Protein arginine methyltransferase 5 is a potential oncoprotein that upregulates G1 cyclins/cyclin‐dependent kinases and the phosphoinositide 3‐kinase/AKT signaling cascade
Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell‐transforming activity of PRMT5. We investigated the involvement of PRMT5 in tumor formation. First, we showed that PRMT5 was associat...
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| Published in | Cancer science Vol. 103; no. 9; pp. 1640 - 1650 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
John Wiley and Sons Inc
01.09.2012
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| Abstract | Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell‐transforming activity of PRMT5. We investigated the involvement of PRMT5 in tumor formation. First, we showed that PRMT5 was associated with many human cancers, through statistical analysis of microarray data in the NCBI GEO database. Overexpression of ectopic PRMT5 per se or its specific shRNA enhanced or reduced cell growth under conditions of normal or low concentrations of serum, low cell density, and poor cell attachment. A stable clone that expressed exogenous PRMT5 formed tumors in nude mice, which demonstrated that PRMT5 is a potential oncoprotein. PRMT5 accelerated cell cycle progression through G1 phase and modulated regulators of G1; for example, it upregulated cyclin‐dependent kinase (CDK) 4, CDK6, and cyclins D1, D2 and E1, and inactivated retinoblastoma protein (Rb). Moreover, PRMT5 activated phosphoinositide 3‐kinase (PI3K)/AKT and suppressed c‐Jun N‐terminal kinase (JNK)/c‐Jun signaling cascades. However, only inhibition of PI3K activity, and not overexpression of JNK, blocked PRMT5‐induced cell proliferation. Further analysis of PRMT5 expression in 64 samples of human lung cancer tissues by microarray and western blot analysis revealed a tight association of PRMT5 with lung cancer. Knockdown of PRMT5 retarded cell growth of lung cancer cell lines A549 and H1299. In conclusion, to the best of our knowledge, we have characterized the cell‐transforming activity of PRMT5 and delineated its underlying mechanisms for the first time. |
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| AbstractList | Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell-transforming activity of PRMT5. We investigated the involvement of PRMT5 in tumor formation. First, we showed that PRMT5 was associated with many human cancers, through statistical analysis of microarray data in the NCBI GEO database. Overexpression of ectopic PRMT5 per se or its specific shRNA enhanced or reduced cell growth under conditions of normal or low concentrations of serum, low cell density, and poor cell attachment. A stable clone that expressed exogenous PRMT5 formed tumors in nude mice, which demonstrated that PRMT5 is a potential oncoprotein. PRMT5 accelerated cell cycle progression through G1 phase and modulated regulators of G1; for example, it upregulated cyclin-dependent kinase (CDK) 4, CDK6, and cyclins D1, D2 and E1, and inactivated retinoblastoma protein (Rb). Moreover, PRMT5 activated phosphoinositide 3-kinase (PI3K)/AKT and suppressed c-Jun N-terminal kinase (JNK)/c-Jun signaling cascades. However, only inhibition of PI3K activity, and not overexpression of JNK, blocked PRMT5-induced cell proliferation. Further analysis of PRMT5 expression in 64 samples of human lung cancer tissues by microarray and western blot analysis revealed a tight association of PRMT5 with lung cancer. Knockdown of PRMT5 retarded cell growth of lung cancer cell lines A549 and H1299. In conclusion, to the best of our knowledge, we have characterized the cell-transforming activity of PRMT5 and delineated its underlying mechanisms for the first time.Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell-transforming activity of PRMT5. We investigated the involvement of PRMT5 in tumor formation. First, we showed that PRMT5 was associated with many human cancers, through statistical analysis of microarray data in the NCBI GEO database. Overexpression of ectopic PRMT5 per se or its specific shRNA enhanced or reduced cell growth under conditions of normal or low concentrations of serum, low cell density, and poor cell attachment. A stable clone that expressed exogenous PRMT5 formed tumors in nude mice, which demonstrated that PRMT5 is a potential oncoprotein. PRMT5 accelerated cell cycle progression through G1 phase and modulated regulators of G1; for example, it upregulated cyclin-dependent kinase (CDK) 4, CDK6, and cyclins D1, D2 and E1, and inactivated retinoblastoma protein (Rb). Moreover, PRMT5 activated phosphoinositide 3-kinase (PI3K)/AKT and suppressed c-Jun N-terminal kinase (JNK)/c-Jun signaling cascades. However, only inhibition of PI3K activity, and not overexpression of JNK, blocked PRMT5-induced cell proliferation. Further analysis of PRMT5 expression in 64 samples of human lung cancer tissues by microarray and western blot analysis revealed a tight association of PRMT5 with lung cancer. Knockdown of PRMT5 retarded cell growth of lung cancer cell lines A549 and H1299. In conclusion, to the best of our knowledge, we have characterized the cell-transforming activity of PRMT5 and delineated its underlying mechanisms for the first time. Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell‐transforming activity of PRMT5. We investigated the involvement of PRMT5 in tumor formation. First, we showed that PRMT5 was associated with many human cancers, through statistical analysis of microarray data in the NCBI GEO database. Overexpression of ectopic PRMT5 per se or its specific shRNA enhanced or reduced cell growth under conditions of normal or low concentrations of serum, low cell density, and poor cell attachment. A stable clone that expressed exogenous PRMT5 formed tumors in nude mice, which demonstrated that PRMT5 is a potential oncoprotein. PRMT5 accelerated cell cycle progression through G1 phase and modulated regulators of G1; for example, it upregulated cyclin‐dependent kinase (CDK) 4, CDK6, and cyclins D1, D2 and E1, and inactivated retinoblastoma protein (Rb). Moreover, PRMT5 activated phosphoinositide 3‐kinase (PI3K)/AKT and suppressed c‐Jun N‐terminal kinase (JNK)/c‐Jun signaling cascades. However, only inhibition of PI3K activity, and not overexpression of JNK, blocked PRMT5‐induced cell proliferation. Further analysis of PRMT5 expression in 64 samples of human lung cancer tissues by microarray and western blot analysis revealed a tight association of PRMT5 with lung cancer. Knockdown of PRMT5 retarded cell growth of lung cancer cell lines A549 and H1299. In conclusion, to the best of our knowledge, we have characterized the cell‐transforming activity of PRMT5 and delineated its underlying mechanisms for the first time. Increasing evidence suggests that PRMT 5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated the cell‐transforming activity of PRMT 5. We investigated the involvement of PRMT 5 in tumor formation. First, we showed that PRMT 5 was associated with many human cancers, through statistical analysis of microarray data in the NCBI GEO database. Overexpression of ectopic PRMT 5 per se or its specific sh RNA enhanced or reduced cell growth under conditions of normal or low concentrations of serum, low cell density, and poor cell attachment. A stable clone that expressed exogenous PRMT 5 formed tumors in nude mice, which demonstrated that PRMT 5 is a potential oncoprotein. PRMT 5 accelerated cell cycle progression through G 1 phase and modulated regulators of G 1; for example, it upregulated cyclin‐dependent kinase ( CDK ) 4, CDK 6, and cyclins D 1, D 2 and E 1, and inactivated retinoblastoma protein ( R b). Moreover, PRMT 5 activated phosphoinositide 3‐kinase ( PI 3K)/ AKT and suppressed c‐ J un N ‐terminal kinase ( JNK )/c‐ J un signaling cascades. However, only inhibition of PI 3 K activity, and not overexpression of JNK , blocked PRMT 5‐induced cell proliferation. Further analysis of PRMT 5 expression in 64 samples of human lung cancer tissues by microarray and western blot analysis revealed a tight association of PRMT 5 with lung cancer. Knockdown of PRMT 5 retarded cell growth of lung cancer cell lines A 549 and H 1299. In conclusion, to the best of our knowledge, we have characterized the cell‐transforming activity of PRMT 5 and delineated its underlying mechanisms for the first time. |
| Author | Wei, Tong‐You W. Chou, Hsiang‐Yun Hisa, Jiun‐Yi Wu, Yu‐Chung Liu, Kuo‐Lin Lee, Yuan‐Chii G. Juan, Chi‐Chang Chiu, Shao‐Chih Hsu, Chung‐Ping Yu, Chang‐Tze R. Su, Li‐Jen Chen, Jo‐Mei M. |
| AuthorAffiliation | 8 Graduate Institute of Immunology China Medical University Taichung Taiwan 1 Graduate Institute of Biomedicine and Biomedical Technology National Chi Nan University Puli Taiwan 4 Institute of Systems Biology and Bioinformatics National Central University Jhongli City Taoyuan County Taiwan 6 Division of Thoracic Surgery Department of Surgery, Taipei Veterans General Hospital Taipei Taiwan 11 Department of Applied Chemistry National Chi Nan University Puli Taiwan 2 Department of Physiology National Yang‐Ming University Taipei Taiwan 3 Division of Thoracic Surgery, Department of Surgery Taichung Veterans General Hospital Taichung Taiwan 7 Institute of Clinical Medicine, National Yang‐Ming University Taipei Taiwan 10 Department of Emergency Medicine Hsinchu Cathay General Hospital Hsinchu Taiwan 9 Center for Neuropsychiatry China Medical University Hospital Taichung Taiwan 5 Graduate Institute of Biomedical Informatics Taipei Medical University Taipei Taiwan |
| AuthorAffiliation_xml | – name: 5 Graduate Institute of Biomedical Informatics Taipei Medical University Taipei Taiwan – name: 1 Graduate Institute of Biomedicine and Biomedical Technology National Chi Nan University Puli Taiwan – name: 6 Division of Thoracic Surgery Department of Surgery, Taipei Veterans General Hospital Taipei Taiwan – name: 2 Department of Physiology National Yang‐Ming University Taipei Taiwan – name: 11 Department of Applied Chemistry National Chi Nan University Puli Taiwan – name: 8 Graduate Institute of Immunology China Medical University Taichung Taiwan – name: 7 Institute of Clinical Medicine, National Yang‐Ming University Taipei Taiwan – name: 10 Department of Emergency Medicine Hsinchu Cathay General Hospital Hsinchu Taiwan – name: 4 Institute of Systems Biology and Bioinformatics National Central University Jhongli City Taoyuan County Taiwan – name: 9 Center for Neuropsychiatry China Medical University Hospital Taichung Taiwan – name: 3 Division of Thoracic Surgery, Department of Surgery Taichung Veterans General Hospital Taichung Taiwan |
| Author_xml | – sequence: 1 givenname: Tong‐You W. surname: Wei fullname: Wei, Tong‐You W. organization: National Chi Nan University – sequence: 2 givenname: Chi‐Chang surname: Juan fullname: Juan, Chi‐Chang organization: National Yang‐Ming University – sequence: 3 givenname: Jiun‐Yi surname: Hisa fullname: Hisa, Jiun‐Yi organization: Taichung Veterans General Hospital – sequence: 4 givenname: Li‐Jen surname: Su fullname: Su, Li‐Jen organization: National Central University – sequence: 5 givenname: Yuan‐Chii G. surname: Lee fullname: Lee, Yuan‐Chii G. organization: Taipei Medical University – sequence: 6 givenname: Hsiang‐Yun surname: Chou fullname: Chou, Hsiang‐Yun organization: National Yang‐Ming University – sequence: 7 givenname: Jo‐Mei M. surname: Chen fullname: Chen, Jo‐Mei M. organization: National Chi Nan University – sequence: 8 givenname: Yu‐Chung surname: Wu fullname: Wu, Yu‐Chung organization: Institute of Clinical Medicine, National Yang‐Ming University – sequence: 9 givenname: Shao‐Chih surname: Chiu fullname: Chiu, Shao‐Chih organization: China Medical University Hospital – sequence: 10 givenname: Chung‐Ping surname: Hsu fullname: Hsu, Chung‐Ping organization: Taichung Veterans General Hospital – sequence: 11 givenname: Kuo‐Lin surname: Liu fullname: Liu, Kuo‐Lin organization: Hsinchu Cathay General Hospital – sequence: 12 givenname: Chang‐Tze R. surname: Yu fullname: Yu, Chang‐Tze R. organization: National Chi Nan University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/22726390$$D View this record in MEDLINE/PubMed |
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| Snippet | Increasing evidence suggests that PRMT5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated... Increasing evidence suggests that PRMT 5, a protein arginine methyltransferase, is involved in tumorigenesis. However, no systematic research has demonstrated... |
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| SubjectTerms | 1-Phosphatidylinositol 3-kinase AKT protein Animals c-Jun amino-terminal kinase c-Jun protein Cell adhesion Cell cycle Cell density Cell Line, Tumor Cell proliferation Cell Transformation, Neoplastic - genetics Cell Transformation, Neoplastic - metabolism cyclin D1 Cyclin-dependent kinase Cyclin-Dependent Kinases - metabolism Cyclins Data processing G1 Phase Gene Expression Regulation, Neoplastic Humans Lung cancer Lung Neoplasms - genetics Lung Neoplasms - metabolism Mice Mice, Nude Oncogene Proteins - genetics Oncogene Proteins - metabolism Original Phosphatidylinositol 3-Kinases - metabolism phosphoinositides protein arginine methyltransferase Protein-Arginine N-Methyltransferases - genetics Protein-Arginine N-Methyltransferases - metabolism Proto-Oncogene Proteins c-akt - metabolism Retinoblastoma protein Signal Transduction Statistical analysis Transcription factors Tumor cell lines Tumorigenesis Western blotting |
| Title | Protein arginine methyltransferase 5 is a potential oncoprotein that upregulates G1 cyclins/cyclin‐dependent kinases and the phosphoinositide 3‐kinase/AKT signaling cascade |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1349-7006.2012.02367.x https://www.ncbi.nlm.nih.gov/pubmed/22726390 https://www.proquest.com/docview/1037885517 https://www.proquest.com/docview/1093456641 https://pubmed.ncbi.nlm.nih.gov/PMC7659304 |
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