Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

Mark A. Eckert; Fabian Coscia; Agnieszka Chryplewicz; Jae Won Chang; Kyle M. Hernandez; Shawn Pan; Samantha M. Tienda; Dominik A. Nahotko; Gang Li; Ivana Blaženović; Ricardo R. Lastra; Marion Curtis; S. Diane Yamada; Ruth Perets; Stephanie M. McGregor; Jorge Andrade; Oliver Fiehn; Raymond E. Moellering; Matthias Mann; Ernst Lengyel

doi:10.1038/s41586-019-1173-8

Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

Mark A. Eckert, Fabian Coscia, Agnieszka Chryplewicz, Jae Won Chang, Kyle M. Hernandez, Shawn Pan, Samantha M. Tienda, Dominik A. Nahotko, Gang Li, Ivana Blaženović, Ricardo R. Lastra, Marion Curtis, S. Diane Yamada, Ruth Perets, Stephanie M. McGregor, Jorge Andrade, Oliver Fiehn, Raymond E. Moellering, Matthias Mann, Ernst Lengyel

Allergy, Asthma and Clinical Immunology

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Abstract

High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer^1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted.

Original language	English (US)
Pages (from-to)	723-728
Number of pages	6
Journal	Nature
Volume	569
Issue number	7758
DOIs	https://doi.org/10.1038/s41586-019-1173-8
State	Published - May 30 2019

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Eckert, M. A., Coscia, F., Chryplewicz, A., Chang, J. W., Hernandez, K. M., Pan, S., Tienda, S. M., Nahotko, D. A., Li, G., Blaženović, I., Lastra, R. R., Curtis, M., Yamada, S. D., Perets, R., McGregor, S. M., Andrade, J., Fiehn, O., Moellering, R. E., Mann, M., & Lengyel, E. (2019). Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts. Nature, 569(7758), 723-728. https://doi.org/10.1038/s41586-019-1173-8

Eckert, MA, Coscia, F, Chryplewicz, A, Chang, JW, Hernandez, KM, Pan, S, Tienda, SM, Nahotko, DA, Li, G, Blaženović, I, Lastra, RR, Curtis, M, Yamada, SD, Perets, R, McGregor, SM, Andrade, J, Fiehn, O, Moellering, RE, Mann, M & Lengyel, E 2019, 'Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts', Nature, vol. 569, no. 7758, pp. 723-728. https://doi.org/10.1038/s41586-019-1173-8

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title = "Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts",

abstract = "High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted.",

author = "Eckert, {Mark A.} and Fabian Coscia and Agnieszka Chryplewicz and Chang, {Jae Won} and Hernandez, {Kyle M.} and Shawn Pan and Tienda, {Samantha M.} and Nahotko, {Dominik A.} and Gang Li and Ivana Bla{\v z}enovi{\'c} and Lastra, {Ricardo R.} and Marion Curtis and Yamada, {S. Diane} and Ruth Perets and McGregor, {Stephanie M.} and Jorge Andrade and Oliver Fiehn and Moellering, {Raymond E.} and Matthias Mann and Ernst Lengyel",

note = "Funding Information: Acknowledgements We thank H. A. Kenny, K. Watters and A. Mukherjee from the University of Chicago ovarian cancer laboratory for helpful discussions; and G. Isenberg, University of Chicago, for editing the manuscript. This work was supported by a Marsha Rivkin Foundation award (M.A.E.), National Cancer Institute (NCI) grants CA111882 and CA211916 (E.L.), the Ludwig Institute for Cancer Research (E.L.), the Arthur L. and Lee G. Herbst Professorship (E.L.), funding support from S. and J. Harris, M. Field, J. Kane and A. Gerry (M.A.E. and S.D.Y.), NIH grant CA175399 and DP2GM128199 (R.E.M.), V Foundation for Cancer Research (V2016-020 to R.E.M.), the K{\"o}rber Foundation/K{\"o}rber European Science Prize (M.M.), the Max-Planck Society for the Advancement of Science (M.M.), the Novo Nordisk Foundation (grant agreement NNF14CC0001 and NNF15CC0001; F.C. and M.M.), and University of Chicago Cancer Center Support Grant P30CA014599. Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = may,

day = "30",

doi = "10.1038/s41586-019-1173-8",

language = "English (US)",

volume = "569",

pages = "723--728",

journal = "Nature",

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T1 - Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

AU - Eckert, Mark A.

AU - Coscia, Fabian

AU - Chryplewicz, Agnieszka

AU - Chang, Jae Won

AU - Hernandez, Kyle M.

AU - Pan, Shawn

AU - Tienda, Samantha M.

AU - Nahotko, Dominik A.

AU - Li, Gang

AU - Blaženović, Ivana

AU - Lastra, Ricardo R.

AU - Curtis, Marion

AU - Yamada, S. Diane

AU - Perets, Ruth

AU - McGregor, Stephanie M.

AU - Andrade, Jorge

AU - Fiehn, Oliver

AU - Moellering, Raymond E.

AU - Mann, Matthias

AU - Lengyel, Ernst

N1 - Funding Information: Acknowledgements We thank H. A. Kenny, K. Watters and A. Mukherjee from the University of Chicago ovarian cancer laboratory for helpful discussions; and G. Isenberg, University of Chicago, for editing the manuscript. This work was supported by a Marsha Rivkin Foundation award (M.A.E.), National Cancer Institute (NCI) grants CA111882 and CA211916 (E.L.), the Ludwig Institute for Cancer Research (E.L.), the Arthur L. and Lee G. Herbst Professorship (E.L.), funding support from S. and J. Harris, M. Field, J. Kane and A. Gerry (M.A.E. and S.D.Y.), NIH grant CA175399 and DP2GM128199 (R.E.M.), V Foundation for Cancer Research (V2016-020 to R.E.M.), the Körber Foundation/Körber European Science Prize (M.M.), the Max-Planck Society for the Advancement of Science (M.M.), the Novo Nordisk Foundation (grant agreement NNF14CC0001 and NNF15CC0001; F.C. and M.M.), and University of Chicago Cancer Center Support Grant P30CA014599. Publisher Copyright: © 2019, The Author(s), under exclusive licence to Springer Nature Limited.

PY - 2019/5/30

Y1 - 2019/5/30

N2 - High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted.

AB - High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted.

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Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

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