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  • Recruitment of HP1β to UVA-induced DNA lesions is independent of radiation-induced changes in A-type lamins.

Recruitment of HP1β to UVA-induced DNA lesions is independent of radiation-induced changes in A-type lamins.

Biology of the cell (2014-03-13)
Petra Sehnalová, Soňa Legartová, Dušan Cmarko, Stanislav Kozubek, Eva Bártová
ABSTRACT

The optimal repair of DNA lesions is fundamental for physiological processes. We asked whether the recruitment of HP1β, 53BP1 and BMI1 proteins to ultraviolet (UVA)-induced DNA lesions requires functional A-type lamins. We found that UVA irradiation of nuclear lamina abolished the fluorescence of mCherry-tagged A-type lamins and destroyed the nuclear lamina as also observed by electron microscopy studies. Similarly, an absence of endogenous A- and B-type lamins was found in irradiated regions by UVA. However, irradiation did not affect the recruitment of HP1β, 53BP1 and BMI1 to DNA lesions. The UVA-induced shrinkage of the nuclear lamina, which anchors chromatin, explains why UVA-micro-irradiated chromatin is relaxed. Conversely, additional experiments with γ-irradiation showed that the nuclear lamina remained intact and the genome-wide level of HP1β was stable. Fluorescence intensity of HP1β and BMI1 in UVA-induced DNA lesions and level of HP1β after γ-irradiation were unaffected by deficiency in A-type lamins, whereas those parameters of 53BP1 were changed. We conclude that only the 53BP1 status in DNA lesions, induced by UVA or γ-rays, is affected by A-type lamin deficiency, which was not observed for heterochromatin-related proteins HP1β and BMI1.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-Bmi-1 Antibody, clone F6, clone F6, Upstate®, from mouse