PURPOSE: To investigate the individual radiosensitivity of the human genome in long-term residents of areas with high radon concentration. MATERIALS AND METHODS: The materials used for this investigation were venous blood samples extracted from children living in the boarding school of Tashtagol (Kemerovo Region, Russia). Cytogenetic damage assessment was performed using the cytokinesis-block micronucleus assay (CBMN) on peripheral blood lymphocytes. PCR, gel electrophoresis and product detection using a transilluminator were used to determine polymorphisms in the genes ADPRT (rs 1136410), hOGG1 (rs 1052133), NBS1 (rs 1805794), XRCC1 (rs 25487), XpC (rs 2228001), XpD (rs 13181), and XpG (rs 17655). Statistical analysis was performed using nonparametric methods. To ensure accurate results, FDR-correction for multiple comparisons was performed. RESULTS: We discovered a significant increase in the frequency of binucleated lymphocytes with micronuclei (MN) in carriers of the His/His genotype of the XpG gene Asp1104His polymorphism in comparison to heterozygous and homozygous carriers of the Asp allele. In addition, the Ala/Ala genotype for the ADPRT gene Val762Ala polymorphism and the Glu/Gln genotype for the NBS1 gene Glu185Gln polymorphism were associated with the elevated frequency of binucleated lymphocytes with nucleoplasmic bridges (NPB). CONCLUSIONS: As a result of this study, the elevated frequency of cytogenetic damage in people with particular DNA-repair gene polymorphisms in response to chronic exposure to radon was demonstrated. It was shown that the genes and corresponding polymorphisms (the XpG gene Asp1104His polymorphism, the ADPRT gene Val762Ala polymorphism and the NBS1 gene Glu185Gln polymorphism) can be used as molecular genetic markers of increased individual radiosensitivity in long-term residents of areas with high concentrations of radon.
PURPOSE: To investigate the individual radiosensitivity of the human genome in long-term residents of areas with high radon concentration. MATERIALS AND METHODS: The materials used for this investigation were venous blood samples extracted from children living in the boarding school of Tashtagol (Kemerovo Region, Russia). Cytogenetic damage assessment was performed using the cytokinesis-block micronucleus assay (CBMN) on peripheral blood lymphocytes. PCR, gel electrophoresis and product detection using a transilluminator were used to determine polymorphisms in the genes ADPRT (rs 1136410), hOGG1 (rs 1052133), NBS1 (rs 1805794), XRCC1 (rs 25487), XpC (rs 2228001), XpD (rs 13181), and XpG (rs 17655). Statistical analysis was performed using nonparametric methods. To ensure accurate results, FDR-correction for multiple comparisons was performed. RESULTS: We discovered a significant increase in the frequency of binucleated lymphocytes with micronuclei (MN) in carriers of the His/His genotype of the XpG gene Asp1104His polymorphism in comparison to heterozygous and homozygous carriers of the Asp allele. In addition, the Ala/Ala genotype for the ADPRT gene Val762Ala polymorphism and the Glu/Gln genotype for the NBS1 gene Glu185Gln polymorphism were associated with the elevated frequency of binucleated lymphocytes with nucleoplasmic bridges (NPB). CONCLUSIONS: As a result of this study, the elevated frequency of cytogenetic damage in people with particular DNA-repair gene polymorphisms in response to chronic exposure to radon was demonstrated. It was shown that the genes and corresponding polymorphisms (the XpG gene Asp1104His polymorphism, the ADPRT gene Val762Ala polymorphism and the NBS1 gene Glu185Gln polymorphism) can be used as molecular genetic markers of increased individual radiosensitivity in long-term residents of areas with high concentrations of radon.
Authors: Frank de Vocht; Matthew Suderman; Alberto Ruano-Ravina; Richard Thomas; Richard Wakeford; Caroline Relton; Kate Tilling; Andy Boyd Journal: Wellcome Open Res Date: 2019-04-15
Authors: Luís S Santos; Octávia M Gil; Susana N Silva; Bruno C Gomes; Teresa C Ferreira; Edward Limbert; José Rueff Journal: Genes (Basel) Date: 2020-09-17 Impact factor: 4.096