TY - JOUR
T1 - Flap Endonuclease 1 Contributes to Telomere Stability
AU - Saharia, Abhishek
AU - Guittat, Lionel
AU - Crocker, Sandra
AU - Lim, Adeline
AU - Steffen, Martin
AU - Kulkarni, Shashikant
AU - Stewart, Sheila A.
N1 - Funding Information:
This work was supported by the Sidney Kimmel Foundation for Cancer Research, the Edward Mallinckrodt, Jr. Foundation, and the National Centers of Research Resources of the National Institutes of Health (P41-RR00954). A.S. was supported by the Lucille P. Markey Program. S.A.S. is a Sidney Kimmel Scholar. We are grateful to Y. Tao for statistical analyses; G. Sharma for advice on metaphase analysis; R. Veile for expert assistance with cytogenetics; R. Verdun, J. Karlseder, and S. Bailey for helpful comments on ChIP and FISH; Y. Feng and G. Longmore for the pFLRu vector; members of the Stewart Laboratory for valuable discussions; and W. Hahn, H. True, J. Weber, L. Michel, S. Gonzalo, Z. Nahle, and H. Piwnica-Worms for critical reviews. The authors declare no competing financial interests.
PY - 2008/4/8
Y1 - 2008/4/8
N2 - Telomere stability plays an important role in the preservation of genomic stability and is maintained through the coordinated actions of telomere-specific proteins and DNA repair and replication proteins [1, 2]. Flap endonuclease 1 (FEN1) is a protein that plays a role in lagging-strand DNA replication, base excision repair, homologous recombination, and reinitiation of stalled replication forks [3, 4]. Here, we demonstrate that FEN1 depletion leads to telomere dysfunction characterized by the presence of γH2AX and sister telomere loss. Expression of catalytically active telomerase, the reverse transcriptase that adds telomeric repeats to chromosome ends, was sufficient to rescue telomere dysfunction upon FEN1 depletion. Strikingly, FEN1 depletion exclusively abrogates telomeres replicated by lagging-strand DNA replication. Genetic rescue experiments utilizing FEN1 mutant proteins that retained the ability to localize to telomeric repeats revealed that FEN1's nuclease activity and ability to interact with the Werner protein (WRN) and telomere-binding protein (TRF2) were required for FEN1 activity at the telomere. Given FEN1's role in lagging-strand DNA replication and reinitiation of stalled replication forks, we propose that FEN1 contributes to telomere stability by ensuring efficient telomere replication.
AB - Telomere stability plays an important role in the preservation of genomic stability and is maintained through the coordinated actions of telomere-specific proteins and DNA repair and replication proteins [1, 2]. Flap endonuclease 1 (FEN1) is a protein that plays a role in lagging-strand DNA replication, base excision repair, homologous recombination, and reinitiation of stalled replication forks [3, 4]. Here, we demonstrate that FEN1 depletion leads to telomere dysfunction characterized by the presence of γH2AX and sister telomere loss. Expression of catalytically active telomerase, the reverse transcriptase that adds telomeric repeats to chromosome ends, was sufficient to rescue telomere dysfunction upon FEN1 depletion. Strikingly, FEN1 depletion exclusively abrogates telomeres replicated by lagging-strand DNA replication. Genetic rescue experiments utilizing FEN1 mutant proteins that retained the ability to localize to telomeric repeats revealed that FEN1's nuclease activity and ability to interact with the Werner protein (WRN) and telomere-binding protein (TRF2) were required for FEN1 activity at the telomere. Given FEN1's role in lagging-strand DNA replication and reinitiation of stalled replication forks, we propose that FEN1 contributes to telomere stability by ensuring efficient telomere replication.
KW - DNA
UR - http://www.scopus.com/inward/record.url?scp=41449108060&partnerID=8YFLogxK
U2 - 10.1016/j.cub.2008.02.071
DO - 10.1016/j.cub.2008.02.071
M3 - Article
C2 - 18394896
AN - SCOPUS:41449108060
SN - 0960-9822
VL - 18
SP - 496
EP - 500
JO - Current Biology
JF - Current Biology
IS - 7
ER -