Functional KRAS mutations and a potential role for PI3K/AKT activation in Wilms tumors

Dina Polosukhina; Harold D. Love; Hernan Correa; Zengliu Su; Kimberly B. Dahlman; William Pao; Harold L. Moses; Carlos L. Arteaga; Harold N. Lovvorn; Roy Zent; Peter E. Clark

doi:10.1002/1878-0261.12044

Functional KRAS mutations and a potential role for PI3K/AKT activation in Wilms tumors

Dina Polosukhina, Harold D. Love, Hernan Correa, Zengliu Su, Kimberly B. Dahlman, William Pao, Harold L. Moses, Carlos L. Arteaga, Harold N. Lovvorn, Roy Zent, Peter E. Clark

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Wilms tumor (WT) is the most common renal neoplasm of childhood and affects 1 in 10 000 children aged less than 15 years. These embryonal tumors are thought to arise from primitive nephrogenic rests that derive from the metanephric mesenchyme during kidney development and are characterized partly by increased Wnt/b-catenin signaling. We previously showed that coordinate activation of Ras and b-catenin accelerates the growth and metastatic progression of a murine WT model. Here, we show that activating KRAS mutations can be found in human WT. In addition, high levels of phosphorylated AKT are present in the majority of WT. We further show in a mouse model and in renal epithelial cells that Ras cooperates with b-catenin to drive metastatic disease progression and promotes in vitro tumor cell growth, migration, and colony formation in soft agar. Cellular transformation and metastatic disease progression of WT cells are in part dependent on PI3K/AKT activation and are inhibited via pharmacological inhibition of this pathway. Our studies suggest both KRAS mutations and AKT activation are present in WT and may represent novel therapeutic targets for this disease.

Original language	English (US)
Pages (from-to)	405-421
Number of pages	17
Journal	Molecular oncology
Volume	11
Issue number	4
DOIs	https://doi.org/10.1002/1878-0261.12044
State	Published - Apr 2017

Keywords

AKT
KRAS
Wilms tumor
b-catenin

ASJC Scopus subject areas

Genetics
Molecular Medicine
Oncology
Cancer Research

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title = "Functional KRAS mutations and a potential role for PI3K/AKT activation in Wilms tumors",

abstract = "Wilms tumor (WT) is the most common renal neoplasm of childhood and affects 1 in 10 000 children aged less than 15 years. These embryonal tumors are thought to arise from primitive nephrogenic rests that derive from the metanephric mesenchyme during kidney development and are characterized partly by increased Wnt/b-catenin signaling. We previously showed that coordinate activation of Ras and b-catenin accelerates the growth and metastatic progression of a murine WT model. Here, we show that activating KRAS mutations can be found in human WT. In addition, high levels of phosphorylated AKT are present in the majority of WT. We further show in a mouse model and in renal epithelial cells that Ras cooperates with b-catenin to drive metastatic disease progression and promotes in vitro tumor cell growth, migration, and colony formation in soft agar. Cellular transformation and metastatic disease progression of WT cells are in part dependent on PI3K/AKT activation and are inhibited via pharmacological inhibition of this pathway. Our studies suggest both KRAS mutations and AKT activation are present in WT and may represent novel therapeutic targets for this disease.",

keywords = "AKT, KRAS, Wilms tumor, b-catenin",

author = "Dina Polosukhina and Love, {Harold D.} and Hernan Correa and Zengliu Su and Dahlman, {Kimberly B.} and William Pao and Moses, {Harold L.} and Arteaga, {Carlos L.} and Lovvorn, {Harold N.} and Roy Zent and Clark, {Peter E.}",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors. Published by FEBS Press and John Wiley & Sons Ltd.",

year = "2017",

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doi = "10.1002/1878-0261.12044",

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AU - Polosukhina, Dina

AU - Love, Harold D.

AU - Correa, Hernan

AU - Su, Zengliu

AU - Dahlman, Kimberly B.

AU - Pao, William

AU - Moses, Harold L.

AU - Arteaga, Carlos L.

AU - Lovvorn, Harold N.

AU - Zent, Roy

AU - Clark, Peter E.

PY - 2017/4

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N2 - Wilms tumor (WT) is the most common renal neoplasm of childhood and affects 1 in 10 000 children aged less than 15 years. These embryonal tumors are thought to arise from primitive nephrogenic rests that derive from the metanephric mesenchyme during kidney development and are characterized partly by increased Wnt/b-catenin signaling. We previously showed that coordinate activation of Ras and b-catenin accelerates the growth and metastatic progression of a murine WT model. Here, we show that activating KRAS mutations can be found in human WT. In addition, high levels of phosphorylated AKT are present in the majority of WT. We further show in a mouse model and in renal epithelial cells that Ras cooperates with b-catenin to drive metastatic disease progression and promotes in vitro tumor cell growth, migration, and colony formation in soft agar. Cellular transformation and metastatic disease progression of WT cells are in part dependent on PI3K/AKT activation and are inhibited via pharmacological inhibition of this pathway. Our studies suggest both KRAS mutations and AKT activation are present in WT and may represent novel therapeutic targets for this disease.

AB - Wilms tumor (WT) is the most common renal neoplasm of childhood and affects 1 in 10 000 children aged less than 15 years. These embryonal tumors are thought to arise from primitive nephrogenic rests that derive from the metanephric mesenchyme during kidney development and are characterized partly by increased Wnt/b-catenin signaling. We previously showed that coordinate activation of Ras and b-catenin accelerates the growth and metastatic progression of a murine WT model. Here, we show that activating KRAS mutations can be found in human WT. In addition, high levels of phosphorylated AKT are present in the majority of WT. We further show in a mouse model and in renal epithelial cells that Ras cooperates with b-catenin to drive metastatic disease progression and promotes in vitro tumor cell growth, migration, and colony formation in soft agar. Cellular transformation and metastatic disease progression of WT cells are in part dependent on PI3K/AKT activation and are inhibited via pharmacological inhibition of this pathway. Our studies suggest both KRAS mutations and AKT activation are present in WT and may represent novel therapeutic targets for this disease.

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Functional KRAS mutations and a potential role for PI3K/AKT activation in Wilms tumors

Abstract

Keywords

ASJC Scopus subject areas

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