LRR1-mediated replisome disassembly promotes DNA replication by recycling replisome components.
Yilin FanMarielle S KöberlinNalin RatnayekeChad LiuMadhura DeshpandeJeannine GerhardtTobias MeyerPublished in: The Journal of cell biology (2021)
After two converging DNA replication forks meet, active replisomes are disassembled and unloaded from chromatin. A key process in replisome disassembly is the unloading of CMG helicases (CDC45-MCM-GINS), which is initiated in Caenorhabditis elegans and Xenopus laevis by the E3 ubiquitin ligase CRL2LRR1. Here, we show that human cells lacking LRR1 fail to unload CMG helicases and accumulate increasing amounts of chromatin-bound replisome components as cells progress through S phase. Markedly, we demonstrate that the failure to disassemble replisomes reduces the rate of DNA replication increasingly throughout S phase by sequestering rate-limiting replisome components on chromatin and blocking their recycling. Continued binding of CMG helicases to chromatin during G2 phase blocks mitosis by activating an ATR-mediated G2/M checkpoint. Finally, we provide evidence that LRR1 is an essential gene for human cell division, suggesting that CRL2LRR1 enzyme activity is required for the proliferation of cancer cells and is thus a potential target for cancer therapy.
Keyphrases
- dna damage
- genome wide
- gene expression
- transcription factor
- cancer therapy
- signaling pathway
- induced apoptosis
- endothelial cells
- dna methylation
- cell cycle
- oxidative stress
- drug delivery
- copy number
- cell therapy
- stem cells
- dna binding
- climate change
- cell free
- induced pluripotent stem cells
- risk assessment
- cell death
- life cycle