Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels

Philipp Mertins; Feng Yang; Tao Liu; D. R. Mani; Vladislav A. Petyuk; Michael A. Gillette; Karl R. Clauser; Jana W. Qiao; Marina A. Gritsenko; Ronald J. Moore; Douglas A. Levine; Reid Townsend; Petra Erdmann-Gilmore; Jacqueline E. Snider; Sherri R. Davies; Kelly V. Ruggles; David Fenyo; R. Thomas Kitchens; Shunqiang Li; Narciso Olvera; Fanny Dao; Henry Rodriguez; Daniel W. Chan; Daniel Liebler; Forest White; Karin D. Rodland; Gordon B. Mills; Richard D. Smith; Amanda G. Paulovich; Matthew Ellis; Steven A. Carr

doi:10.1074/mcp.M113.036392

Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels

Philipp Mertins, Feng Yang, Tao Liu, D. R. Mani, Vladislav A. Petyuk, Michael A. Gillette, Karl R. Clauser, Jana W. Qiao, Marina A. Gritsenko, Ronald J. Moore, Douglas A. Levine, Reid Townsend, Petra Erdmann-Gilmore, Jacqueline E. Snider, Sherri R. Davies, Kelly V. Ruggles, David Fenyo, R. Thomas Kitchens, Shunqiang Li, Narciso OlveraFanny Dao, Henry Rodriguez, Daniel W. Chan, Daniel Liebler, Forest White, Karin D. Rodland, Gordon B. Mills, Richard D. Smith, Amanda G. Paulovich, Matthew Ellis, Steven A. Carr

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

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Abstract

Protein abundance and phosphorylation convey important information about pathway activity and molecular pathophysiology in diseases including cancer, providing biological insight, informing drug and diagnostic development, and guiding therapeutic intervention. Analyzed tissues are usually collected without tight regulation or documentation of ischemic time. To evaluate the impact of ischemia, we collected human ovarian tumor and breast cancer xenograft tissue without vascular interruption and performed quantitative proteomics and phosphoproteomics after defined ischemic intervals. Although the global expressed proteome and most of the >25,000 quantified phosphosites were unchanged after 60 min, rapid phosphorylation changes were observed in up to 24% of the phosphoproteome, representing activation of critical cancer pathways related to stress response, transcriptional regulation, and cell death. Both pan-tumor and tissuespecific changes were observed. The demonstrated impact of pre-analytical tissue ischemia on tumor biology mandates caution in interpreting stress-pathway activation in such samples and motivates reexamination of collection protocols for phosphoprotein analysis.

Original language	English (US)
Pages (from-to)	1690-1704
Number of pages	15
Journal	Molecular and Cellular Proteomics
Volume	13
Issue number	7
DOIs	https://doi.org/10.1074/mcp.M113.036392
State	Published - Jul 2014
Externally published	Yes

ASJC Scopus subject areas

Analytical Chemistry
Biochemistry
Molecular Biology

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Mertins, P., Yang, F., Liu, T., Mani, D. R., Petyuk, V. A., Gillette, M. A., Clauser, K. R., Qiao, J. W., Gritsenko, M. A., Moore, R. J., Levine, D. A., Townsend, R., Erdmann-Gilmore, P., Snider, J. E., Davies, S. R., Ruggles, K. V., Fenyo, D., Kitchens, R. T., Li, S., ... Carr, S. A. (2014). Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels. Molecular and Cellular Proteomics, 13(7), 1690-1704. https://doi.org/10.1074/mcp.M113.036392

Mertins, P, Yang, F, Liu, T, Mani, DR, Petyuk, VA, Gillette, MA, Clauser, KR, Qiao, JW, Gritsenko, MA, Moore, RJ, Levine, DA, Townsend, R, Erdmann-Gilmore, P, Snider, JE, Davies, SR, Ruggles, KV, Fenyo, D, Kitchens, RT, Li, S, Olvera, N, Dao, F, Rodriguez, H, Chan, DW, Liebler, D, White, F, Rodland, KD, Mills, GB, Smith, RD, Paulovich, AG, Ellis, M & Carr, SA 2014, 'Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels', Molecular and Cellular Proteomics, vol. 13, no. 7, pp. 1690-1704. https://doi.org/10.1074/mcp.M113.036392

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title = "Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels",

abstract = "Protein abundance and phosphorylation convey important information about pathway activity and molecular pathophysiology in diseases including cancer, providing biological insight, informing drug and diagnostic development, and guiding therapeutic intervention. Analyzed tissues are usually collected without tight regulation or documentation of ischemic time. To evaluate the impact of ischemia, we collected human ovarian tumor and breast cancer xenograft tissue without vascular interruption and performed quantitative proteomics and phosphoproteomics after defined ischemic intervals. Although the global expressed proteome and most of the >25,000 quantified phosphosites were unchanged after 60 min, rapid phosphorylation changes were observed in up to 24% of the phosphoproteome, representing activation of critical cancer pathways related to stress response, transcriptional regulation, and cell death. Both pan-tumor and tissuespecific changes were observed. The demonstrated impact of pre-analytical tissue ischemia on tumor biology mandates caution in interpreting stress-pathway activation in such samples and motivates reexamination of collection protocols for phosphoprotein analysis.",

author = "Philipp Mertins and Feng Yang and Tao Liu and Mani, {D. R.} and Petyuk, {Vladislav A.} and Gillette, {Michael A.} and Clauser, {Karl R.} and Qiao, {Jana W.} and Gritsenko, {Marina A.} and Moore, {Ronald J.} and Levine, {Douglas A.} and Reid Townsend and Petra Erdmann-Gilmore and Snider, {Jacqueline E.} and Davies, {Sherri R.} and Ruggles, {Kelly V.} and David Fenyo and Kitchens, {R. Thomas} and Shunqiang Li and Narciso Olvera and Fanny Dao and Henry Rodriguez and Chan, {Daniel W.} and Daniel Liebler and Forest White and Rodland, {Karin D.} and Mills, {Gordon B.} and Smith, {Richard D.} and Paulovich, {Amanda G.} and Matthew Ellis and Carr, {Steven A.}",

year = "2014",

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doi = "10.1074/mcp.M113.036392",

language = "English (US)",

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AU - Mertins, Philipp

AU - Yang, Feng

AU - Liu, Tao

AU - Mani, D. R.

AU - Petyuk, Vladislav A.

AU - Gillette, Michael A.

AU - Clauser, Karl R.

AU - Qiao, Jana W.

AU - Gritsenko, Marina A.

AU - Moore, Ronald J.

AU - Levine, Douglas A.

AU - Townsend, Reid

AU - Erdmann-Gilmore, Petra

AU - Snider, Jacqueline E.

AU - Davies, Sherri R.

AU - Ruggles, Kelly V.

AU - Fenyo, David

AU - Kitchens, R. Thomas

AU - Li, Shunqiang

AU - Olvera, Narciso

AU - Dao, Fanny

AU - Rodriguez, Henry

AU - Chan, Daniel W.

AU - Liebler, Daniel

AU - White, Forest

AU - Rodland, Karin D.

AU - Mills, Gordon B.

AU - Smith, Richard D.

AU - Paulovich, Amanda G.

AU - Ellis, Matthew

AU - Carr, Steven A.

PY - 2014/7

Y1 - 2014/7

N2 - Protein abundance and phosphorylation convey important information about pathway activity and molecular pathophysiology in diseases including cancer, providing biological insight, informing drug and diagnostic development, and guiding therapeutic intervention. Analyzed tissues are usually collected without tight regulation or documentation of ischemic time. To evaluate the impact of ischemia, we collected human ovarian tumor and breast cancer xenograft tissue without vascular interruption and performed quantitative proteomics and phosphoproteomics after defined ischemic intervals. Although the global expressed proteome and most of the >25,000 quantified phosphosites were unchanged after 60 min, rapid phosphorylation changes were observed in up to 24% of the phosphoproteome, representing activation of critical cancer pathways related to stress response, transcriptional regulation, and cell death. Both pan-tumor and tissuespecific changes were observed. The demonstrated impact of pre-analytical tissue ischemia on tumor biology mandates caution in interpreting stress-pathway activation in such samples and motivates reexamination of collection protocols for phosphoprotein analysis.

AB - Protein abundance and phosphorylation convey important information about pathway activity and molecular pathophysiology in diseases including cancer, providing biological insight, informing drug and diagnostic development, and guiding therapeutic intervention. Analyzed tissues are usually collected without tight regulation or documentation of ischemic time. To evaluate the impact of ischemia, we collected human ovarian tumor and breast cancer xenograft tissue without vascular interruption and performed quantitative proteomics and phosphoproteomics after defined ischemic intervals. Although the global expressed proteome and most of the >25,000 quantified phosphosites were unchanged after 60 min, rapid phosphorylation changes were observed in up to 24% of the phosphoproteome, representing activation of critical cancer pathways related to stress response, transcriptional regulation, and cell death. Both pan-tumor and tissuespecific changes were observed. The demonstrated impact of pre-analytical tissue ischemia on tumor biology mandates caution in interpreting stress-pathway activation in such samples and motivates reexamination of collection protocols for phosphoprotein analysis.

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Ischemia in tumors induces early and sustained phosphorylation changes in stress kinase pathways but does not affect global protein levels

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