Excess MCM proteins protect human cells from replicative stress by licensing backup origins of replication.

The six main minichromosome maintenance proteins (Mcm2-7), which presumably constitute the core of the replicative DNA helicase, are present in chromatin in large excess relative to the number of active replication forks. To evaluate the relevance of this apparent surplus of Mcm2-7 complexes in huma...

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Bibliographic Details
Authors: Ibarra, Arkaitz, Schwob, Etienne, Mendez, Juan
Format: article
Publication Date:2008
Country:España
Institution:Instituto de Salud Carlos III (ISCIII)
Repository:Repisalud
Language:English
OAI Identifier:oai:repisalud.isciii.es:20.500.12105/17664
Online Access:http://hdl.handle.net/20.500.12105/17664
Access Level:Open access
Keyword:DNA Replication
Replication Origin
Cell Proliferation
Chromosomal Instability
DNA Damage
HeLa Cells
Humans
S Phase
Transcription Factors
Description
Summary:The six main minichromosome maintenance proteins (Mcm2-7), which presumably constitute the core of the replicative DNA helicase, are present in chromatin in large excess relative to the number of active replication forks. To evaluate the relevance of this apparent surplus of Mcm2-7 complexes in human cells, their levels were down-regulated by using RNA interference. Interestingly, cells continued to proliferate for several days after the acute (>90%) reduction of Mcm2-7 concentration. However, they became hypersensitive to DNA replication stress, accumulated DNA lesions, and eventually activated a checkpoint response that prevented mitotic division. When this checkpoint was abrogated by the addition of caffeine, cells quickly lost viability, and their karyotypes revealed striking chromosomal aberrations. Single-molecule analyses revealed that cells with a reduced concentration of Mcm2-7 complexes display normal fork progression but have lost the potential to activate "dormant" origins that serve a backup function during DNA replication. Our data show that the chromatin-bound "excess" Mcm2-7 complexes play an important role in maintaining genomic integrity under conditions of replicative stress.