The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome

Lazaro Hiram Betancourt; Jeovanis Gil; Aniel Sanchez; Magdalena Kuras; Erika Velasquez; Yonghyo Kim; Yutaka Sugihara; Indira Pla Parada; Roger Appelqvist; Elisabet Wieslander; Charlotte Welinder; Natália Pinto de Almeida; Nicole Woldmar; Matilda Marko-Varga; Jonatan Eriksson; Bo Baldetorp; Christian Ingvar; Håkan Olsson; Lotta Lundgren; Henrik Lindberg; Henriett Oskolas; Boram Lee; Ethan Berge; Marie Sjögren; Carina Eriksson; Dasol Kim; Ho Jeong Kwon; Melinda Rezeli; Johan Malm; Peter Horvath; Peter Horvatovich; Tasso Miliotis; Henrik Ekedahl; György Marko-Varga; et al.

doi:10.1002/ctm2.451

The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome

Lazaro Hiram Betancourt, Jeovanis Gil, Aniel Sanchez, Magdalena Kuras, Erika Velasquez, Yonghyo Kim, Yutaka Sugihara, Indira Pla Parada, Roger Appelqvist, Elisabet Wieslander, Charlotte Welinder, Natália Pinto de Almeida, Nicole Woldmar, Matilda Marko-Varga, Jonatan Eriksson, Bo Baldetorp, Christian Ingvar, Håkan Olsson, Lotta Lundgren, Henrik LindbergHenriett Oskolas, Boram Lee, Ethan Berge, Marie Sjögren, Carina Eriksson, Dasol Kim, Ho Jeong Kwon, Melinda Rezeli, Johan Malm, Peter Horvath, Peter Horvatovich, Tasso Miliotis, Henrik Ekedahl, György Marko-Varga, et al.

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

Abstract

The MM500 meta-study aims to establish a knowledge basis of the tumor proteome to serve as a complement to genome and transcriptome studies. Somatic mutations and their effect on the transcriptome have been extensively characterized in melanoma. However, the effects of these genetic changes on the proteomic landscape and the impact on cellular processes in melanoma remain poorly understood. In this study, the quantitative mass-spectrometry-based proteomic analysis is interfaced with pathological tumor characterization, and associated with clinical data. The melanoma proteome landscape, obtained by the analysis of 505 well-annotated melanoma tumor samples, is defined based on almost 16 000 proteins, including mutated proteoforms of driver genes. More than 50 million MS/MS spectra were analyzed, resulting in approximately 13,6 million peptide spectrum matches (PSMs). Altogether 13 176 protein-coding genes, represented by 366 172 peptides, in addition to 52 000 phosphorylation sites, and 4 400 acetylation sites were successfully annotated. This data covers 65% and 74% of the predicted and identified human proteome, respectively. A high degree of correlation (Pearson, up to 0.54) with the melanoma transcriptome of the TCGA repository, with an overlap of 12 751 gene products, was found. Mapping of the expressed proteins with quantitation, spatiotemporal localization, mutations, splice isoforms, and PTM variants was proven not to be predicted by genome sequencing alone. The melanoma tumor molecular map was complemented by analysis of blood protein expression, including data on proteins regulated after immunotherapy. By adding these key proteomic pillars, the MM500 study expands the knowledge on melanoma disease.

Original language	English
Article number	e451
Pages (from-to)	1-25
Journal	Clinical and Translational Medicine
Volume	11
Issue number	7
DOIs	https://doi.org/10.1002/ctm2.451
Publication status	Published - 2021

Subject classification (UKÄ)

Biochemistry and Molecular Biology
Cancer and Oncology
Medical Biotechnology

Free keywords

Antineoplastic Agents/therapeutic use
Blood Proteins/metabolism
Cell Line
Chromatography, High Pressure Liquid
Databases, Factual
Humans
Melanoma/drug therapy
Mutation
Protein Processing, Post-Translational/genetics
Proteome/metabolism
Proteomics/methods
Proto-Oncogene Proteins B-raf/genetics
Tandem Mass Spectrometry
Transcriptome

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/ctm2.451Licence: CC BY

Cite this

Betancourt, L. H., Gil, J., Sanchez, A., Kuras, M., Velasquez, E., Kim, Y., Sugihara, Y., Parada, I. P., Appelqvist, R., Wieslander, E., Welinder, C., de Almeida, N. P., Woldmar, N., Marko-Varga, M., Eriksson, J., Baldetorp, B., Ingvar, C., Olsson, H., Lundgren, L., ... et al. (2021). The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome. Clinical and Translational Medicine, 11(7), 1-25. Article e451. https://doi.org/10.1002/ctm2.451

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title = "The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome",

abstract = "The MM500 meta-study aims to establish a knowledge basis of the tumor proteome to serve as a complement to genome and transcriptome studies. Somatic mutations and their effect on the transcriptome have been extensively characterized in melanoma. However, the effects of these genetic changes on the proteomic landscape and the impact on cellular processes in melanoma remain poorly understood. In this study, the quantitative mass-spectrometry-based proteomic analysis is interfaced with pathological tumor characterization, and associated with clinical data. The melanoma proteome landscape, obtained by the analysis of 505 well-annotated melanoma tumor samples, is defined based on almost 16 000 proteins, including mutated proteoforms of driver genes. More than 50 million MS/MS spectra were analyzed, resulting in approximately 13,6 million peptide spectrum matches (PSMs). Altogether 13 176 protein-coding genes, represented by 366 172 peptides, in addition to 52 000 phosphorylation sites, and 4 400 acetylation sites were successfully annotated. This data covers 65% and 74% of the predicted and identified human proteome, respectively. A high degree of correlation (Pearson, up to 0.54) with the melanoma transcriptome of the TCGA repository, with an overlap of 12 751 gene products, was found. Mapping of the expressed proteins with quantitation, spatiotemporal localization, mutations, splice isoforms, and PTM variants was proven not to be predicted by genome sequencing alone. The melanoma tumor molecular map was complemented by analysis of blood protein expression, including data on proteins regulated after immunotherapy. By adding these key proteomic pillars, the MM500 study expands the knowledge on melanoma disease.",

keywords = "Antineoplastic Agents/therapeutic use, Blood Proteins/metabolism, Cell Line, Chromatography, High Pressure Liquid, Databases, Factual, Humans, Melanoma/drug therapy, Mutation, Protein Processing, Post-Translational/genetics, Proteome/metabolism, Proteomics/methods, Proto-Oncogene Proteins B-raf/genetics, Tandem Mass Spectrometry, Transcriptome",

author = "Betancourt, {Lazaro Hiram} and Jeovanis Gil and Aniel Sanchez and Magdalena Kuras and Erika Velasquez and Yonghyo Kim and Yutaka Sugihara and Parada, {Indira Pla} and Roger Appelqvist and Elisabet Wieslander and Charlotte Welinder and {de Almeida}, {Nat{\'a}lia Pinto} and Nicole Woldmar and Matilda Marko-Varga and Jonatan Eriksson and Bo Baldetorp and Christian Ingvar and H{\aa}kan Olsson and Lotta Lundgren and Henrik Lindberg and Henriett Oskolas and Boram Lee and Ethan Berge and Marie Sj{\"o}gren and Carina Eriksson and Dasol Kim and Kwon, {Ho Jeong} and Melinda Rezeli and Johan Malm and Peter Horvath and Peter Horvatovich and Tasso Miliotis and Henrik Ekedahl and Gy{\"o}rgy Marko-Varga and {et al.}",

note = "{\textcopyright} 2021 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.",

year = "2021",

doi = "10.1002/ctm2.451",

language = "English",

volume = "11",

pages = "1--25",

journal = "Clinical and Translational Medicine",

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Betancourt, LH , Gil, J , Sanchez, A , Kuras, M , Velasquez, E, Kim, Y, Sugihara, Y , Parada, IP , Appelqvist, R, Wieslander, E, Welinder, C, de Almeida, NP, Woldmar, N, Marko-Varga, M, Eriksson, J, Baldetorp, B , Ingvar, C, Olsson, H, Lundgren, L, Lindberg, H , Oskolas, H, Lee, B, Berge, E, Sjögren, M, Eriksson, C, Kim, D, Kwon, HJ, Rezeli, M , Malm, J , Horvath, P, Horvatovich, P, Miliotis, T, Ekedahl, H , Marko-Varga, G & et al. 2021, 'The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome', Clinical and Translational Medicine, vol. 11, no. 7, e451, pp. 1-25. https://doi.org/10.1002/ctm2.451

TY - JOUR

T1 - The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome

AU - Betancourt, Lazaro Hiram

AU - Gil, Jeovanis

AU - Sanchez, Aniel

AU - Kuras, Magdalena

AU - Velasquez, Erika

AU - Kim, Yonghyo

AU - Sugihara, Yutaka

AU - Parada, Indira Pla

AU - Appelqvist, Roger

AU - Wieslander, Elisabet

AU - Welinder, Charlotte

AU - de Almeida, Natália Pinto

AU - Woldmar, Nicole

AU - Marko-Varga, Matilda

AU - Eriksson, Jonatan

AU - Baldetorp, Bo

AU - Ingvar, Christian

AU - Olsson, Håkan

AU - Lundgren, Lotta

AU - Lindberg, Henrik

AU - Oskolas, Henriett

AU - Lee, Boram

AU - Berge, Ethan

AU - Sjögren, Marie

AU - Eriksson, Carina

AU - Kim, Dasol

AU - Kwon, Ho Jeong

AU - Rezeli, Melinda

AU - Malm, Johan

AU - Horvath, Peter

AU - Horvatovich, Peter

AU - Miliotis, Tasso

AU - Ekedahl, Henrik

AU - Marko-Varga, György

AU - et al.

PY - 2021

Y1 - 2021

N2 - The MM500 meta-study aims to establish a knowledge basis of the tumor proteome to serve as a complement to genome and transcriptome studies. Somatic mutations and their effect on the transcriptome have been extensively characterized in melanoma. However, the effects of these genetic changes on the proteomic landscape and the impact on cellular processes in melanoma remain poorly understood. In this study, the quantitative mass-spectrometry-based proteomic analysis is interfaced with pathological tumor characterization, and associated with clinical data. The melanoma proteome landscape, obtained by the analysis of 505 well-annotated melanoma tumor samples, is defined based on almost 16 000 proteins, including mutated proteoforms of driver genes. More than 50 million MS/MS spectra were analyzed, resulting in approximately 13,6 million peptide spectrum matches (PSMs). Altogether 13 176 protein-coding genes, represented by 366 172 peptides, in addition to 52 000 phosphorylation sites, and 4 400 acetylation sites were successfully annotated. This data covers 65% and 74% of the predicted and identified human proteome, respectively. A high degree of correlation (Pearson, up to 0.54) with the melanoma transcriptome of the TCGA repository, with an overlap of 12 751 gene products, was found. Mapping of the expressed proteins with quantitation, spatiotemporal localization, mutations, splice isoforms, and PTM variants was proven not to be predicted by genome sequencing alone. The melanoma tumor molecular map was complemented by analysis of blood protein expression, including data on proteins regulated after immunotherapy. By adding these key proteomic pillars, the MM500 study expands the knowledge on melanoma disease.

AB - The MM500 meta-study aims to establish a knowledge basis of the tumor proteome to serve as a complement to genome and transcriptome studies. Somatic mutations and their effect on the transcriptome have been extensively characterized in melanoma. However, the effects of these genetic changes on the proteomic landscape and the impact on cellular processes in melanoma remain poorly understood. In this study, the quantitative mass-spectrometry-based proteomic analysis is interfaced with pathological tumor characterization, and associated with clinical data. The melanoma proteome landscape, obtained by the analysis of 505 well-annotated melanoma tumor samples, is defined based on almost 16 000 proteins, including mutated proteoforms of driver genes. More than 50 million MS/MS spectra were analyzed, resulting in approximately 13,6 million peptide spectrum matches (PSMs). Altogether 13 176 protein-coding genes, represented by 366 172 peptides, in addition to 52 000 phosphorylation sites, and 4 400 acetylation sites were successfully annotated. This data covers 65% and 74% of the predicted and identified human proteome, respectively. A high degree of correlation (Pearson, up to 0.54) with the melanoma transcriptome of the TCGA repository, with an overlap of 12 751 gene products, was found. Mapping of the expressed proteins with quantitation, spatiotemporal localization, mutations, splice isoforms, and PTM variants was proven not to be predicted by genome sequencing alone. The melanoma tumor molecular map was complemented by analysis of blood protein expression, including data on proteins regulated after immunotherapy. By adding these key proteomic pillars, the MM500 study expands the knowledge on melanoma disease.

KW - Antineoplastic Agents/therapeutic use

KW - Blood Proteins/metabolism

KW - Cell Line

KW - Chromatography, High Pressure Liquid

KW - Databases, Factual

KW - Humans

KW - Melanoma/drug therapy

KW - Mutation

KW - Protein Processing, Post-Translational/genetics

KW - Proteome/metabolism

KW - Proteomics/methods

KW - Proto-Oncogene Proteins B-raf/genetics

KW - Tandem Mass Spectrometry

KW - Transcriptome

U2 - 10.1002/ctm2.451

DO - 10.1002/ctm2.451

M3 - Article

C2 - 34323402

SN - 2001-1326

VL - 11

SP - 1

EP - 25

JO - Clinical and Translational Medicine

JF - Clinical and Translational Medicine

IS - 7

M1 - e451

ER -

The Human Melanoma Proteome Atlas-Complementing the melanoma transcriptome

Abstract

Subject classification (UKÄ)

Free keywords

UN SDGs

Access to Document

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Cite this