TY - JOUR
T1 - A role for the spindle assembly checkpoint in the DNA damage response
AU - Palou, Roger
AU - Palou, Gloria
AU - Quintana, David G.
N1 - Funding Information:
This work was funded by the Ministry of Science and Competitiveness of Spain (MINECO), and by the European Regional Development Fund (FEDER), Grants BFU2011-28007 (MINECO) and BFU2015-68493-P (MINECO/FEDER).
Publisher Copyright:
© 2016, The Author(s).
Copyright:
Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2017/5/1
Y1 - 2017/5/1
N2 - Spontaneous DNA damage poses a continuous threat to genomic integrity. If unchecked, genotoxic insults result in genomic instability, a hallmark of cancer cells. In eukaryotic cells a DNA Damage Response (DDR) detects and responds to genotoxic stress, acting as an anti-cancer barrier in humans. Among other actions, the DDR blocks the segregation of incompletely replicated or damaged chromosomes, thus preventing aneuploidy. In a work aimed at better understanding such S-M control, we recently showed that cells block anaphase through different control pathways. The S phase checkpoint kinase Mec1/ATR inhibits mitotic Cyclin Dependent Kinase activity through effector kinases Swe1/Wee1 and Rad53/Chk2. Cells also stabilize the levels of Pds1/securin to block sister chromatid segregation in response to DNA damage. We show here that Pds1/securin abundance is still secured when the S phase checkpoint response is fully abrogated in mec1/ATR tel1/ATM double null mutants. When such cells are exposed to genotoxic stress, Pds1/securin is stabilized in a spindle assembly checkpoint (SAC) dependent manner. Disruption of the SAC and the S phase checkpoint together, allows chromosome segregation in the presence of DNA damage or replication stress. Our results place the SAC as a part of the DDR, which appears to count on different, independent control layers to preserve genomic integrity when chromosome replication is challenged.
AB - Spontaneous DNA damage poses a continuous threat to genomic integrity. If unchecked, genotoxic insults result in genomic instability, a hallmark of cancer cells. In eukaryotic cells a DNA Damage Response (DDR) detects and responds to genotoxic stress, acting as an anti-cancer barrier in humans. Among other actions, the DDR blocks the segregation of incompletely replicated or damaged chromosomes, thus preventing aneuploidy. In a work aimed at better understanding such S-M control, we recently showed that cells block anaphase through different control pathways. The S phase checkpoint kinase Mec1/ATR inhibits mitotic Cyclin Dependent Kinase activity through effector kinases Swe1/Wee1 and Rad53/Chk2. Cells also stabilize the levels of Pds1/securin to block sister chromatid segregation in response to DNA damage. We show here that Pds1/securin abundance is still secured when the S phase checkpoint response is fully abrogated in mec1/ATR tel1/ATM double null mutants. When such cells are exposed to genotoxic stress, Pds1/securin is stabilized in a spindle assembly checkpoint (SAC) dependent manner. Disruption of the SAC and the S phase checkpoint together, allows chromosome segregation in the presence of DNA damage or replication stress. Our results place the SAC as a part of the DDR, which appears to count on different, independent control layers to preserve genomic integrity when chromosome replication is challenged.
KW - Chromosome segregation
KW - Cyclin Dependent Kinase (Cdk1)
KW - DNA damage response (DDR)
KW - Genomic instability
KW - S Phase checkpoint
KW - Spindle assembly checkpoint (SAC)
UR - http://www.scopus.com/inward/record.url?scp=84982816436&partnerID=8YFLogxK
U2 - 10.1007/s00294-016-0634-y
DO - 10.1007/s00294-016-0634-y
M3 - Article
C2 - 27488803
SN - 0172-8083
VL - 63
SP - 275
EP - 280
JO - Current Genetics
JF - Current Genetics
IS - 2
ER -