TY - JOUR
T1 - Elp3 drives Wnt-dependent tumor initiation and regeneration in the intestine
AU - Ladang, Aurélie
AU - Rapino, Francesca
AU - Heukamp, Lukas C
AU - Tharun, Lars
AU - Shostak, Kateryna
AU - Hermand, Damien
AU - Delaunay, Sylvain
AU - Klevernic, Iva
AU - Jiang, Zheshen
AU - Jacques, Nicolas
AU - Jamart, Diane
AU - Migeot, Valérie
AU - Florin, Alexandra
AU - Göktuna, Serkan
AU - Malgrange, Brigitte
AU - Sansom, Owen J
AU - Nguyen, Laurent
AU - Büttner, Reinhard
AU - Close, Pierre
AU - Chariot, Alain
N1 - © 2015 Ladang et al.
PY - 2015
Y1 - 2015
N2 - Tumor initiation in the intestine can rapidly occur from Lgr5(+) crypt columnar stem cells. Dclk1 is a marker of differentiated Tuft cells and, when coexpressed with Lgr5, also marks intestinal cancer stem cells. Here, we show that Elp3, the catalytic subunit of the Elongator complex, is required for Wnt-driven intestinal tumor initiation and radiation-induced regeneration by maintaining a subpool of Lgr5(+)/Dclk1(+)/Sox9(+) cells. Elp3 deficiency dramatically delayed tumor appearance in Apc-mutated intestinal epithelia and greatly prolonged mice survival without affecting the normal epithelium. Specific ablation of Elp3 in Lgr5(+) cells resulted in marked reduction of polyp formation upon Apc inactivation, in part due to a decreased number of Lgr5(+)/Dclk1(+)/Sox9(+) cells. Mechanistically, Elp3 is induced by Wnt signaling and promotes Sox9 translation, which is needed to maintain the subpool of Lgr5(+)/Dclk1(+) cancer stem cells. Consequently, Elp3 or Sox9 depletion led to similar defects in Dclk1(+) cancer stem cells in ex vivo organoids. Finally, Elp3 deficiency strongly impaired radiation-induced intestinal regeneration, in part because of decreased Sox9 protein levels. Together, our data demonstrate the crucial role of Elp3 in maintaining a subpopulation of Lgr5-derived and Sox9-expressing cells needed to trigger Wnt-driven tumor initiation in the intestine.
AB - Tumor initiation in the intestine can rapidly occur from Lgr5(+) crypt columnar stem cells. Dclk1 is a marker of differentiated Tuft cells and, when coexpressed with Lgr5, also marks intestinal cancer stem cells. Here, we show that Elp3, the catalytic subunit of the Elongator complex, is required for Wnt-driven intestinal tumor initiation and radiation-induced regeneration by maintaining a subpool of Lgr5(+)/Dclk1(+)/Sox9(+) cells. Elp3 deficiency dramatically delayed tumor appearance in Apc-mutated intestinal epithelia and greatly prolonged mice survival without affecting the normal epithelium. Specific ablation of Elp3 in Lgr5(+) cells resulted in marked reduction of polyp formation upon Apc inactivation, in part due to a decreased number of Lgr5(+)/Dclk1(+)/Sox9(+) cells. Mechanistically, Elp3 is induced by Wnt signaling and promotes Sox9 translation, which is needed to maintain the subpool of Lgr5(+)/Dclk1(+) cancer stem cells. Consequently, Elp3 or Sox9 depletion led to similar defects in Dclk1(+) cancer stem cells in ex vivo organoids. Finally, Elp3 deficiency strongly impaired radiation-induced intestinal regeneration, in part because of decreased Sox9 protein levels. Together, our data demonstrate the crucial role of Elp3 in maintaining a subpopulation of Lgr5-derived and Sox9-expressing cells needed to trigger Wnt-driven tumor initiation in the intestine.
U2 - 10.1084/jem.20142288
DO - 10.1084/jem.20142288
M3 - Article
C2 - 26527802
SN - 0022-1007
VL - 212
SP - 2057
EP - 2075
JO - The Journal of experimental medicine
JF - The Journal of experimental medicine
IS - 12
ER -