striking result was that proteins forming the chromosome passenger complex were downregulated after radiation exposure in healthy normosensitive control cells, but not in radiosensitive ATM-deficient cells. Thus, mitosis-associated proteins form an interesting compound to gain insights into the development and prediction of radiosensitivity. [ABSTRACT FROM AUTHOR]

Published

2024

2. Towards unravelling biological mechanisms behind radiation-induced oral mucositis via mass spectrometry-based proteomics.

Author

Subedi, Prabal, Huber, Katharina, Sterr, Christoph, Dietz, Anne, Strasser, Lukas, Kaestle, Felix, Hauck, Stefanie M., Duchrow, Lukas, Aldrian, Christine, Ordonez, Elsa Beatriz Monroy, Luka, Benedikt, Thomsen, Andreas R., Henke, Michael, Gomolka, Maria, Rößler, Ute, Azimzadeh, Omid, Moertl, Simone, and Hornhardt, Sabine

Subjects

MUCOSITIS, PROTEOMICS, IONIZING radiation, HEAD & neck cancer, KERATINOCYTES

Abstract

Objective: Head and neck cancer (HNC) accounts for almost 890,000 new cases per year. Radiotherapy (RT) is used to treat the majority of these patients. A common side-effect of RT is the onset of oral mucositis, which decreases the quality of life and represents the major dose-limiting factor in RT. To understand the origin of oral mucositis, the biological mechanisms post-ionizing radiation (IR) need to be clarified. Such knowledge is valuable to develop new treatment targets for oral mucositis and markers for the early identification of "at-risk" patients. Methods: Primary keratinocytes from healthy volunteers were biopsied, irradiated in vitro (0 and 6 Gy), and subjected to mass spectrometry-based analyses 96 h after irradiation. Web-based tools were used to predict triggered biological pathways. The results were validated in the OKF6 cell culture model. Immunoblotting and mRNA validation was performed and cytokines present in cell culture media post-IR were quantified. Results: Mass spectrometry-based proteomics identified 5879 proteins in primary keratinocytes and 4597 proteins in OKF6 cells. Amongst them, 212 proteins in primary keratinocytes and 169 proteins in OKF6 cells were differentially abundant 96 h after 6 Gy irradiation compared to sham-irradiated controls. In silico pathway enrichment analysis predicted interferon (IFN) response and DNA strand elongation pathways as mostly affected pathways in both cell systems. Immunoblot validations showed a decrease in minichromosome maintenance (MCM) complex proteins 2-7 and an increase in IFN-associated proteins STAT1 and ISG15. In line with affected IFN signalling, mRNA levels of IFNb and interleukin 6 (IL-6) increased significantly following irradiation and also levels of secreted IL-1b, IL-6, IP-10, and ISG15 were elevated. Conclusion: This study has investigated biological mechanisms in keratinocytes post-in vitro ionizing radiation. A common radiation signature in keratinocytes was identified. The role of IFN response in keratinocytes along with increased levels of pro-inflammatory cytokines and proteins could hint towards a possible mechanism for oral mucositis. [ABSTRACT FROM AUTHOR]

Published

2023

3. International expert group collaboration for developing an adverse outcome pathway for radiation induced leukemia.

Author

Klokov, Dmitry, Applegate, Kimberly, Badie, Christophe, Brede, Dag Anders, Dekkers, Fieke, Karabulutoglu, Melis, Le, Yevgeniya, Rutten, Eric Andreas, Lumniczky, Katalin, and Gomolka, Maria

Subjects

LEUKEMIA, ACUTE myeloid leukemia, IONIZING radiation, RADIATION protection, RADIATION

Abstract

The concept of the adverse outcome pathway (AOP) has recently gained significant attention as to its potential for incorporation of mechanistic biological information into the assessment of adverse health outcomes following ionizing radiation (IR) exposure. This work is an account of the activities of an international expert group formed specifically to develop an AOP for IR-induced leukemia. Group discussions were held during dedicated sessions at the international AOP workshop jointly organized by the MELODI (Multidisciplinary European Low Dose Initiative) and the ALLIANCE (European Radioecology Alliance) associations to consolidate knowledge into a number of biological key events causally linked by key event relationships and connecting a molecular initiating event with the adverse outcome. Further knowledge review to generate a weight of evidence support for the Key Event Relationships (KERs) was undertaken using a systematic review approach. An AOP for IR-induced acute myeloid leukemia was proposed and submitted for review to the OECD-curated AOP-wiki (aopwiki.org). The systematic review identified over 500 studies that link IR, as a stressor, to leukemia, as an adverse outcome. Knowledge gap identification, although requiring a substantial effort via systematic review of literature, appears to be one of the major added values of the AOP concept. Further work, both within this leukemia AOP working group and other similar working groups, is warranted and is anticipated to produce highly demanded products for the radiation protection research community. [ABSTRACT FROM AUTHOR]

Published

2022

4. Gene expression for biodosimetry and effect prediction purposes: promises, pitfalls and future directions – key session ConRad 2021.

Author

Ostheim, Patrick, Amundson, Sally A., Badie, Christophe, Bazyka, Dimitry, Evans, Angela C., Ghandhi, Shanaz A., Gomolka, Maria, López Riego, Milagrosa, Rogan, Peter K., Terbrueggen, Robert, Woloschak, Gayle E., Zenhausern, Frederic, Kaatsch, Hanns L., Schüle, Simone, Ullmann, Reinhard, Port, Matthias, and Abend, Michael

Subjects

GENE expression, RADIATION injuries, POINT-of-care testing, NUCLEOTIDE sequencing, FORECASTING

Abstract

In a nuclear or radiological event, an early diagnostic or prognostic tool is needed to distinguish unexposed from low- and highly exposed individuals with the latter requiring early and intensive medical care. Radiation-induced gene expression (GE) changes observed within hours and days after irradiation have shown potential to serve as biomarkers for either dose reconstruction (retrospective dosimetry) or the prediction of consecutively occurring acute or chronic health effects. The advantage of GE markers lies in their capability for early (1–3 days after irradiation), high-throughput, and point-of-care (POC) diagnosis required for the prediction of the acute radiation syndrome (ARS). As a key session of the ConRad conference in 2021, experts from different institutions were invited to provide state-of-the-art information on a range of topics including: (1) Biodosimetry: What are the current efforts to enhance the applicability of this method to perform retrospective biodosimetry? (2) Effect prediction: Can we apply radiation-induced GE changes for prediction of acute health effects as an approach, complementary to and integrating retrospective dose estimation? (3) High-throughput and point-of-care diagnostics: What are the current developments to make the GE approach applicable as a high-throughput as well as a POC diagnostic platform? (4) Low level radiation: What is the lowest dose range where GE can be used for biodosimetry purposes? (5) Methodological considerations: Different aspects of radiation-induced GE related to more detailed analysis of exons, transcripts and next-generation sequencing (NGS) were reported. [ABSTRACT FROM AUTHOR]

Published

2022

5. Advanced Omics and Radiobiological Tissue Archives: The Future in the Past.

Author

Azimzadeh, Omid, Gomolka, Maria, Birschwilks, Mandy, Saigusa, Shin, Grosche, Bernd, and Moertl, Simone

Abstract

Archival formalin-fixed, paraffin-embedded (FFPE) tissues and their related diagnostic records are an invaluable source of biological information. The archival samples can be used for retrospective investigation of molecular fingerprints and biomarkers of diseases and susceptibility. Radiobiological archives were set up not only following clinical performance such as cancer diagnosis and therapy but also after accidental and occupational radiation exposure events where autopsies or cancer biopsies were sampled. These biobanks provide unique and often irreplaceable materials for the understanding of molecular mechanisms underlying radiation-related biological effects. In recent years, the application of rapidly evolving "omics" platforms, including transcriptomics, genomics, proteomics, metabolomics and sequencing, to FFPE tissues has gained increasing interest as an alternative to fresh/frozen tissue. However, omics profiling of FFPE samples remains a challenge mainly due to the condition and duration of tissue fixation and storage, and the extraction methods of biomolecules. Although biobanking has a long history in radiation research, the application of omics to profile FFPE samples available in radiobiological archives is still young. Application of the advanced omics technologies on archival materials provides a new opportunity to understand and quantify the biological effects of radiation exposure. These newly generated omics data can be well integrated into results obtained from earlier experimental and epidemiological analyses to shape a powerful strategy for modelling and evaluating radiation effects on health outcomes. This review aims to give an overview of the unique properties of radiation biobanks and their potential impact on radiation biology studies. Studies recently performed on FFPE samples from radiobiology archives using advanced omics are summarized. Furthermore, the compatibility of archived FFPE tissues for omics analysis and the major challenges that lie ahead are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

6. Radiation field and dose inhomogeneities using an X‐ray cabinet in radiation biology research.

Author

Bucher, Martin, Trinkl, Sebastian, Endesfelder, David, Weiss, Tina, Gomolka, Maria, Pätzold, Juliane, Lechel, Ursula, Roessler, Ute, de las Heras Gala, Hugo, Moertl, Simone, and Giussani, Augusto

Subjects

RADIOBIOLOGY, PHYSIOLOGICAL effects of radiation, RADIATION dosimetry, RADIATION sources, RADIATION protection, RADIATION doses

Abstract

Purpose: X‐ray cabinets are replacing 137Cs/60Co sources in radiation biology research due to advantages in size, handling, and radiation protection. However, because of their different physical properties, X‐ray cabinets are more susceptible to experimental influences than conventional sources. The aim of this study was to examine the variations related to the experimental setups typically used to investigate biological radiation effects with X‐ray cabinets. Materials and methods: A combined approach of physical dose measurements by thermoluminescence dosimetry and detection of biological effects by quantification of γH2AX and 53BP1 foci was used to analyze field inhomogeneity and evaluate the influence of the components of the experimental setup. Results: Irradiation was performed using an X‐ray tube (195 kV, 10 mA, 0.5‐mm‐thick copper filter, dose rate of 0.59 Gy/min). Thermoluminescence dosimetry revealed inhomogeneity and a dose decrease of up to 42.3% within the beam area (diameter 31.1 cm) compared to the dose at the center. This dose decrease was consistent with the observed decline in the number of radiation‐induced foci by up to 55.9 %. Uniform dose distribution was measured after reducing the size of the radiation field (diameter 12.5 cm). However, when using 15‐ml test tubes placed at different positions within this field, the dose decreased by up to 17% in comparison to the central position. Analysis of foci number revealed significant differences between the tubes for γH2AX (1 h) and 53BP1 (4 h) at different time points after irradiation. Neither removal of some tubes nor of the caps improved the dose decrease significantly. By contrast, when using 1.5‐ml tubes, dose differences were less than 4%, and no significant differences in foci number were detected. Conclusion: X‐ray cabinets are user‐friendly irradiation units for investigating biological radiation effects. However, field inhomogeneities and experimental setup components considerably affect the delivered irradiation doses. For this reason, strict dosimetric monitoring of experimental irradiation setups is mandatory for reliable studies. [ABSTRACT FROM AUTHOR]

Published

2021

7. Comparison of inexperienced operators and experts in γH2A.X and 53BP1 foci assay for high-throughput biodosimetry approaches in a mass casualty incident.

Author

Bucher, Martin, Duchrow, Lukas, Endesfelder, David, Roessler, Ute, and Gomolka, Maria

Subjects

MASS casualties, IONIZING radiation, MICROSCOPY, FIRE assay, RADIATION exposure

Abstract

In case of population exposure by ionizing radiation, a fast and reliable dose assessment of exposed and non-exposed individuals is crucial important. In initial triage, physicians have to take fast decisions whom to treat with adequate medical care. In addition, worries about significant exposure can be taken away from hundreds to thousands non- or low exposed individuals. Studies have shown that the γH2A.X radiation-induced foci assay is a promising test for fast triage decisions. However, in a large-scale scenario most biodosimetry laboratories will quickly reach their capacity limit. The aim of this study was to evaluate the benefit of inexperienced experimenters to speed up the foci assay and manual foci scoring. The participants of two training courses performed the radiation-induced foci assay (γH2A.X) under the guidance of experts and scored foci (γH2A.X and 53BP1) on sham-irradiated and irradiated blood samples (0.05–1.5 Gy). The outcome of laboratory experiments and manual foci scoring by 26 operators with basic experience in laboratory work was statistically analyzed in comparison to the results from experts. Inexperienced operators prepared slides with significant dose-effects (0, 0.1 and 1.0 Gy) for semi-automatic microscopic analyses. Manual foci scoring by inexperienced scorer resulted in a dose–effect curve for γH2A.X, 53BP1 and co-localized foci. In addition, inexperienced scorers were able to distinguish low irradiation doses from unirradiated cells. While 53BP1 foci scoring was in accordance to the expert counting, differences between beginners and expert increased for γH2A.X or co-localized foci. In case of a large-scale radiation event, inexperienced staff is useful to support laboratories in slide preparation for semi-automatic foci counting as well as γH2A.X and 53BP1 manual foci scoring for triage-mode biodosimetry. Slides can be clearly classified in the non-, low- or high-exposed category. [ABSTRACT FROM AUTHOR]

Published

2020

8. Potential screening assays for individual radiation sensitivity and susceptibility and their current validation state.

Author

Gomolka, Maria, Blyth, Benjamin, Bourguignon, Michel, Badie, Christophe, Schmitz, Annette, Talbot, Christopher, Hoeschen, Christoph, and Salomaa, Sisko

Subjects

RADIATION exposure, TEST systems, RADIATION

Abstract

Purpose: The workshop on 'Individual Radiosensitivity and Radiosusceptibility' organized by MELODI and CONCERT on Malta in 2018, evaluated the current state of assays to identify sensitive and susceptible subgroups. The authors provide an overview on potential screening assays detecting individuals showing moderate to severe early and late radiation reactions or are at increased risk to develop cancer upon radiation exposure. Conclusion: It is necessary to separate clearly between tissue reactions and stochastic effects such as cancer when comparing the existing literature to validate various test systems. Requirements for the assays are set up. The literature is reviewed for assays that are reliable and robust. Sensitivity and specificity of the assays are regarded and scrutinized for modifying factors. Accuracy of an assay system is required to be more than 90% to balance risks of adverse reactions against risk to fail to cure the cancer. No assay/biomarker is in routine use. Assays that have shown predictive potential for radiosensitivity include SNPs, the RILA assay, and the pATM assay. A tree of risk guideline for radiologists is provided to assist medical treatment decisions. Recommendations for effective research include the setup of common retrospective and prospective cohorts/biobanks to validate current and future tests. [ABSTRACT FROM AUTHOR]

Published

2020

9. Automated scoring of dicentric chromosomes differentiates increased radiation sensitivity of young children after low dose CT exposure in vitro.

Author

Oestreicher, Ursula, Endesfelder, David, Gomolka, Maria, Kesminiene, Ausrele, Lang, Peter, Lindholm, Carita, Rößler, Ute, Samaga, Daniel, and Kulka, Ulrike

Subjects

CHROMOSOMES, RADIATION doses, COMPUTED tomography, AGE groups, BIOLOGICAL tags, MOLECULAR epidemiology

Abstract

Purpose: Automated detection of dicentric chromosomes from a large number of cells was applied to study age-dependent radiosensitivity after in vitro CT exposure of blood from healthy donors. Materials and methods: Blood samples from newborns, children (2-5 years) and adults (20-50 years) were exposed in vitro to 0 mGy, 41 mGy and 978 mGy using a CT equipment. In this study, automated scoring based on 13,000-31,000 cells/dose point/age group was performed. Results for control and low dose points were validated by manually counting about 26,000 cells/dose point/age group. Results: For all age groups, the high number of analyzed cells enabled the detection of a significant increase in the frequency of radiation induced dicentric chromosomes in cells exposed to 41 mGy as compared to control cells. Moreover, differences between the age groups could be resolved for the low dose: young donors showed significantly increased risk for induced dicentrics at 41 mGy compared to adults. Conclusions: The results very clearly demonstrate that the automated dicentric scoring method is capable of discerning radiation induced biomarkers in the low dose range (<100 mGy) and thus may open possibilities for large-scale molecular epidemiology studies in radiation protection. [ABSTRACT FROM AUTHOR]

Published

2018

10. Lifetime study in mice after acute low-dose ionizing radiation: a multifactorial study with special focus on cataract risk.

Author

Dalke, Claudia, Neff, Frauke, Bains, Savneet Kaur, Bright, Scott, Lord, Deborah, Reitmeir, Peter, Rößler, Ute, Samaga, Daniel, Unger, Kristian, Braselmann, Herbert, Wagner, Florian, Greiter, Matthias, Gomolka, Maria, Hornhardt, Sabine, Kunze, Sarah, Kempf, Stefan J., Garrett, Lillian, Hölter, Sabine M., Wurst, Wolfgang, and Rosemann, Michael

Abstract

Because of the increasing application of ionizing radiation in medicine, quantitative data on effects of low-dose radiation are needed to optimize radiation protection, particularly with respect to cataract development. Using mice as mammalian animal model, we applied a single dose of 0, 0.063, 0.125 and 0.5 Gy at 10 weeks of age, determined lens opacities for up to 2 years and compared it with overall survival, cytogenetic alterations and cancer development. The highest dose was significantly associated with increased body weight and reduced survival rate. Chromosomal aberrations in bone marrow cells showed a dose-dependent increase 12 months after irradiation. Pathological screening indicated a dose-dependent risk for several types of tumors. Scheimpflug imaging of the lens revealed a significant dose-dependent effect of 1% of lens opacity. Comparison of different biological end points demonstrated long-term effects of low-dose irradiation for several biological end points. [ABSTRACT FROM AUTHOR]

Published

2018

11. Age-dependent differences in DNA damage after in vitro CT exposure.

Author

Gomolka, Maria, Oestreicher, Ursula, Rößler, Ute, Samaga, Daniel, Endesfelder, David, Lang, Peter, Neumaier, Klement, Belka, Claus, Niemeyer, Markus, Kiechle, Marion, Hasbargen, Uwe, Hübener, Christoph, Kirlum, Hans-Joachim, Kulka, Ulrike, Rosenberger, Albert, Walsh, Linda, Baatout, Sarah, Kesminiene, Ausrele, and Lindholm, Carita

Subjects

DNA damage, COMPUTED tomography, RADIATION exposure, GAMMA rays, CHILDREN'S health

Abstract

Purpose: Age dependent radiation sensitivity for DNA damage after in vitro blood exposure by computer tomography (CT) was investigated. Materials and methods: Radiation biomarkers (dicentrics and gammaH2AX) in blood samples of newborns, children under five years and adults after sham exposure (0 mGy), low-dose (41 mGy) and high-dose (978 mGy) in vitro CT exposure were analyzed. Results: Significantly higher levels of dicentric induction were found for the single and combined newborns/ children group compared to adults, by a factor of 1.48 (95% CI 1.30-1.68), after exposure to 978 mGy. Although a significant dose response for damage induction and dose-dependent repair was found, the gammaH2AX assay did not show an age-dependent increase in DNA damage in newborns/ children compared to adults. This was the case for the gammaH2AX levels after repair time intervals of 30 minutes and 24 hours, after correcting for the underlying background damage. For the low dose of 41 mGy, the power of the dicentric assay was also not sufficient to detect an age-dependent effect in the sample size investigated. Conclusion: A 1.5-fold increased level of dicentric aberrations is detected in newborns and children under five years after 1 Gy radiation exposure. [ABSTRACT FROM AUTHOR]

Published

2018

12. Biomarkers for Uranium Risk Assessment for the Development of the CURE (Concerted Uranium Research in Europe) Molecular Epidemiological Protocol.

Author

Guéguen, Yann, Roy, Laurence, Hornhardt, Sabine, Badie, Christophe, Hall, Janet, Baatout, Sarah, Pernot, Eileen, Tomasek, Ladislav, Laurent, Olivier, Ebrahimian, Teni, Ibanez, Chrystelle, Grison, Stephane, Kabacik, Sylwia, Laurier, Dominique, and Gomolka, Maria

Subjects

URANIUM, BIOLOGICAL tags, CENTRAL nervous system, DNA damage, HEALTH risk assessment

Abstract

Despite substantial experimental and epidemiological research, there is limited knowledge of the uranium-induce health effects after chronic low-dose exposures in humans. Biological markers can objectively characterize pathological processes or environmental responses to uranium and confounding agents. The integration of such biological markers into a molecular epidemiological study would be a useful approach to improve and refine estimations of uranium-induced health risks. To initiate such a study, Concerted Uranium Research in Europe (CURE) was established, and involves biologists, epidemiologists and dosimetrists. The aims of the biological work package of CURE were: 1. To identify biomarkers and biological specimens relevant to uranium exposure; 2. To define standard operating procedures (SOPs); and 3. To set up a common protocol (logistic, questionnaire, ethical aspects) to perform a large-scale molecular epidemiologic study in uranium-exposed cohorts. An intensive literature review was performed and led to the identification of biomarkers related to: 1. retention organs (lungs, kidneys and bone); 2. other systems/organs with suspected effects (cardiovascular system, central nervous system and lympho-hematopoietic system); 3. target molecules (DNA damage, genomic instability); and 4. high-throughput methods for the identification of new biomarkers. To obtain high-quality biological materials, SOPs were established for the sampling and storage of different biospecimens. A questionnaire was developed to assess potential confounding factors. The proposed strategy can be adapted to other internal exposures and should improve the characterization of the biological and health effects that are relevant for risk assessment. [ABSTRACT FROM AUTHOR]

Published

2017

13. Natural Cubic Spline Regression Modeling Followed by Dynamic Network Reconstruction for the Identification of Radiation-Sensitivity Gene Association Networks from Time-Course Transcriptome Data.

Author

Michna, Agata, Braselmann, Herbert, Selmansberger, Martin, Dietz, Anne, Hess, Julia, Gomolka, Maria, Hornhardt, Sabine, Blüthgen, Nils, Zitzelsberger, Horst, and Unger, Kristian

Subjects

GENE regulatory networks, RADIATION-sensitizing agents, GENETIC transcription, APOPTOSIS, SPLINE theory, REGRESSION analysis

Abstract

Gene expression time-course experiments allow to study the dynamics of transcriptomic changes in cells exposed to different stimuli. However, most approaches for the reconstruction of gene association networks (GANs) do not propose prior-selection approaches tailored to time-course transcriptome data. Here, we present a workflow for the identification of GANs from time-course data using prior selection of genes differentially expressed over time identified by natural cubic spline regression modeling (NCSRM). The workflow comprises three major steps: 1) the identification of differentially expressed genes from time-course expression data by employing NCSRM, 2) the use of regularized dynamic partial correlation as implemented in GeneNet to infer GANs from differentially expressed genes and 3) the identification and functional characterization of the key nodes in the reconstructed networks. The approach was applied on a time-resolved transcriptome data set of radiation-perturbed cell culture models of non-tumor cells with normal and increased radiation sensitivity. NCSRM detected significantly more genes than another commonly used method for time-course transcriptome analysis (BETR). While most genes detected with BETR were also detected with NCSRM the false-detection rate of NCSRM was low (3%). The GANs reconstructed from genes detected with NCSRM showed a better overlap with the interactome network Reactome compared to GANs derived from BETR detected genes. After exposure to 1 Gy the normal sensitive cells showed only sparse response compared to cells with increased sensitivity, which exhibited a strong response mainly of genes related to the senescence pathway. After exposure to 10 Gy the response of the normal sensitive cells was mainly associated with senescence and that of cells with increased sensitivity with apoptosis. We discuss these results in a clinical context and underline the impact of senescence-associated pathways in acute radiation response of normal cells. The workflow of this novel approach is implemented in the open-source Bioconductor R-package splineTimeR. [ABSTRACT FROM AUTHOR]

Published

2016

14. Differential Response and Priming Dose Effect on the Proteome of Human Fibroblast and Stem Cells Induced by Exposure to Low Doses of Ionizing Radiation.

Author

Hauptmann, Monika, Haghdoost, Siamak, Gomolka, Maria, Sarioglu, Hakan, Ueffing, Marius, Dietz, Anne, Kulka, Ulrike, Unger, Kristian, Babini, Gabriele, Harms-Ringdahl, Mats, Ottolenghi, Andrea, and Hornhardt, Sabine

Subjects

PROTEOMICS, FIBROBLASTS, STEM cells, LOW dose rate brachytherapy, IONIZING radiation

Abstract

It has been suggested that a mechanistic understanding of the cellular responses to low dose and dose rate may be valuable in reducing some of the uncertainties involved in current risk estimates for cancer- and non-cancer-related radiation effects that are inherited in the linear no-threshold hypothesis. In this study, the effects of low-dose radiation on the proteome in both human fibroblasts and stem cells were investigated. Particular emphasis was placed on examining: 1. the dose-response relationships for the differential expression of proteins in the low-dose range (40-140 mGy) of low-linear energy transfer (LET) radiation; and 2. the effect on differential expression of proteins of a priming dose given prior to a challenge dose (adaptive response effects). These studies were performed on cultured human fibroblasts (VH10) and human adipose-derived stem cells (ADSC). The results from the VH10 cell experiments demonstrated that low-doses of low-LET radiation induced unique patterns of differentially expressed proteins for each dose investigated. In addition, a low priming radiation dose significantly changed the protein expression induced by the subsequent challenge exposure. In the ADSC the number of differentially expressed proteins was markedly less compared to VH10 cells, indicating that ADSC differ in their intrinsic response to low doses of radiation. The proteomic results are further discussed in terms of possible pathways influenced by low-dose irradiation. [ABSTRACT FROM AUTHOR]

Published

2016

15. EPI-CT: in vitro assessment of the applicability of the γ-H2AX-foci assay as cellular biomarker for exposure in a multicentre study of children in diagnostic radiology.

Author

Vandevoorde, Charlot, Gomolka, Maria, Roessler, Ute, Samaga, Daniel, Lindholm, Carita, Fernet, Marie, Hall, Janet, Pernot, Eileen, El-Saghire, Houssein, Baatout, Sarah, Kesminiene, Ausrele, and Thierens, Hubert

Subjects

BIOMARKERS, PEDIATRIC radiology, MEDICAL radiology, DNA damage, BIOCHEMICAL genetics

Abstract

Purpose:To conduct a feasibility study on the application of the γ-H2AX foci assay as an exposure biomarker in a prospective multicentre paediatric radiology setting. Materials and methods:A set of in vitro experiments was performed to evaluate technical hurdles related to biological sample collection in a paediatric radiology setting (small blood sample volume), processing and storing of blood samples (effect of storing blood at 4°C), the reliability of foci scoring for low-doses (merge γ-H2AX/53BP1 scoring), as well as the impact of contrast agent administration as potential confounding factor. Given the exploratory nature of this study and the ethical constraints related to paediatric blood sampling, blood samples from adult volunteers were used for these experiments. In order to test the feasibility of pooling the γ-H2AX data when different centres are involved in an international multicentre study, two intercomparison studies in the low-dose range (10–500 mGy) were performed. Results:Determination of the number of X-ray induced γ-H2AX foci is feasible with one 2 ml blood sample pre- and post-computed tomography (CT) scan. Lymphocyte isolation and fixation on slides is necessary within 5 h of blood sampling to guarantee reliable results. The possible enhancement effect of contrast medium on the induction of DNA DSB in a patient study can be ruled out if radiation doses and the contrast agent concentration are within diagnostic ranges. The intercomparison studies using in vitro irradiated blood samples showed that the participating laboratories, executing successfully the γ-H2AX foci assay in lymphocytes, were able to rank blind samples in order of lowest to highest radiation dose based on mean foci/cell counts. The dose response of all intercomparison data shows that a dose point of 10 mGy could be distinguished from the sham-irradiated control (p= 0.006). Conclusions:The results demonstrate that it is feasible to apply the γ-H2AX foci assay as a cellular biomarker of exposure in a multicentre prospective study in paediatric CT imaging after validating it in an in vivo international pilot study on paediatric patients. [ABSTRACT FROM PUBLISHER]

Published

2015

16. New Mutation in the Mouse Xpd/Ercc2 Gene Leads to Recessive Cataracts.

Author

Kunze, Sarah, Dalke, Claudia, Fuchs, Helmut, Klaften, Matthias, Rössler, Ute, Hornhardt, Sabine, Gomolka, Maria, Puk, Oliver, Sabrautzki, Sibylle, Kulka, Ulrike, Hrabě de Angelis, Martin, and Graw, Jochen

Subjects

CATARACT, GENETIC mutation, DNA repair, CRYSTALLINE lens, HOMOZYGOSITY, NUCLEOTIDE sequencing, GENETICS

Abstract

Cataracts are the major eye disorder and have been associated mainly with mutations in lens-specific genes, but cataracts are also frequently associated with complex syndromes. In a large-scale high-throughput ENU mutagenesis screen we analyzed the offspring of paternally treated C3HeB/FeJ mice for obvious dysmorphologies. We identified a mutant suffering from rough coat and small eyes only in homozygotes; homozygous females turned out to be sterile. The mutation was mapped to chromosome 7 between the markers 116J6.1 and D7Mit294;4 other markers within this interval did not show any recombination among 160 F2-mutants. The critical interval (8.6 Mb) contains 3 candidate genes (Apoe, Six5, Opa3); none of them showed a mutation. Using exome sequencing, we identified a c.2209T>C mutation in the Xpd/Ercc2 gene leading to a Ser737Pro exchange. During embryonic development, the mutant eyes did not show major changes. Postnatal histological analyses demonstrated small cortical vacuoles; later, cortical cataracts developed. Since XPD/ERCC2 is involved in DNA repair, we checked also for the presence of the repair-associated histone γH2AX in the lens. During the time, when primary lens fiber cell nuclei are degraded, γH2AX was strongly expressed in the cell nuclei; later, it demarcates clearly the border of the lens cortex to the organelle-free zone. Moreover, we analyzed also whether seemingly healthy heterozygotes might be less efficient in repair of DNA damage induced by ionizing radiation than wild types. Peripheral lymphocytes irradiated by 1Gy Cs137 showed 6 hrs after irradiation significantly more γH2AX foci in heterozygotes than in wild types. These findings demonstrate the importance of XPD/ERCC2 not only for lens fiber cell differentiation, but also for the sensitivity to ionizing radiation. Based upon these data, we hypothesize that variations in the human XPD/ERCC2 gene might increase the susceptibility for several disorders besides Xeroderma pigmentosum in heterozygotes under particular environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2015

17. Radiation-induced alterations of histone posttranslational modification levels in lymphoblastoid cell lines.

Author

Maroschik, Belinda, Gürtler, Anne, Krämer, Anne, Rößler, Ute, Gomolka, Maria, Hornhardt, Sabine, Mörtl, Simone, and Friedl, Anna A.

Subjects

LYMPHOBLASTOID cell lines, LUNG cancer, DNA damage, HISTONES, GENETIC regulation

Abstract

Background Radiation-induced alterations in posttranslational histone modifications (PTMs) may affect the cellular response to radiation damage in the DNA. If not reverted appropriately, altered PTM patterns may cause long-term alterations in gene expression regulation and thus lead to cancer. It is therefore important to characterize radiation-induced alterations in PTM patterns and the factors affecting them. Methods A lymphoblastoid cell line established from a normal donor was used to screen for alterations in methylation levels at H3K4, H3K9, H3K27, and H4K20, as well as acetylation at H3K9, H3K56, H4K5, and H4K16, by quantitative Western Blot analysis at 15 min, 1 h and 24 h after irradiation with 2 Gy and 10 Gy. The variability of alterations in acetylation marks was in addition investigated in a panel of lymphoblastoid cell lines with differing radiosensitivity established from lung cancer patients. Results The screening procedure demonstrated consistent hypomethylation at H3K4me3 and hypoacetylation at all acetylation marks tested. In the panel of lymphoblastoid cell lines, however, a high degree of inter-individual variability became apparent. Radiosensitive cell lines showed more pronounced and longer lasting H4K16 hypoacetylation than radioresistant lines, which correlates with higher levels of residual γ-H2AX foci after 24 h. Conclusion So far, the factors affecting extent and duration of radiation-induced histone alterations are poorly defined. The present work hints at a high degree of inter-individual variability and a potential correlation of DNA damage repair capacity and alterations in PTM levels. [ABSTRACT FROM AUTHOR]

Published

2014

18. Are mouse lens epithelial cells more sensitive to γ-irradiation than lymphocytes?

Author

Bannik, Kristina, Rössler, Ute, Faus-Kessler, Theresa, Gomolka, Maria, Hornhardt, Sabine, Dalke, Claudia, Klymenko, Olena, Rosemann, Michael, Trott, Klaus-Rüdiger, Atkinson, Michael, Kulka, Ulrike, and Graw, Jochen

Abstract

In this pilot study we compared for the first time the radiation sensitivity of mouse lens epithelial cells (LECs) and mouse lymphocytes. We freshly prepared LECs and lymphocytes and irradiated them with γ-rays (Cs; doses ranging from 0.25 to 2 Gy). DNA damage and repair were evaluated by alkaline comet assay and γH2AX foci assay. Using the comet assay, we observed a dose-dependent increase in DNA damage in both cell types. The faster formation of single- and double-strand breaks in LECs of C57BL/6 mice at doses below 1 Gy needs to be confirmed in other mouse strains. Immunofluorescence for γH2AX foci showed a higher degree of lesions in LECs from C57BL/6J mice compared to those of JF1 mice and to lymphocytes of both strains. Correspondingly, repair of DNA damage proceeded faster in LECs of C57BL/6J mice compared to LECs of JF1 mice and lymphocytes of both strains. It is obvious that the lymphocytes of both strains repaired DNA lesions more slowly than the corresponding LECs. In conclusion, our results demonstrate that LECs of C57Bl/6 mice show a steeper dose-response than lymphocytes in both types of experiments. It shows that both test systems are able to be used also at doses below 0.25 Gy. The observed difference in DNA repair between the LECs from C57BL/6J mice compared to the LECs from JF1 mice and to the lymphocytes of both strains warrants further experiments to identify the underlying molecular mechanisms. [ABSTRACT FROM AUTHOR]

Published

2013

19. Evaluation of Different Biomarkers to Predict Individual Radiosensitivity in an Inter-Laboratory Comparison--Lessons for Future Studies.

Author

Greve, Burkhard, Bölling, Tobias, Amler, Susanne, Rössler, Ute, Gomolka, Maria, Mayer, Claudia, Popanda, Odilia, Dreffke, Kristin, Rickinger, Astrid, Fritz, Eberhard, Eckardt-Schupp, Friederike, Sauerland, Christina, Braselmann, Herbert, Sauter, Wiebke, Illig, Thomas, Riesenbeck, Dorothea, Könemann, Stefan, Willich, Normann, Mörtl, Simone, and Eich, Hans Theodor

Subjects

RADIOTHERAPY, TUMOR treatment, LYMPHOCYTES, LYMPHOBLASTOID cell lines, BIOMARKERS, RADIATION, CELL death

Abstract

Radiotherapy is a powerful cure for several types of solid tumours, but its application is often limited because of severe side effects in individual patients. With the aim to find biomarkers capable of predicting normal tissue side reactions we analysed the radiation responses of cells from individual head and neck tumour and breast cancer patients of different clinical radiosensitivity in a multicentric study. Multiple parameters of cellular radiosensitivity were analysed in coded samples of peripheral blood lymphocytes (PBLs) and derived lymphoblastoid cell lines (LCLs) from 15 clinical radio-hypersensitive tumour patients and compared to age- and sex-matched non-radiosensitive patient controls and 15 lymphoblastoid cell lines from age- and sex- matched healthy controls of the KORA study. Experimental parameters included ionizing radiation (IR)-induced cell death (AnnexinV), induction and repair of DNA strand breaks (Comet assay), induction of yH2AX foci (as a result of DNA double strand breaks), and whole genome expression analyses. Considerable inter-individual differences in IR- induced DNA strand breaks and their repair and/or cell death could be detected in primary and immortalised cells with the applied assays. The group of clinically radiosensitive patients was not unequivocally distinguishable from normal responding patients nor were individual overreacting patients in the test system unambiguously identified by two different laboratories. Thus, the in vitro test systems investigated here seem not to be appropriate for a general prediction of clinical reactions during or after radiotherapy due to the experimental variability compared to the small effect of radiation sensitivity. Genome-wide expression analysis however revealed a set of 67 marker genes which were differentially induced 6 h after in vitro-irradiation in lymphocytes from radio-hypersensitive and non-radiosensitive patients. These results warrant future validation in larger cohorts in order to determine parameters potentially predictive for clinical radiosensitivity. [ABSTRACT FROM AUTHOR]

Published

2012

20. Heritability of Radiation Response in Lung Cancer Families.

Author

Rosenberger, Albert, Rössler, Ute, Hornhardt, Sabine, Sauter, Wiebke, Bickeböller, Heike, Wichmann, H.-Erich, and Gomolka, Maria

Abstract

Radiation sensitivity is assumed to be a cancer susceptibility factor due to impaired DNA damage signalling and repair. Relevant genetic factors may also determine the observed familial aggregation of early onset lung cancer. We investigated the heritability of radiation sensitivity in families of 177 Caucasian cases of early onset lung cancer. In total 798 individuals were characterized for their radiation-induced DNA damage response. DNA damage analysis was performed by alkaline comet assay before and after in vitro irradiation of isolated lymphocytes. The cells were exposed to a dose of 4 Gy and allowed to repair induced DNA-damage up to 60 minutes. The primary outcome parameter Olive Tail Moment was the basis for heritability estimates. Heritability was highest for basal damage (without irradiation) 70% (95%-CI: 51%-88%) and initial damage (directly after irradiation) 65% (95%-CI: 47%-83%) and decreased to 20%-48% for the residual damage after different repair times. Hence our study supports the hypothesis that genomic instability represented by the basal DNA damage as well as radiation induced and repaired damage is highly heritable. Genes influencing genome instability and DNA repair are therefore of major interest for the etiology of lung cancer in the young. The comet assay represents a proper tool to investigate heritability of the radiation sensitive phenotype. Our results are in good agreement with other mutagen sensitivity assays. [ABSTRACT FROM AUTHOR]

Published

2012

21. Use of proteomics in radiobiological research: current state of the art.

Author

Tapio, Soile, Hornhardt, Sabine, Gomolka, Maria, Leszczynski, Dariusz, Posch, Anton, Thalhammer, Stefan, and Atkinson, Michael J.

Abstract

The article explores the application of proteomics in radiobiological research. Proteomics is considered a mature biological tool that can offer novel data about biochemical mechanisms that regulate cell physiology. One challenge in the field of proteomics is the reproducibility, particularly when applying 2D electrophoresis as an analytical tool. The author emphasizes the need to promote the discussion between radiation biologists and proteomics specialists and improve their future co-operation.

Published

2010

22. Assessment of mRNA and microRNA Stabilization in Peripheral Human Blood for Multicenter Studies and Biobanks.

Author

Weber, Daniel Gilbert, Casjens, Swaantje, Rozynek, Peter, Lehnert, Martin, Zilch-Schöneweis, Sandra, Bryk, Oleksandr, Taeger, Dirk, Gomolka, Maria, Kreuzer, Michaela, Otten, Heinz, Pesch, Beate, Johnen, Georg, and Brüning, Thomas

Subjects

MESSENGER RNA, MICRORNA, BLOOD testing, BIOMARKERS, RNA, BIOBANKS

Abstract

In this study we evaluate the suitability of two methods of RNA conservation in blood samples, PAXgene and RNAlater, in combination with variable shipping conditions for their application in multicenter studies and biobanking. RNA yield, integrity, and purity as well as levels of selected mRNA and microRNA species were analyzed in peripheral human blood samples stabilized by PAXgene or RNAlater and shipped on dry ice or at ambient temperatures from the study centers to the central analysis laboratory. Both examined systems were clearly appropriate for RNA stabilization in human blood independently of the shipping conditions. The isolated RNA is characterized by good quantity and quality and well suited for downstream applications like quantitative RT-PCR analysis of mRNA and microRNA. Superior yield and integrity values were received using RNAlater. It would be reasonable to consider the production and approval of blood collection tubes prefilled with RNAlater to facilitate the use of this excellent RNA stabilization system in large studies. [ABSTRACT FROM AUTHOR]

Published

2010

23. Nuclear Fragility in Radiation-Induced Senescence: Blebs and Tubes Visualized by 3D Electron Microscopy.

Author

Freyter, Benjamin M., Abd Al-razaq, Mutaz A., Isermann, Anna, Dietz, Anne, Azimzadeh, Omid, Hekking, Liesbeth, Gomolka, Maria, and Rübe, Claudia E.

Subjects

NUCLEOCYTOPLASMIC interactions, NUCLEAR membranes, CELLULAR aging, NUCLEAR shapes, SCANNING electron microscopy, IONIZING radiation

Abstract

Irreparable DNA damage following ionizing radiation (IR) triggers prolonged DNA damage response and induces premature senescence. Cellular senescence is a permanent state of cell-cycle arrest characterized by chromatin restructuring, altered nuclear morphology and acquisition of secretory phenotype, which contributes to senescence-related inflammation. However, the mechanistic connections for radiation-induced DNA damage that trigger these senescence-associated hallmarks are poorly understood. In our in vitro model of radiation-induced senescence, mass spectrometry-based proteomics was combined with high-resolution imaging techniques to investigate the interrelations between altered chromatin compaction, nuclear envelope destabilization and nucleo-cytoplasmic chromatin blebbing. Our findings confirm the general pathophysiology of the senescence-response, with disruption of nuclear lamin organization leading to extensive chromatin restructuring and destabilization of the nuclear membrane with release of chromatin fragments into the cytosol, thereby activating cGAS-STING-dependent interferon signaling. By serial block-face scanning electron microscopy (SBF-SEM) whole-cell datasets were acquired to investigate the morphological organization of senescent fibroblasts. High-resolution 3-dimensional (3D) reconstruction of the complex nuclear shape allows us to precisely visualize the segregation of nuclear blebs from the main nucleus and their fusion with lysosomes. By multi-view 3D electron microscopy, we identified nanotubular channels formed in lamin-perturbed nuclei of senescent fibroblasts; the potential role of these nucleo-cytoplasmic nanotubes for expulsion of damaged chromatin has to be examined. [ABSTRACT FROM AUTHOR]

Published

2022

24. Multicentric investigation of ionising radiation-induced cell death as a predictive parameter of individual radiosensitivity.

Author

Greve, Burkhard, Dreffke, Kristin, Rickinger, Astrid, Könemann, Stefan, Fritz, Eberhard, Eckardt-Schupp, Friederike, Amler, Susanne, Sauerland, Cristina, Braselmann, Herbert, Sauter, Wiebke, Illig, Thomas, Schmezer, Peter, Gomolka, Maria, Willich, Normann, and Bölling, Tobias

Abstract

In the present study, the predictive value of ionising radiation (IR)-induced cell death was tested in peripheral blood lymphocytes (PBLs) and their corresponding Epstein-Barr virus-transformed lymphoblastoid cell lines (LCLs) in an interlaboratory comparison. PBLs and their corresponding LCLs were derived from 15 tumour patients, that were considered clinically radiosensitive based on acute side-effects, and matched controls. Upon coding of the samples, radiosensitivity of the matched pairs was analysed in parallel in three different laboratories by assessing radiation-induced apoptotic and necrotic cell death using annexin V. All participating laboratories detected a dose-dependent increase of apoptosis and necrosis in the individual samples, to a very similar extent. However, comparing the mean values of apoptotic and necrotic levels derived from PBLs of the radiosensitive cohort with the mean values of the control cohort did not reveal a significant difference. Furthermore, within 15 matched pairs, no sample was unambiguously and independently identified by all three participating laboratories to demonstrate in vitro hypersensitivity that matched the clinical hypersensitivity. As has been reported previously, apoptotic and necrotic cell death is barely detectable in immortalised LCL derivatives using low doses of IR. Concomitantly, the differences in apoptosis or necrosis levels found in primary cells of different individuals were not observed in the corresponding LCL derivatives. All participating laboratories concordantly reasoned that, with the methods applied here, IR-induced cell death in PBLs is unsuitable to unequivocally predict the individual clinical radiosensitivity of cancer patients. Furthermore, LCLs do not reflect the physiological properties of the corresponding primary blood lymphocytes with regard to IR-induced cell death. Their value to predict clinical radiosensitivity is thus highly questionable. [ABSTRACT FROM AUTHOR]

Published

2009

25. Novel members and germline polymorphisms in the human T-cell receptor Vb6 family.

Author

Gomolka, Maria, Epplen, Cornelia, Buitkamp, Johannes, and Epplen, Jörg

Abstract

The human T-cell receptor ( Tcr) Vb6 family has been scrutinized for polymorphisms, both in coding as well as in intronic sequences by polymerase chain reaction (PCR), subsequent multiple electroblot hybridizations, and sequence analysis. Multiplex PCR is an efficient means of screening for Tcr variability. Four novel loci could be distinguished and several new alleles are described including two pseudogenes. The Vb6 family is characterized by an intronic stretch of simple repetitive (gt) sequences. These elements are hypervariable, especially in the Vb6.7 subfamily, where they are particularly long. The unexpected persistence of simple repetitive sequences in Tcr and major histocompatibility complex ( MHC) class II genes over extended periods of the vertebrate evolutionary history can be interpreted in parallel terms in both gene families. [ABSTRACT FROM AUTHOR]

Published

1993

26. Exonic polymorphism vs intronic simple repeat hypervariability in MHC-DRB genes.

Author

Ammer, Hubert, Schwaiger, Franz-Werner, Kammerbauer, Clauda, Gomolka, Maria, Arriens, Annette, Lazary, Sandor, and Epplen, Jörg

Abstract

Gene products encoded by the major histocompatibility complex often exhibit a high degree of polymorphism. In humans the HLA-DR polymorphism is due to more than 50 alleles with varying exon 2 sequences. Each group of DRB alleles contains a certain form of the basic simple repeat motif (gt)(ga) in intron 2. Identical alleles can be differentiated on the basis of the hypervariable repeat. In this study focused on cattle ( Bos taurus) we identified different Bota-DRB alleles in a limited survey by amplification via polymerase chain reaction and sequencing. In addition DRB exon 2 sequences were also obtained from eight additional hoofed animal species (seven horned artiodactyls and one pig) revealing artiodactyl-specific polymorphic and nonpolymorphic substitutions. In the genus Bos the intronic simple repeat variability was compared with exonic DRB polymorphism. As in humans all Bota-DRB exons were always associated with specifically organized basic simple repeat structures. Yet the extent of simple repeat variability was lower in cattle compared to humans. Selective breeding in the process of domestication might be responsible for the diminished intronic hypervariability. Nevertheless, the hypermutable simple repeat sequences have been preserved in the same position and with the same principal structure for at least 70 × 10 years of evolution. Unexpectedly, the rate of intronic simple repeat and exonic changes appear quite similar. [ABSTRACT FROM AUTHOR]

Published

1992

27. Selected di- and tetranucleotide microsatellites from chromosomes 7, 12, 14, and Y in various Eurasian populations.

Author

Gomolka, Maria, Hundrieser, Joachim, Nürnberg, Peter, Roewer, Lutz, Epplen, Jörg, and Epplen, Cornelia

Abstract

Microsatellite polymorphisms of nine Eurasian populations (>1200 chromosomes) were analyzed for the following loci: i) intronic (gt) stretches of three T cell receptor (TCR) B loci on chromosome 7 (TCRBV6S1, TCRBV6S3, TCRBV6S7); ii) an intergenic (gt) repeat in the region between the TCRDV3 and TCRAJ61 elements on chromosome 14; iii) two tetranucleotide simple repeats (D12S66, D12S67), not linked to known genes on chromosome 12; iv) a Y-chromosomal (gata) polymorphism (DYS19). In general, allele frequencies and heterozygosity rates were similar, but specific alleles were missing in one or more populations. Distinct DYS19 alleles predominated in particular cohorts. Different allele frequencies were observed for the TCR loci in European and Asian populations. Tetranucleotide polymorphisms were distributed normally, whereas TCR alleles displayed bimodal frequency profiles. For TCRBV6S1 and TCRBV6S7, this profile reflects a diallelic protein polymorphism that correlates exactly with the length of the intronic repeats. [ABSTRACT FROM AUTHOR]

Published

1994

28. Ionizing Radiation Protein Biomarkers in Normal Tissue and Their Correlation to Radiosensitivity: A Systematic Review.

Author

Subedi, Prabal, Gomolka, Maria, Moertl, Simone, Dietz, Anne, Bailey, Susan M., and Badie, Christophe

Subjects

CYCLIN-dependent kinase inhibitor-2A, IONIZING radiation, VASCULAR endothelial growth factors, CYCLIN-dependent kinases, CYCLIN-dependent kinase inhibitors, BIOMARKERS, SCIENCE databases

Abstract

Background and objectives: Exposure to ionizing radiation (IR) has increased immensely over the past years, owing to diagnostic and therapeutic reasons. However, certain radiosensitive individuals show toxic enhanced reaction to IR, and it is necessary to specifically protect them from unwanted exposure. Although predicting radiosensitivity is the way forward in the field of personalised medicine, there is limited information on the potential biomarkers. The aim of this systematic review is to identify evidence from a range of literature in order to present the status quo of our knowledge of IR-induced changes in protein expression in normal tissues, which can be correlated to radiosensitivity. Methods: Studies were searched in NCBI Pubmed and in ISI Web of Science databases and field experts were consulted for relevant studies. Primary peer-reviewed studies in English language within the time-frame of 2011 to 2020 were considered. Human non-tumour tissues and human-derived non-tumour model systems that have been exposed to IR were considered if they reported changes in protein levels, which could be correlated to radiosensitivity. At least two reviewers screened the titles, keywords, and abstracts of the studies against the eligibility criteria at the first phase and full texts of potential studies at the second phase. Similarly, at least two reviewers manually extracted the data and accessed the risk of bias (National Toxicology Program/Office for Health Assessment and Translation—NTP/OHAT) for the included studies. Finally, the data were synthesised narratively in accordance to synthesis without meta analyses (SWiM) method. Results: In total, 28 studies were included in this review. Most of the records (16) demonstrated increased residual DNA damage in radiosensitive individuals compared to normo-sensitive individuals based on γH2AX and TP53BP1. Overall, 15 studies included proteins other than DNA repair foci, of which five proteins were selected, Vascular endothelial growth factor (VEGF), Caspase 3, p16INK4A (Cyclin-dependent kinase inhibitor 2A, CDKN2A), Interleukin-6, and Interleukin-1β, that were connected to radiosensitivity in normal tissue and were reported at least in two independent studies. Conclusions and implication of key findings: A majority of studies used repair foci as a tool to predict radiosensitivity. However, its correlation to outcome parameters such as repair deficient cell lines and patients, as well as an association to moderate and severe clinical radiation reactions, still remain contradictory. When IR-induced proteins reported in at least two studies were considered, a protein network was discovered, which provides a direction for further studies to elucidate the mechanisms of radiosensitivity. Although the identification of only a few of the commonly reported proteins might raise a concern, this could be because (i) our eligibility criteria were strict and (ii) radiosensitivity is influenced by multiple factors. Registration: PROSPERO (CRD42020220064). [ABSTRACT FROM AUTHOR]

Published

2021

29. Ionizing Radiation Protein Biomarkers in Normal Tissue and Their Correlation to Radiosensitivity: Protocol for a Systematic Review.

Author

Dietz, Anne, Gomolka, Maria, Moertl, Simone, and Subedi, Prabal

Subjects

IONIZING radiation, SCIENTIFIC literature, RESEARCH protocols, BIOMARKERS, SCIENCE databases, ENVIRONMENTAL health

Abstract

Background: Radiosensitivity is a significantly enhanced reaction of cells, tissues, organs or organisms to ionizing radiation (IR). During radiotherapy, surrounding normal tissue radiosensitivity often limits the radiation dose that can be applied to the tumour, resulting in suboptimal tumour control or adverse effects on the life quality of survivors. Predicting radiosensitivity is a component of personalized medicine, which will help medical professionals allocate radiation therapy decisions for effective tumour treatment. So far, there are no reviews of the current literature that explore the relationship between proteomic changes after IR exposure and normal tissue radiosensitivity systematically. Objectives: The main objective of this protocol is to specify the search and evaluation strategy for a forthcoming systematic review (SR) dealing with the effects of in vivo and in vitro IR exposure on the proteome of human normal tissue with focus on radiosensitivity. Methods: The SR framework has been developed following the guidelines established in the National Toxicology Program/Office of Health Assessment and Translation (NTP/OHAT) Handbook for Conducting a Literature-Based Health Assessment, which provides a standardised methodology to implement the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach to environmental health assessments. The protocol will be registered in PROSPERO, an open source protocol registration system, to guarantee transparency. Eligibility criteria: Only experimental studies, in vivo and in vitro, investigating effects of ionizing radiation on the proteome of human normal tissue correlated with radio sensitivity will be included. Eligible studies will include English peer reviewed articles with publication dates from 2011–2020 which are sources of primary data. Information sources: The search strings will be applied to the scientific literature databases PubMed and Web of Science. The reference lists of included studies will also be manually searched. Data extraction and results: Data will be extracted according to a pre-defined modality and compiled in a narrative report following guidelines presented as a "Synthesis without Meta-analyses" method. Risk of bias: The risk of bias will be assessed based on the NTP/OHAT risk of bias rating tool for human and animal studies (OHAT 2019). Level of evidence rating: A comprehensive assessment of the quality of evidence for both in vivo and in vitro studies will be followed, by assigning a confidence rating to the literature. This is followed by translation into a rating on the level of evidence (high, moderate, low, or inadequate) regarding the research question. Registration: PROSPERO Submission ID 220064. [ABSTRACT FROM AUTHOR]

Published

2021

30. Heritability of Radiation Induced DNA Damage Response in Lung Cancer Families.

Author

Rosenberger, Albert, Rössler, Ute, Hornhardt, Sabine, Sauter, Wiebke, Bickeböller, Heike, Wichmann, H.-Erich, and Gomolka, Maria

Published

2012

31. Comet assay as a tool to screen for mouse models with inherited radiation sensitivity.

Author

Schindewolf, Catherine, Lobenwein, Kurt, Trinczek, Korinna, Gomolka, Maria, Soewarto, Dian, Fella, Christiane, Pargent, Walter, Singh, Narendra, Jung, Thomas, and Hrabé#de Angelis, Martin

Subjects

CANCER treatment, RADIATION, GENETICS, DISEASES, CYTOTAXONOMY, DEOXYRIBOSE

Abstract

Recent in vivo and in vitro data of patients analyzed for genetic susceptibility to radiation during cancer therapy have shown structural changes in the chromosomes to be prevalent both in the patients being treated and in their immediate family members. As structural changes in chromosomes frequently lead to activation of proto-oncogenes and elimination of tumor-suppressor genes, they represent important mechanisms for the initiation of DNA repair processes and tumorigenesis. With the exception of rare genetic syndromes such as AT (Ataxia telangiectasia) or NBS (Nijmegen Breakage Syndrome), the background for the inheritance of genetic susceptibility to radiation is unknown. Recently, a large-scale genetic screen of mouse mutants has been established within the German Human Genome Project (Hrabè de Angelis and Balling 1998). The goal of this ENU (ENU: ethylnitrosourea) mutagenesis screen is the generation of mutant mice that will serve as animal models for human diseases and genetic susceptibility. In order to fully utilize the potential of a genetic screen of this magnitude, in which exploration for genes responsible for genomic instability and radiation sensitivity is to occur, it is necessary to establish a simple assay system that is amenable to automation. Hence, we are using the single-cell gel electrophoresis (comet assay) to detect mouse mutants that display a genetic susceptibility to ionizing radiation. We have established the analysis parameters in the comet assay which are currently used to detect radiation-sensitive mouse mutants and to control the variance within the mouse population in the ENU screen. The assay can be used to isolate genes that are responsible for DNA repair and radiation sensitivity in mouse and human. [ABSTRACT FROM AUTHOR]

Published

2000

32. Towards a fingerprint method covering the immunological genome.

Author

Gomolka, Maria, Schwaiger, Werner, Weyers, Eva, Epplen, Cornelia, Buitkamp, Johannes, and Epplen, Jörg T.

Published

1992

33. Differences in DNA Repair Capacity, Cell Death and Transcriptional Response after Irradiation between a Radiosensitive and a Radioresistant Cell Line.

Author

Borràs-Fresneda, Mireia, Barquinero, Joan-Francesc, Gomolka, Maria, Hornhardt, Sabine, Rössler, Ute, Armengol, Gemma, and Barrios, Leonardo

Published

2016

34. Radiation-induced alterations of histone post-translational modification levels in lymphoblastoid cell lines.

Author

Maroschik, Belinda, Gürtler, Anne, Krämer, Anne, Rößler, Ute, Gomolka, Maria, Hornhardt, Sabine, Mörtl, Simone, and Friedl, Anna A

Abstract

Background: Radiation-induced alterations in posttranslational histone modifications (PTMs) may affect the cellular response to radiation damage in the DNA. If not reverted appropriately, altered PTM patterns may cause long-term alterations in gene expression regulation and thus lead to cancer. It is therefore important to characterize radiation-induced alterations in PTM patterns and the factors affecting them.Methods: A lymphoblastoid cell line established from a normal donor was used to screen for alterations in methylation levels at H3K4, H3K9, H3K27, and H4K20, as well as acetylation at H3K9, H3K56, H4K5, and H4K16, by quantitative Western Blot analysis at 15 min, 1 h and 24 h after irradiation with 2 Gy and 10 Gy. The variability of alterations in acetylation marks was in addition investigated in a panel of lymphoblastoid cell lines with differing radiosensitivity established from lung cancer patients.Results: The screening procedure demonstrated consistent hypomethylation at H3K4me3 and hypoacetylation at all acetylation marks tested. In the panel of lymphoblastoid cell lines, however, a high degree of inter-individual variability became apparent. Radiosensitive cell lines showed more pronounced and longer lasting H4K16 hypoacetylation than radioresistant lines, which correlates with higher levels of residual γ-H2AX foci after 24 h.Conclusion: So far, the factors affecting extent and duration of radiation-induced histone alterations are poorly defined. The present work hints at a high degree of inter-individual variability and a potential correlation of DNA damage repair capacity and alterations in PTM levels. [ABSTRACT FROM AUTHOR]

Published

2014