M. Frankenberg-Schwager scite author profile

Yields of DNA double-strand breaks were determined in primary human skin fibroblasts exposed to 1H and 4He ions at various linear energy transfers (LETs) and to 15 MeV electrons as the reference radiation. The values obtained for the relative biological effectiveness (RBE) were 2.03, 1.45 and 1.36 for 1H ions at LETs of 35, 23 and 7.9 keV/microm, respectively, and 1.2, 1.18, 1.38 and 1.31 for 4He ions at LETs of 124, 76, 35 and 27 keV/microm, respectively. The data were obtained using pulsed-field gel electrophoresis of DNA released from cells using the chromosomes of the yeast Saccharomyces cerevisiae as length markers and fitting the experimental mass distributions of fragmented DNA to those obtained by computer simulation of the random breakage of human chromosomes. The RBE values for induction of DSBs in mammalian cells cannot be fitted to a common RBE-LET relationship for electrons and 1H, 4He and light ions. Comparison of the RBEs for mammalian cells with the corresponding RBEs obtained for yeast cells shows similar RBEs of electrons for yeast and mammalian cells; however, for 4He and light ions in the LET range of 100 to 1000 keV/microm, the RBEs for yeast are significantly higher compared with mammalian cells. These characteristics of the RBE-LET relationships for yeast and mammalian cells are attributed to the fraction of small DNA fragments induced by particles when traversing the higher-order chromatin structures which are different to some extent in these two cell types.

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Evidence for DNA Double-Strand Breaks as the Critical Lesions in Yeast Cells Irradiated with Sparsely or Densely Ionizing Radiation under Oxic or Anoxic Conditions

Frankenberg¹,

Frankenberg-Schwager²,

Blöcher³

et al. 1981

Radiation Research

250

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Induction, repair and biological relevance of radiation-induced DNA lesions in eukaryotic cells

Frankenberg-Schwager

1990

Radiat Environ Biophys

203

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This report summarizes data on the induction, repair and biological relevance of five types of radiation-induced DNA lesions for which repair kinetic studies have been performed in eukaryotic cells by various laboratories. These lesions are: DNA-protein crosslinks, base damage, single-strand breaks, double-strand breaks and bulky lesions (clustered base damage in the nm-range). The influence of various factors, such as oxia/anoxia, linear energy transfer of the radiation used, incubation medium, cell cycle stage, thiol content, hyperthermia, on the induction and repair of these lesions is described. Radiation-sensitive cell lines are also included.

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Review of repair kinetics for DNA damage induced in eukaryotic cells in vitro by ionizing radiation

Frankenberg-Schwager¹

1989

Radiotherapy and Oncology

193

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Enhanced Neoplastic Transformation by Mammography X Rays Relative to 200 kVp X Rays: Indication for a Strong Dependence on Photon Energy of the RBE_Mfor Various End Points

et al. 2002

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The fundamental assumption implicit in the use of the atomic bomb survivor data to derive risk estimates is that the gamma rays of Hiroshima and Nagasaki are considered to have biological efficiencies equal to those of other low-LET radiations up to 10 keV/microm, including mammography X rays. Microdosimetric and radiobiological data contradict this assumption. It is therefore of scientific and public interest to evaluate the efficiency of mammography X rays (25-30 kVp) to induce cancer. In this study, the efficiency of mammography X rays relative to 200 kVp X rays to induce neoplastic cell transformation was evaluated using cells of a human hybrid cell line (CGL1). For both radiations, a linear-quadratic dose-effect relationship was observed for neoplastic transformation of CGL1 cells; there was a strong linear component for the 29 kVp X rays. The RBE(M) of mammography X rays relative to 200 kVp X rays was determined to be about 4 for doses < or = 0.5 Gy. A comparison of the electron fluences for both X rays provides strong evidence that electrons with energies of < or = 15 keV can induce neoplastic transformation of CGL1 cells. Both the data available in the literature and the results of the present study strongly suggest an increase of RBE(M) for carcinogenesis in animals, neoplastic cell transformation, and clastogenic effects with decreasing photon energy or increasing LET to an RBE(M) approximately 8 for mammography X rays relative to 60Co gamma rays.

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