MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression

INTRODUCTION: The cell line MC38 is a commonly used murine model for colorectal carcinoma. It has a high mutational burden, is sensitive to immune checkpoint immunotherapy and endogenous CD8+ T cell responses against neoantigens have been reported. METHODS: Here, we re-sequenced exomes and transcrip...

Descripción completa

Detalles Bibliográficos
Autores principales: Schrörs, Barbara, Hos, Brett J., Yildiz, Ikra G., Löwer, Martin, Lang, Franziska, Holtsträter, Christoph, Becker, Julia, Vormehr, Mathias, Sahin, Ugur, Ossendorp, Ferry, Diken, Mustafa
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Immunology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10030996/
https://www.ncbi.nlm.nih.gov/pubmed/36969213
http://dx.doi.org/10.3389/fimmu.2023.1102282
_version_ 1784910503037894656
author Schrörs, Barbara
Hos, Brett J.
Yildiz, Ikra G.
Löwer, Martin
Lang, Franziska
Holtsträter, Christoph
Becker, Julia
Vormehr, Mathias
Sahin, Ugur
Ossendorp, Ferry
Diken, Mustafa
author_facet Schrörs, Barbara
Hos, Brett J.
Yildiz, Ikra G.
Löwer, Martin
Lang, Franziska
Holtsträter, Christoph
Becker, Julia
Vormehr, Mathias
Sahin, Ugur
Ossendorp, Ferry
Diken, Mustafa
author_sort Schrörs, Barbara
collection PubMed
description INTRODUCTION: The cell line MC38 is a commonly used murine model for colorectal carcinoma. It has a high mutational burden, is sensitive to immune checkpoint immunotherapy and endogenous CD8+ T cell responses against neoantigens have been reported. METHODS: Here, we re-sequenced exomes and transcriptomes of MC38 cells from two different sources, namely Kerafast (originating from NCI/NIH, MC38-K) and the Leiden University Medical Center cell line collection (MC38-L), comparing the cell lines on the genomic and transcriptomic level and analyzing their recognition by CD8+ T cells with known neo-epitope specificity. RESULTS: The data reveals a distinct structural composition of MC38-K and MC38-L cell line genomes and different ploidies. Further, the MC38-L cell line harbored about 1.3-fold more single nucleotide variations and small insertions and deletions than the MC38-K cell line. In addition, the observed mutational signatures differed; only 35.3% of the non-synonymous variants and 5.4% of the fusion gene events were shared. Transcript expression values of both cell lines correlated strongly (p = 0.919), but we found different pathways enriched in the genes that were differentially upregulated in the MC38-L or MC38-K cells, respectively. Our data show that previously described neoantigens in the MC38 model such as Rpl18(mut) and Adpgk(mut) were absent in the MC38-K cell line resulting that such neoantigen-specific CD8+ T cells recognizing and killing MC38-L cells did not recognize or kill MC38-K cells. CONCLUSION: This strongly indicates that at least two sub-cell lines of MC38 exist in the field and underlines the importance of meticulous tracking of investigated cell lines to obtain reproducible results, and for correct interpretation of the immunological data without artifacts. We present our analyses as a reference for researchers to select the appropriate sub-cell line for their own studies.
format Online
Article
Text
id pubmed-10030996
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-100309962023-03-23 MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression Schrörs, Barbara Hos, Brett J. Yildiz, Ikra G. Löwer, Martin Lang, Franziska Holtsträter, Christoph Becker, Julia Vormehr, Mathias Sahin, Ugur Ossendorp, Ferry Diken, Mustafa Front Immunol Immunology INTRODUCTION: The cell line MC38 is a commonly used murine model for colorectal carcinoma. It has a high mutational burden, is sensitive to immune checkpoint immunotherapy and endogenous CD8+ T cell responses against neoantigens have been reported. METHODS: Here, we re-sequenced exomes and transcriptomes of MC38 cells from two different sources, namely Kerafast (originating from NCI/NIH, MC38-K) and the Leiden University Medical Center cell line collection (MC38-L), comparing the cell lines on the genomic and transcriptomic level and analyzing their recognition by CD8+ T cells with known neo-epitope specificity. RESULTS: The data reveals a distinct structural composition of MC38-K and MC38-L cell line genomes and different ploidies. Further, the MC38-L cell line harbored about 1.3-fold more single nucleotide variations and small insertions and deletions than the MC38-K cell line. In addition, the observed mutational signatures differed; only 35.3% of the non-synonymous variants and 5.4% of the fusion gene events were shared. Transcript expression values of both cell lines correlated strongly (p = 0.919), but we found different pathways enriched in the genes that were differentially upregulated in the MC38-L or MC38-K cells, respectively. Our data show that previously described neoantigens in the MC38 model such as Rpl18(mut) and Adpgk(mut) were absent in the MC38-K cell line resulting that such neoantigen-specific CD8+ T cells recognizing and killing MC38-L cells did not recognize or kill MC38-K cells. CONCLUSION: This strongly indicates that at least two sub-cell lines of MC38 exist in the field and underlines the importance of meticulous tracking of investigated cell lines to obtain reproducible results, and for correct interpretation of the immunological data without artifacts. We present our analyses as a reference for researchers to select the appropriate sub-cell line for their own studies. Frontiers Media S.A. 2023-03-08 /pmc/articles/PMC10030996/ /pubmed/36969213 http://dx.doi.org/10.3389/fimmu.2023.1102282 Text en Copyright © 2023 Schrörs, Hos, Yildiz, Löwer, Lang, Holtsträter, Becker, Vormehr, Sahin, Ossendorp and Diken https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Immunology
Schrörs, Barbara
Hos, Brett J.
Yildiz, Ikra G.
Löwer, Martin
Lang, Franziska
Holtsträter, Christoph
Becker, Julia
Vormehr, Mathias
Sahin, Ugur
Ossendorp, Ferry
Diken, Mustafa
MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title_full MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title_fullStr MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title_full_unstemmed MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title_short MC38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
title_sort mc38 colorectal tumor cell lines from two different sources display substantial differences in transcriptome, mutanome and neoantigen expression
topic Immunology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10030996/
https://www.ncbi.nlm.nih.gov/pubmed/36969213
http://dx.doi.org/10.3389/fimmu.2023.1102282
work_keys_str_mv AT schrorsbarbara mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT hosbrettj mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT yildizikrag mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT lowermartin mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT langfranziska mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT holtstraterchristoph mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT beckerjulia mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT vormehrmathias mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT sahinugur mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT ossendorpferry mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression
AT dikenmustafa mc38colorectaltumorcelllinesfromtwodifferentsourcesdisplaysubstantialdifferencesintranscriptomemutanomeandneoantigenexpression

Ejemplares similares