TY - JOUR
T1 - Super-resolution GSDIM microscopy unveils distinct nanoscale characteristics of DNA repair foci under diverse genotoxic stress
AU - Qian, Haibin
AU - Margaretha Plat, Audrey
AU - Jonker, Ard
AU - Hoebe, Ron A.
AU - Krawczyk, Przemek
N1 - Publisher Copyright: © 2024 The Authors
PY - 2024/2/1
Y1 - 2024/2/1
N2 - DNA double-strand breaks initiate the DNA damage response (DDR), leading to the accumulation of repair proteins at break sites and the formation of the-so-called foci. Various microscopy methods, such as wide-field, confocal, electron, and super-resolution microscopy, have been used to study these structures. However, the impact of different DNA-damaging agents on their (nano)structure remains unclear. Utilising GSDIM super-resolution microscopy, here we investigated the distribution of fluorescently tagged DDR proteins (53BP1, RNF168, MDC1) and γH2AX in U2OS cells treated with γ-irradiation, etoposide, cisplatin, or hydroxyurea. Our results revealed that both foci structure and their nanoscale ultrastructure, including foci size, nanocluster characteristics, fluorophore density and localisation, can be significantly altered by different inducing agents, even ones with similar mechanisms. Furthermore, distinct behaviours of DDR proteins were observed under the same treatment. These findings have implications for cancer treatment strategies involving these agents and provide insights into the nanoscale organisation of the DDR.
AB - DNA double-strand breaks initiate the DNA damage response (DDR), leading to the accumulation of repair proteins at break sites and the formation of the-so-called foci. Various microscopy methods, such as wide-field, confocal, electron, and super-resolution microscopy, have been used to study these structures. However, the impact of different DNA-damaging agents on their (nano)structure remains unclear. Utilising GSDIM super-resolution microscopy, here we investigated the distribution of fluorescently tagged DDR proteins (53BP1, RNF168, MDC1) and γH2AX in U2OS cells treated with γ-irradiation, etoposide, cisplatin, or hydroxyurea. Our results revealed that both foci structure and their nanoscale ultrastructure, including foci size, nanocluster characteristics, fluorophore density and localisation, can be significantly altered by different inducing agents, even ones with similar mechanisms. Furthermore, distinct behaviours of DDR proteins were observed under the same treatment. These findings have implications for cancer treatment strategies involving these agents and provide insights into the nanoscale organisation of the DDR.
KW - Cisplatin
KW - DDR foci characteristics
KW - DNA damage response
KW - Etoposide
KW - Hydroxyurea
KW - Nanostructure of DDR foci
KW - Super-resolution GSDIM microscopy
KW - γ-irradiation
UR - http://www.scopus.com/inward/record.url?scp=85182665190&partnerID=8YFLogxK
U2 - https://doi.org/10.1016/j.dnarep.2024.103626
DO - https://doi.org/10.1016/j.dnarep.2024.103626
M3 - Article
C2 - 38232606
SN - 1568-7864
VL - 134
JO - DNA Repair
JF - DNA Repair
M1 - 103626
ER -