NuRD subunit MTA1 interacts with the DNA non-homologous end joining Ku complex in cancer cells.
Jian LiuQun LiuHaijuan WangChunxiao LiTao WenGuangyu AnHaili QianPublished in: RSC advances (2018)
Metastasis-associated antigen 1 (MTA1) is a chromatin modifier mediating DNA modification and gene expression. Ku70/Ku80 complex has been reported to be essential in DNA damage response. In an effort to explore the MTA1 interactome, we captured the Ku70/Ku80 complex with two specific MTA1 antibodies in a colon cancer cell line. We first validated the in vitro interaction between MTA1 and the Ku complex by co-immunoprecipitation (co-IP) analyses in cell lysate, showing that the interaction occurred mainly at the nucleus, but also existed in the cytoplasm at a lower level. We further visualized and confirmed their in vivo interaction using proximity ligation assay (PLA), which, in line with the in vitro analysis, also demonstrated a vast majority of interaction plots in the nucleus and a small number in the cytoplasm. We previously demonstrated that MTA1 distributed dynamically and periodically during the cell cycle. Here, through fluorescent colocalization, we found that MTA1 and Ku proteins colocalized well in the nucleus at interphase and moved synchronously from prophase to anaphase. Interestingly, at the time of telophase, when MTA1 was reported to re-enter the nucleus, they were separated and moved non-synchronously. Moreover, using in situ PLA, we visualized that the interaction occurred at both interphase and mitosis. At interphase, they interacted mainly in the nucleus, but during mitosis, they interact at the periphery of chromosomes. We also showed that MTA1 correlated well with Ku in both the cancerous and normal tissues, and that they cooperated in UV-induced DNA damage response. Collectively, our data uncover a specific interaction between MTA1 and Ku complex at both the nucleus and cytoplasm, and across the whole cell cycle. We therefore propose a potential functional crosstalk between NuRD and Ku complexes, the two most fundamental function units in cells, via physical interaction.
Keyphrases
- cell cycle
- dna damage response
- gene expression
- dna repair
- cell proliferation
- physical activity
- mental health
- dna methylation
- transcription factor
- oxidative stress
- machine learning
- cell free
- artificial intelligence
- cell death
- risk assessment
- binding protein
- cell cycle arrest
- pi k akt
- circulating tumor cells
- data analysis