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DNA methylation-based prediction of response to immune checkpoint inhibition in metastatic melanoma

DNA methylation-based prediction of response to immune checkpoint inhibition in metastatic melanoma
DNA methylation-based prediction of response to immune checkpoint inhibition in metastatic melanoma
Background Therapies based on targeting immune checkpoints have revolutionized the treatment of metastatic melanoma in recent years. Still, biomarkers predicting long-term therapy responses are lacking.

Methods A novel approach of reference-free deconvolution of large-scale DNA methylation data enabled us to develop a machine learning classifier based on CpG sites, specific for latent methylation components (LMC), that allowed for patient allocation to prognostic clusters. DNA methylation data were processed using reference-free analyses (MeDeCom) and reference-based computational tumor deconvolution (MethylCIBERSORT, LUMP).

Results We provide evidence that DNA methylation signatures of tumor tissue from cutaneous metastases are predictive for therapy response to immune checkpoint inhibition in patients with stage IV metastatic melanoma.

Conclusions These results demonstrate that LMC-based segregation of large-scale DNA methylation data is a promising tool for classifier development and treatment response estimation in cancer patients under targeted immunotherapy.
Filipski, Katharina
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Scherer, Michael
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Zeiner, Kim N.
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Bucher, Andreas
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Kleemann, Johannes
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Jurmeister, Philipp
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Hartung, Tabea I.
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Meissner, Markus
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Plate, Karl H.
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Fenton, Tim R.
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Walter, Jörn
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Tierling, Sascha
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Schilling, Bastian
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Zeiner, Pia S.
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Harter, Patrick N.
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Filipski, Katharina
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Scherer, Michael
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Zeiner, Kim N.
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Bucher, Andreas
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Kleemann, Johannes
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Jurmeister, Philipp
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Hartung, Tabea I.
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Meissner, Markus
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Plate, Karl H.
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Fenton, Tim R.
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Walter, Jörn
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Tierling, Sascha
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Schilling, Bastian
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Zeiner, Pia S.
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Harter, Patrick N.
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Filipski, Katharina, Scherer, Michael, Zeiner, Kim N., Bucher, Andreas, Kleemann, Johannes, Jurmeister, Philipp, Hartung, Tabea I., Meissner, Markus, Plate, Karl H., Fenton, Tim R., Walter, Jörn, Tierling, Sascha, Schilling, Bastian, Zeiner, Pia S. and Harter, Patrick N. (2021) DNA methylation-based prediction of response to immune checkpoint inhibition in metastatic melanoma. Journal for Immunotherapy of Cancer. (doi:10.1136/jitc-2020-002226).

Record type: Article

Abstract

Background Therapies based on targeting immune checkpoints have revolutionized the treatment of metastatic melanoma in recent years. Still, biomarkers predicting long-term therapy responses are lacking.

Methods A novel approach of reference-free deconvolution of large-scale DNA methylation data enabled us to develop a machine learning classifier based on CpG sites, specific for latent methylation components (LMC), that allowed for patient allocation to prognostic clusters. DNA methylation data were processed using reference-free analyses (MeDeCom) and reference-based computational tumor deconvolution (MethylCIBERSORT, LUMP).

Results We provide evidence that DNA methylation signatures of tumor tissue from cutaneous metastases are predictive for therapy response to immune checkpoint inhibition in patients with stage IV metastatic melanoma.

Conclusions These results demonstrate that LMC-based segregation of large-scale DNA methylation data is a promising tool for classifier development and treatment response estimation in cancer patients under targeted immunotherapy.

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Accepted/In Press date: 25 June 2021
e-pub ahead of print date: 19 July 2021

Identifiers

Local EPrints ID: 453941
URI: http://eprints.soton.ac.uk/id/eprint/453941
PURE UUID: 5523c3e5-7de7-478a-a4d8-8089d5f52a0b
ORCID for Tim R. Fenton: ORCID iD orcid.org/0000-0002-4737-8233

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Date deposited: 26 Jan 2022 17:44
Last modified: 17 Mar 2024 04:11

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Contributors

Author: Katharina Filipski
Author: Michael Scherer
Author: Kim N. Zeiner
Author: Andreas Bucher
Author: Johannes Kleemann
Author: Philipp Jurmeister
Author: Tabea I. Hartung
Author: Markus Meissner
Author: Karl H. Plate
Author: Tim R. Fenton ORCID iD
Author: Jörn Walter
Author: Sascha Tierling
Author: Bastian Schilling
Author: Pia S. Zeiner
Author: Patrick N. Harter

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