Proteomic analysis of pRb loss highlights a signature of decreased mitochondrial oxidative phosphorylation

The retinoblastoma tumor suppressor (pRb) protein associates with chromatin and regulates gene expression. Numerous studies have identified Rb-dependent RNA signatures, but the proteomic effects of Rb loss are largely unexplored. We acutely ablated Rb in adult mice and conducted a quantitative analy...

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Veröffentlicht in:	Genes & development 2015-09, Vol.29 (17), p.1875-1889
Hauptverfasser:	Nicolay, Brandon N, Danielian, Paul S, Kottakis, Filippos, Lapek, Jr, John D, Sanidas, Ioannis, Miles, Wayne O, Dehnad, Mantre, Tschöp, Katrin, Gierut, Jessica J, Manning, Amity L, Morris, Robert, Haigis, Kevin, Bardeesy, Nabeel, Lees, Jacqueline A, Haas, Wilhelm, Dyson, Nicholas J
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Schlagworte:	Animals Cells, Cultured Colon - physiopathology Gene Expression Regulation Gene Knockout Techniques Humans Lung - physiopathology Mice Mitochondria - genetics Mitochondria - metabolism Mitochondrial Proteins - genetics Mitochondrial Proteins - metabolism Oxidative Phosphorylation Proteomics Resource/Methodology Retinoblastoma Protein - genetics Retinoblastoma Protein - metabolism Stress, Physiological - genetics Transcriptome
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creator	Nicolay, Brandon N Danielian, Paul S Kottakis, Filippos Lapek, Jr, John D Sanidas, Ioannis Miles, Wayne O Dehnad, Mantre Tschöp, Katrin Gierut, Jessica J Manning, Amity L Morris, Robert Haigis, Kevin Bardeesy, Nabeel Lees, Jacqueline A Haas, Wilhelm Dyson, Nicholas J
description	The retinoblastoma tumor suppressor (pRb) protein associates with chromatin and regulates gene expression. Numerous studies have identified Rb-dependent RNA signatures, but the proteomic effects of Rb loss are largely unexplored. We acutely ablated Rb in adult mice and conducted a quantitative analysis of RNA and proteomic changes in the colon and lungs, where Rb(KO) was sufficient or insufficient to induce ectopic proliferation, respectively. As expected, Rb(KO) caused similar increases in classic pRb/E2F-regulated transcripts in both tissues, but, unexpectedly, their protein products increased only in the colon, consistent with its increased proliferative index. Thus, these protein changes induced by Rb loss are coupled with proliferation but uncoupled from transcription. The proteomic changes in common between Rb(KO) tissues showed a striking decrease in proteins with mitochondrial functions. Accordingly, RB1 inactivation in human cells decreased both mitochondrial mass and oxidative phosphorylation (OXPHOS) function. RB(KO) cells showed decreased mitochondrial respiratory capacity and the accumulation of hypopolarized mitochondria. Additionally, RB/Rb loss altered mitochondrial pyruvate oxidation from (13)C-glucose through the TCA cycle in mouse tissues and cultured cells. Consequently, RB(KO) cells have an enhanced sensitivity to mitochondrial stress conditions. In summary, proteomic analyses provide a new perspective on Rb/RB1 mutation, highlighting the importance of pRb for mitochondrial function and suggesting vulnerabilities for treatment.
doi_str_mv	10.1101/gad.264127.115
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Numerous studies have identified Rb-dependent RNA signatures, but the proteomic effects of Rb loss are largely unexplored. We acutely ablated Rb in adult mice and conducted a quantitative analysis of RNA and proteomic changes in the colon and lungs, where Rb(KO) was sufficient or insufficient to induce ectopic proliferation, respectively. As expected, Rb(KO) caused similar increases in classic pRb/E2F-regulated transcripts in both tissues, but, unexpectedly, their protein products increased only in the colon, consistent with its increased proliferative index. Thus, these protein changes induced by Rb loss are coupled with proliferation but uncoupled from transcription. The proteomic changes in common between Rb(KO) tissues showed a striking decrease in proteins with mitochondrial functions. Accordingly, RB1 inactivation in human cells decreased both mitochondrial mass and oxidative phosphorylation (OXPHOS) function. RB(KO) cells showed decreased mitochondrial respiratory capacity and the accumulation of hypopolarized mitochondria. Additionally, RB/Rb loss altered mitochondrial pyruvate oxidation from (13)C-glucose through the TCA cycle in mouse tissues and cultured cells. Consequently, RB(KO) cells have an enhanced sensitivity to mitochondrial stress conditions. 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Numerous studies have identified Rb-dependent RNA signatures, but the proteomic effects of Rb loss are largely unexplored. We acutely ablated Rb in adult mice and conducted a quantitative analysis of RNA and proteomic changes in the colon and lungs, where Rb(KO) was sufficient or insufficient to induce ectopic proliferation, respectively. As expected, Rb(KO) caused similar increases in classic pRb/E2F-regulated transcripts in both tissues, but, unexpectedly, their protein products increased only in the colon, consistent with its increased proliferative index. Thus, these protein changes induced by Rb loss are coupled with proliferation but uncoupled from transcription. The proteomic changes in common between Rb(KO) tissues showed a striking decrease in proteins with mitochondrial functions. Accordingly, RB1 inactivation in human cells decreased both mitochondrial mass and oxidative phosphorylation (OXPHOS) function. RB(KO) cells showed decreased mitochondrial respiratory capacity and the accumulation of hypopolarized mitochondria. Additionally, RB/Rb loss altered mitochondrial pyruvate oxidation from (13)C-glucose through the TCA cycle in mouse tissues and cultured cells. Consequently, RB(KO) cells have an enhanced sensitivity to mitochondrial stress conditions. In summary, proteomic analyses provide a new perspective on Rb/RB1 mutation, highlighting the importance of pRb for mitochondrial function and suggesting vulnerabilities for treatment.</description><subject>Animals</subject><subject>Cells, Cultured</subject><subject>Colon - physiopathology</subject><subject>Gene Expression Regulation</subject><subject>Gene Knockout Techniques</subject><subject>Humans</subject><subject>Lung - physiopathology</subject><subject>Mice</subject><subject>Mitochondria - genetics</subject><subject>Mitochondria - metabolism</subject><subject>Mitochondrial Proteins - genetics</subject><subject>Mitochondrial Proteins - metabolism</subject><subject>Oxidative Phosphorylation</subject><subject>Proteomics</subject><subject>Resource/Methodology</subject><subject>Retinoblastoma Protein - genetics</subject><subject>Retinoblastoma Protein - metabolism</subject><subject>Stress, Physiological - genetics</subject><subject>Transcriptome</subject><issn>0890-9369</issn><issn>1549-5477</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkc1LxDAQxYMo7vpx9Sg5eumapGnSXAQRv0BQRM8hTdJtlrRZk664_71ZVkVvHobhkV8eM_MAOMFohjHC53NlZoRRTHjW1Q6Y4oqKoqKc74IpqgUqRMnEBByktEAIMcTYPpgQVmLKMZqCxVMMow2901ANyq-TSzC0cPncQB9Sgp2bdz7XmKCCyc0HNa6i3SDG6mhVsgb2bgy6C4OJTnkYPpxRo3u3cNmFlCuufdZhOAJ7rfLJHn_1Q_B6c_1ydVc8PN7eX10-FJrWYiyIaIRuBK95RYlu8jpcsLIhjOCa5C5aUwlNLa2JoYq0mivBFW0wJ23TMlMegout73LV9NZoO4xRebmMrldxLYNy8u_L4Do5D--SVrysK5ENzr4MYnhb2TTK3iVtvVeDDaskMS9JTUi--T9QJDjiJasyOtuiOubDRtv-TISR3GQpc5Zym2XWmw-nv_f4wb_DKz8B9vadNw</recordid><startdate>20150901</startdate><enddate>20150901</enddate><creator>Nicolay, Brandon N</creator><creator>Danielian, Paul S</creator><creator>Kottakis, Filippos</creator><creator>Lapek, Jr, John D</creator><creator>Sanidas, Ioannis</creator><creator>Miles, Wayne O</creator><creator>Dehnad, Mantre</creator><creator>Tschöp, Katrin</creator><creator>Gierut, Jessica J</creator><creator>Manning, Amity L</creator><creator>Morris, Robert</creator><creator>Haigis, Kevin</creator><creator>Bardeesy, Nabeel</creator><creator>Lees, Jacqueline A</creator><creator>Haas, Wilhelm</creator><creator>Dyson, Nicholas J</creator><general>Cold Spring Harbor Laboratory Press</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7TM</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope><scope>5PM</scope></search><sort><creationdate>20150901</creationdate><title>Proteomic analysis of pRb loss highlights a signature of decreased mitochondrial oxidative phosphorylation</title><author>Nicolay, Brandon N ; 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RB(KO) cells showed decreased mitochondrial respiratory capacity and the accumulation of hypopolarized mitochondria. Additionally, RB/Rb loss altered mitochondrial pyruvate oxidation from (13)C-glucose through the TCA cycle in mouse tissues and cultured cells. Consequently, RB(KO) cells have an enhanced sensitivity to mitochondrial stress conditions. In summary, proteomic analyses provide a new perspective on Rb/RB1 mutation, highlighting the importance of pRb for mitochondrial function and suggesting vulnerabilities for treatment.</abstract><cop>United States</cop><pub>Cold Spring Harbor Laboratory Press</pub><pmid>26314710</pmid><doi>10.1101/gad.264127.115</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Cells, Cultured Colon - physiopathology Gene Expression Regulation Gene Knockout Techniques Humans Lung - physiopathology Mice Mitochondria - genetics Mitochondria - metabolism Mitochondrial Proteins - genetics Mitochondrial Proteins - metabolism Oxidative Phosphorylation Proteomics Resource/Methodology Retinoblastoma Protein - genetics Retinoblastoma Protein - metabolism Stress, Physiological - genetics Transcriptome
title	Proteomic analysis of pRb loss highlights a signature of decreased mitochondrial oxidative phosphorylation
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