Literature DB >> 21722985

Assessing 'radiosensitivity' with kinetic profiles of γ-H2AX, 53BP1 and BRCA1 foci.

Nathan T Martin1, Shareef A Nahas, Rashmi Tunuguntla, Francesca Fike, Richard A Gatti.   

Abstract

BACKGROUND AND
PURPOSE: DNA repair assays to identify radiosensitive patients have had limited clinical implementation due to long turn-around times or limited specificity. This study evaluates γ-H2AX-Irradiation Induced Foci (IRIF) kinetics as a more rapid surrogate for the 'gold standard' colony survival assay (CSA) using several known DNA repair disorders as reference models.
MATERIALS AND METHODS: Radiosensitive cells of known and unknown etiology were studied. γ-H2AX-IRIFs were quantified over 24 h, and the curves were fitted by combining logarithmic growth and exponential decay functions. Fitted values that differed from radionormal controls were considered aberrant and compared to CSA results.
RESULTS: We observed 87% agreement of IRIF data with the CSA for the 14 samples tested. Analysis of γ-H2AX-IRIF kinetics for known repair disorders indicated similarities between an RNF168(-/-) cell line and an RS cell of unknown etiology. These cell lines were further characterized by a reduction in BRCA1-IRIF formation and G2/M checkpoint activation.
CONCLUSIONS: γ-H2AX-IRIF kinetics showed high concordance with the CSA in RS populations demonstrating its potential as a more rapid surrogate assay. This method provides a means to globally identify defective DNA repair pathways in RS cells of unknown etiology through comparison with known DNA repair defects. Copyright Â
© 2011 Elsevier Ireland Ltd. All rights reserved.

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Year:  2011        PMID: 21722985      PMCID: PMC3202034          DOI: 10.1016/j.radonc.2011.05.065

Source DB:  PubMed          Journal:  Radiother Oncol        ISSN: 0167-8140            Impact factor:   6.280


  30 in total

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4.  Molecular radiation biology: perspectives for radiation oncology.

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10.  The complexity of phosphorylated H2AX foci formation and DNA repair assembly at DNA double-strand breaks.

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7.  Homozygous mutation of MTPAP causes cellular radiosensitivity and persistent DNA double-strand breaks.

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Review 10.  Clinical and Functional Assays of Radiosensitivity and Radiation-Induced Second Cancer.

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