Promyelocytic Leukemia

PML protein plays important roles in regulating cellular homeostasis. It forms PML nuclear bodies (PML-NBs) that act like nuclear relay stations and participate in many cellular functions. In this study, we have examined the proteome of mouse embryonic fibroblasts (MEFs) derived from normal (PML.sup...

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Veröffentlicht in:	PloS one 2013-03, Vol.8 (3), p.e59477
Hauptverfasser:	Tang, Mei Kuen, Liang, Yong Jia, Chan, John Yeuk Hon, Wong, Sing Wan, Chen, Elve, Yao, Yao, Gan, Jingyi, Xiao, Lihai, Leung, Hin Cheung, Kung, Hsiang Fu, Wang, Hua, Lee, Kenneth Ka Ho
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Sprache:	eng
Schlagworte:	Comparative analysis Leukemia Transforming growth factors
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creator	Tang, Mei Kuen Liang, Yong Jia Chan, John Yeuk Hon Wong, Sing Wan Chen, Elve Yao, Yao Gan, Jingyi Xiao, Lihai Leung, Hin Cheung Kung, Hsiang Fu Wang, Hua Lee, Kenneth Ka Ho
description	PML protein plays important roles in regulating cellular homeostasis. It forms PML nuclear bodies (PML-NBs) that act like nuclear relay stations and participate in many cellular functions. In this study, we have examined the proteome of mouse embryonic fibroblasts (MEFs) derived from normal (PML.sup.+/+) and PML knockout (PML.sup.-/-) mice. The aim was to identify proteins that were differentially expressed when MEFs were incapable of producing PML. Using comparative proteomics, total protein were extracted from PML.sup.-/- and PML.sup.+/+ MEFs, resolved by two dimensional electrophoresis (2-DE) gels and the differentially expressed proteins identified by LC-ESI-MS/MS. Nine proteins (PML, NDRG1, CACYBP, CFL1, RSU1, TRIO, CTRO, ANXA4 and UBE2M) were determined to be down-regulated in PML.sup.-/- MEFs. In contrast, ten proteins (CIAPIN1, FAM50A, SUMO2 HSPB1 NSFL1C, PCBP2, YWHAG, STMN1, TPD52L2 and PDAP1) were found up-regulated. Many of these differentially expressed proteins play crucial roles in cell adhesion, migration, morphology and cytokinesis. The protein profiles explain why PML.sup.-/- and PML.sup.+/+ MEFs were morphologically different. In addition, we demonstrated PML.sup.-/- MEFs were less adhesive, proliferated more extensively and migrated significantly slower than PML.sup.+/+ MEFs. NDRG1, a protein that was down-regulated in PML.sup.-/- MEFs, was selected for further investigation. We determined that silencing NDRG1expression in PML.sup.+/+ MEFs increased cell proliferation and inhibited PML expression. Since NDRG expression was suppressed in PML.sup.-/- MEFs, this may explain why these cells proliferate more extensively than PML.sup.+/+ MEFs. Furthermore, silencing NDRG1expression also impaired TGF-[beta]1 signaling by inhibiting SMAD3 phosphorylation.
doi_str_mv	10.1371/journal.pone.0059477
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It forms PML nuclear bodies (PML-NBs) that act like nuclear relay stations and participate in many cellular functions. In this study, we have examined the proteome of mouse embryonic fibroblasts (MEFs) derived from normal (PML.sup.+/+) and PML knockout (PML.sup.-/-) mice. The aim was to identify proteins that were differentially expressed when MEFs were incapable of producing PML. Using comparative proteomics, total protein were extracted from PML.sup.-/- and PML.sup.+/+ MEFs, resolved by two dimensional electrophoresis (2-DE) gels and the differentially expressed proteins identified by LC-ESI-MS/MS. Nine proteins (PML, NDRG1, CACYBP, CFL1, RSU1, TRIO, CTRO, ANXA4 and UBE2M) were determined to be down-regulated in PML.sup.-/- MEFs. In contrast, ten proteins (CIAPIN1, FAM50A, SUMO2 HSPB1 NSFL1C, PCBP2, YWHAG, STMN1, TPD52L2 and PDAP1) were found up-regulated. Many of these differentially expressed proteins play crucial roles in cell adhesion, migration, morphology and cytokinesis. The protein profiles explain why PML.sup.-/- and PML.sup.+/+ MEFs were morphologically different. In addition, we demonstrated PML.sup.-/- MEFs were less adhesive, proliferated more extensively and migrated significantly slower than PML.sup.+/+ MEFs. NDRG1, a protein that was down-regulated in PML.sup.-/- MEFs, was selected for further investigation. We determined that silencing NDRG1expression in PML.sup.+/+ MEFs increased cell proliferation and inhibited PML expression. Since NDRG expression was suppressed in PML.sup.-/- MEFs, this may explain why these cells proliferate more extensively than PML.sup.+/+ MEFs. 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It forms PML nuclear bodies (PML-NBs) that act like nuclear relay stations and participate in many cellular functions. In this study, we have examined the proteome of mouse embryonic fibroblasts (MEFs) derived from normal (PML.sup.+/+) and PML knockout (PML.sup.-/-) mice. The aim was to identify proteins that were differentially expressed when MEFs were incapable of producing PML. Using comparative proteomics, total protein were extracted from PML.sup.-/- and PML.sup.+/+ MEFs, resolved by two dimensional electrophoresis (2-DE) gels and the differentially expressed proteins identified by LC-ESI-MS/MS. Nine proteins (PML, NDRG1, CACYBP, CFL1, RSU1, TRIO, CTRO, ANXA4 and UBE2M) were determined to be down-regulated in PML.sup.-/- MEFs. In contrast, ten proteins (CIAPIN1, FAM50A, SUMO2 HSPB1 NSFL1C, PCBP2, YWHAG, STMN1, TPD52L2 and PDAP1) were found up-regulated. Many of these differentially expressed proteins play crucial roles in cell adhesion, migration, morphology and cytokinesis. The protein profiles explain why PML.sup.-/- and PML.sup.+/+ MEFs were morphologically different. In addition, we demonstrated PML.sup.-/- MEFs were less adhesive, proliferated more extensively and migrated significantly slower than PML.sup.+/+ MEFs. NDRG1, a protein that was down-regulated in PML.sup.-/- MEFs, was selected for further investigation. We determined that silencing NDRG1expression in PML.sup.+/+ MEFs increased cell proliferation and inhibited PML expression. Since NDRG expression was suppressed in PML.sup.-/- MEFs, this may explain why these cells proliferate more extensively than PML.sup.+/+ MEFs. 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It forms PML nuclear bodies (PML-NBs) that act like nuclear relay stations and participate in many cellular functions. In this study, we have examined the proteome of mouse embryonic fibroblasts (MEFs) derived from normal (PML.sup.+/+) and PML knockout (PML.sup.-/-) mice. The aim was to identify proteins that were differentially expressed when MEFs were incapable of producing PML. Using comparative proteomics, total protein were extracted from PML.sup.-/- and PML.sup.+/+ MEFs, resolved by two dimensional electrophoresis (2-DE) gels and the differentially expressed proteins identified by LC-ESI-MS/MS. Nine proteins (PML, NDRG1, CACYBP, CFL1, RSU1, TRIO, CTRO, ANXA4 and UBE2M) were determined to be down-regulated in PML.sup.-/- MEFs. In contrast, ten proteins (CIAPIN1, FAM50A, SUMO2 HSPB1 NSFL1C, PCBP2, YWHAG, STMN1, TPD52L2 and PDAP1) were found up-regulated. Many of these differentially expressed proteins play crucial roles in cell adhesion, migration, morphology and cytokinesis. The protein profiles explain why PML.sup.-/- and PML.sup.+/+ MEFs were morphologically different. In addition, we demonstrated PML.sup.-/- MEFs were less adhesive, proliferated more extensively and migrated significantly slower than PML.sup.+/+ MEFs. NDRG1, a protein that was down-regulated in PML.sup.-/- MEFs, was selected for further investigation. We determined that silencing NDRG1expression in PML.sup.+/+ MEFs increased cell proliferation and inhibited PML expression. Since NDRG expression was suppressed in PML.sup.-/- MEFs, this may explain why these cells proliferate more extensively than PML.sup.+/+ MEFs. Furthermore, silencing NDRG1expression also impaired TGF-[beta]1 signaling by inhibiting SMAD3 phosphorylation.</abstract><pub>Public Library of Science</pub><doi>10.1371/journal.pone.0059477</doi><tpages>e59477</tpages></addata></record>
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subjects	Comparative analysis Leukemia Transforming growth factors
title	Promyelocytic Leukemia
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