A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1

A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1

Abstract Background The RTK/PI3K/AKT pathway plays key roles in the development and progression of many cancers, including GBM. As a regulatory molecule and a potential drug target, the oncogenic role of AKT has been substantially studied. Three isoforms of AKT have been identified, including AKT1,...

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Main Authors: Xin Xia, Xixi Li, Fanying Li, Xujia Wu, Maolei Zhang, Huangkai Zhou, Nunu Huang, Xuesong Yang, Feizhe Xiao, Dawei Liu, Lixuan Yang, Nu Zhang
Format: Article
Language:English
Published: BMC 2019-08-01
Series:Molecular Cancer
Subjects:
circRNA
AKT3
PDK1
Glioblastoma
Online Access:http://link.springer.com/article/10.1186/s12943-019-1056-5
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spelling doaj-86eaa3e4497b4bc2b7efeb6bae81f7ce2020-11-25T03:49:25ZengBMCMolecular Cancer1476-45982019-08-0118111610.1186/s12943-019-1056-5A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1Xin Xia0Xixi Li1Fanying Li2Xujia Wu3Maolei Zhang4Huangkai Zhou5Nunu Huang6Xuesong Yang7Feizhe Xiao8Dawei Liu9Lixuan Yang10Nu Zhang11Department of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Scientific Research Section, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Pathology, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityDepartment of Neurosurgery, The First Affiliated Hospital of Sun Yat-sen UniversityAbstract Background The RTK/PI3K/AKT pathway plays key roles in the development and progression of many cancers, including GBM. As a regulatory molecule and a potential drug target, the oncogenic role of AKT has been substantially studied. Three isoforms of AKT have been identified, including AKT1, AKT2 and AKT3, but their individual functions in GBM remain controversial. Moreover, it is not known if there are more AKT alternative splicing variants. Methods High-throughput RNA sequencing and quantitative reverse transcription-PCR were used to identify the differentially expressed circRNAs in GBM samples and in paired normal tissues. High throughput RNA sequencing was used to identify circ-AKT3 regulated signaling pathways. Mass spectrometry, western blotting and immunofluorescence staining analyses were used to validate AKT3-174aa expression. The tumor suppressive role of AKT3-174aa was validated in vitro and in vivo. The competing interaction between AKT3-174aa and p-PDK1 was investigated by mass spectrometry and immunoprecipitation analyses. Results Circ-AKT3 is a previously uncharacterized AKT transcript variant. Circ-AKT3 is expressed at low levels in GBM tissues compared with the expression in paired adjacent normal brain tissues. Circ-AKT3 encodes a 174 amino acid (aa) novel protein, which we named AKT3-174aa, by utilizing overlapping start-stop codons. AKT3-174aa overexpression decreased the cell proliferation, radiation resistance and in vivo tumorigenicity of GBM cells, while the knockdown of circ-AKT3 enhanced the malignant phenotypes of astrocytoma cells. AKT3-174aa competitively interacts with phosphorylated PDK1, reduces AKT-thr308 phosphorylation, and plays a negative regulatory role in modulating the PI3K/AKT signal intensity. Conclusions Our data indicate that the impaired circRNA expression of the AKT3 gene contributes to GBM tumorigenesis, and our data corroborate the hypothesis that restoring AKT3-174aa while inhibiting activated AKT may provide more benefits for certain GBM patients.http://link.springer.com/article/10.1186/s12943-019-1056-5circRNAAKT3PDK1Glioblastoma
collection DOAJ
language English
format Article
sources DOAJ
author Xin Xia
Xixi Li
Fanying Li
Xujia Wu
Maolei Zhang
Huangkai Zhou
Nunu Huang
Xuesong Yang
Feizhe Xiao
Dawei Liu
Lixuan Yang
Nu Zhang
spellingShingle Xin Xia
Xixi Li
Fanying Li
Xujia Wu
Maolei Zhang
Huangkai Zhou
Nunu Huang
Xuesong Yang
Feizhe Xiao
Dawei Liu
Lixuan Yang
Nu Zhang
A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
Molecular Cancer
circRNA
AKT3
PDK1
Glioblastoma
author_facet Xin Xia
Xixi Li
Fanying Li
Xujia Wu
Maolei Zhang
Huangkai Zhou
Nunu Huang
Xuesong Yang
Feizhe Xiao
Dawei Liu
Lixuan Yang
Nu Zhang
author_sort Xin Xia
title A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
title_short A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
title_full A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
title_fullStr A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
title_full_unstemmed A novel tumor suppressor protein encoded by circular AKT3 RNA inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent Kinase-1
title_sort novel tumor suppressor protein encoded by circular akt3 rna inhibits glioblastoma tumorigenicity by competing with active phosphoinositide-dependent kinase-1
publisher BMC
series Molecular Cancer
issn 1476-4598
publishDate 2019-08-01
description Abstract Background The RTK/PI3K/AKT pathway plays key roles in the development and progression of many cancers, including GBM. As a regulatory molecule and a potential drug target, the oncogenic role of AKT has been substantially studied. Three isoforms of AKT have been identified, including AKT1, AKT2 and AKT3, but their individual functions in GBM remain controversial. Moreover, it is not known if there are more AKT alternative splicing variants. Methods High-throughput RNA sequencing and quantitative reverse transcription-PCR were used to identify the differentially expressed circRNAs in GBM samples and in paired normal tissues. High throughput RNA sequencing was used to identify circ-AKT3 regulated signaling pathways. Mass spectrometry, western blotting and immunofluorescence staining analyses were used to validate AKT3-174aa expression. The tumor suppressive role of AKT3-174aa was validated in vitro and in vivo. The competing interaction between AKT3-174aa and p-PDK1 was investigated by mass spectrometry and immunoprecipitation analyses. Results Circ-AKT3 is a previously uncharacterized AKT transcript variant. Circ-AKT3 is expressed at low levels in GBM tissues compared with the expression in paired adjacent normal brain tissues. Circ-AKT3 encodes a 174 amino acid (aa) novel protein, which we named AKT3-174aa, by utilizing overlapping start-stop codons. AKT3-174aa overexpression decreased the cell proliferation, radiation resistance and in vivo tumorigenicity of GBM cells, while the knockdown of circ-AKT3 enhanced the malignant phenotypes of astrocytoma cells. AKT3-174aa competitively interacts with phosphorylated PDK1, reduces AKT-thr308 phosphorylation, and plays a negative regulatory role in modulating the PI3K/AKT signal intensity. Conclusions Our data indicate that the impaired circRNA expression of the AKT3 gene contributes to GBM tumorigenesis, and our data corroborate the hypothesis that restoring AKT3-174aa while inhibiting activated AKT may provide more benefits for certain GBM patients.
topic circRNA
AKT3
PDK1
Glioblastoma
url http://link.springer.com/article/10.1186/s12943-019-1056-5
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