Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy

Naiade Calanca; Flavia Lima Costa Faldoni; Cristiano Pádua Souza; Jeferson Santos Souza; Bianca Elen de Souza Alves; Milena Botelho Pereira Soares; Deysi Viviana Tenazoa Wong; Roberto César Pereira Lima-Junior; Fabio Albuquerque Marchi; Claudia Aparecida Rainho; Silvia Regina Rogatto

doi:10.1186/s12967-024-05553-5

Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy

Naiade Calanca, Flavia Lima Costa Faldoni, Cristiano Pádua Souza, Jeferson Santos Souza, Bianca Elen de Souza Alves, Milena Botelho Pereira Soares, Deysi Viviana Tenazoa Wong, Roberto César Pereira Lima-Junior, Fabio Albuquerque Marchi, Claudia Aparecida Rainho, Silvia Regina Rogatto^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Background: Although the clinical signs of inflammatory breast cancer (IBC) resemble acute inflammation, the role played by infiltrating immune and stromal cells in this aggressive disease is uncharted. The tumor microenvironment (TME) presents molecular alterations, such as epimutations, prior to morphological abnormalities. These changes affect the distribution and the intricate communication between the TME components related to cancer prognosis and therapy response. Herein, we explored the global DNA methylation profile of IBC and surrounding tissues to estimate the microenvironment cellular composition and identify epigenetically dysregulated markers. Methods: We used the HiTIMED algorithm to deconvolve the bulk DNA methylation data of 24 IBC and six surrounding non-tumoral tissues (SNT) (GSE238092) and determine their cellular composition. The prognostic relevance of cell types infiltrating IBC and their relationship with clinicopathological variables were investigated. CD34 (endothelial cell marker) and CD68 (macrophage marker) immunofluorescence staining was evaluated in an independent set of 17 IBC and 16 non-IBC samples. Results: We found lower infiltration of endothelial, stromal, memory B, dendritic, and natural killer cells in IBC than in SNT samples. Higher endothelial cell (EC) and stromal cell content were related to better overall survival. EC proportions positively correlated with memory B and memory CD8⁺ T infiltration in IBC. Immune and EC markers exhibited distinct DNA methylation profiles between IBC and SNT samples, revealing hypermethylated regions mapped to six genes (CD40, CD34, EMCN, HLA-G, PDPN, and TEK). We identified significantly higher CD34 and CD68 protein expression in IBC compared to non-IBC. Conclusions: Our findings underscored cell subsets that distinguished patients with better survival and dysregulated markers potentially actionable through combinations of immunotherapy and epigenetic drugs.

Original language	English
Article number	735
Journal	Journal of Translational Medicine
Volume	22
Number of pages	13
ISSN	1479-5876
DOIs	https://doi.org/10.1186/s12967-024-05553-5
Publication status	Published - 5. Aug 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Keywords

Deconvolution
DNA methylation
Endothelial cells
Epigenetic silencing
Immune markers
Inflammatory breast cancer
Tumor microenvironment
Prognosis
Humans
Middle Aged
Gene Expression Regulation, Neoplastic
DNA Methylation/genetics
Treatment Outcome
Molecular Targeted Therapy
Inflammatory Breast Neoplasms/genetics
Female
Tumor Microenvironment/genetics

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10.1186/s12967-024-05553-5Licence: CC BY

Open Access VersionFinal published version, 2.56 MBLicence: CC BY

Cite this

Calanca, N., Faldoni, F. L. C., Souza, C. P., Souza, J. S., de Souza Alves, B. E., Soares, M. B. P., Wong, D. V. T., Lima-Junior, R. C. P., Marchi, F. A., Rainho, C. A., & Rogatto, S. R. (2024). Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy. Journal of Translational Medicine, 22, Article 735. https://doi.org/10.1186/s12967-024-05553-5

@article{fc3dd516ccfa42378cf4f58f85ec845e,

title = "Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy",

abstract = "Background: Although the clinical signs of inflammatory breast cancer (IBC) resemble acute inflammation, the role played by infiltrating immune and stromal cells in this aggressive disease is uncharted. The tumor microenvironment (TME) presents molecular alterations, such as epimutations, prior to morphological abnormalities. These changes affect the distribution and the intricate communication between the TME components related to cancer prognosis and therapy response. Herein, we explored the global DNA methylation profile of IBC and surrounding tissues to estimate the microenvironment cellular composition and identify epigenetically dysregulated markers. Methods: We used the HiTIMED algorithm to deconvolve the bulk DNA methylation data of 24 IBC and six surrounding non-tumoral tissues (SNT) (GSE238092) and determine their cellular composition. The prognostic relevance of cell types infiltrating IBC and their relationship with clinicopathological variables were investigated. CD34 (endothelial cell marker) and CD68 (macrophage marker) immunofluorescence staining was evaluated in an independent set of 17 IBC and 16 non-IBC samples. Results: We found lower infiltration of endothelial, stromal, memory B, dendritic, and natural killer cells in IBC than in SNT samples. Higher endothelial cell (EC) and stromal cell content were related to better overall survival. EC proportions positively correlated with memory B and memory CD8+ T infiltration in IBC. Immune and EC markers exhibited distinct DNA methylation profiles between IBC and SNT samples, revealing hypermethylated regions mapped to six genes (CD40, CD34, EMCN, HLA-G, PDPN, and TEK). We identified significantly higher CD34 and CD68 protein expression in IBC compared to non-IBC. Conclusions: Our findings underscored cell subsets that distinguished patients with better survival and dysregulated markers potentially actionable through combinations of immunotherapy and epigenetic drugs.",

keywords = "Deconvolution, DNA methylation, Endothelial cells, Epigenetic silencing, Immune markers, Inflammatory breast cancer, Tumor microenvironment, Prognosis, Humans, Middle Aged, Gene Expression Regulation, Neoplastic, DNA Methylation/genetics, Treatment Outcome, Molecular Targeted Therapy, Inflammatory Breast Neoplasms/genetics, Female, Tumor Microenvironment/genetics",

author = "Naiade Calanca and Faldoni, {Flavia Lima Costa} and Souza, {Cristiano P{\'a}dua} and Souza, {Jeferson Santos} and {de Souza Alves}, {Bianca Elen} and Soares, {Milena Botelho Pereira} and Wong, {Deysi Viviana Tenazoa} and Lima-Junior, {Roberto C{\'e}sar Pereira} and Marchi, {Fabio Albuquerque} and Rainho, {Claudia Aparecida} and Rogatto, {Silvia Regina}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = aug,

day = "5",

doi = "10.1186/s12967-024-05553-5",

language = "English",

volume = "22",

journal = "Journal of Translational Medicine",

issn = "1479-5876",

publisher = "BioMed Central",

}

Calanca, N, Faldoni, FLC, Souza, CP, Souza, JS, de Souza Alves, BE, Soares, MBP, Wong, DVT, Lima-Junior, RCP, Marchi, FA, Rainho, CA & Rogatto, SR 2024, 'Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy', Journal of Translational Medicine, vol. 22, 735. https://doi.org/10.1186/s12967-024-05553-5

Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy. / Calanca, Naiade; Faldoni, Flavia Lima Costa; Souza, Cristiano Pádua et al.
In: Journal of Translational Medicine, Vol. 22, 735, 05.08.2024.

Research output: Contribution to journal › Journal article › Research › peer-review

TY - JOUR

T1 - Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy

AU - Calanca, Naiade

AU - Faldoni, Flavia Lima Costa

AU - Souza, Cristiano Pádua

AU - Souza, Jeferson Santos

AU - de Souza Alves, Bianca Elen

AU - Soares, Milena Botelho Pereira

AU - Wong, Deysi Viviana Tenazoa

AU - Lima-Junior, Roberto César Pereira

AU - Marchi, Fabio Albuquerque

AU - Rainho, Claudia Aparecida

AU - Rogatto, Silvia Regina

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/8/5

Y1 - 2024/8/5

N2 - Background: Although the clinical signs of inflammatory breast cancer (IBC) resemble acute inflammation, the role played by infiltrating immune and stromal cells in this aggressive disease is uncharted. The tumor microenvironment (TME) presents molecular alterations, such as epimutations, prior to morphological abnormalities. These changes affect the distribution and the intricate communication between the TME components related to cancer prognosis and therapy response. Herein, we explored the global DNA methylation profile of IBC and surrounding tissues to estimate the microenvironment cellular composition and identify epigenetically dysregulated markers. Methods: We used the HiTIMED algorithm to deconvolve the bulk DNA methylation data of 24 IBC and six surrounding non-tumoral tissues (SNT) (GSE238092) and determine their cellular composition. The prognostic relevance of cell types infiltrating IBC and their relationship with clinicopathological variables were investigated. CD34 (endothelial cell marker) and CD68 (macrophage marker) immunofluorescence staining was evaluated in an independent set of 17 IBC and 16 non-IBC samples. Results: We found lower infiltration of endothelial, stromal, memory B, dendritic, and natural killer cells in IBC than in SNT samples. Higher endothelial cell (EC) and stromal cell content were related to better overall survival. EC proportions positively correlated with memory B and memory CD8+ T infiltration in IBC. Immune and EC markers exhibited distinct DNA methylation profiles between IBC and SNT samples, revealing hypermethylated regions mapped to six genes (CD40, CD34, EMCN, HLA-G, PDPN, and TEK). We identified significantly higher CD34 and CD68 protein expression in IBC compared to non-IBC. Conclusions: Our findings underscored cell subsets that distinguished patients with better survival and dysregulated markers potentially actionable through combinations of immunotherapy and epigenetic drugs.

AB - Background: Although the clinical signs of inflammatory breast cancer (IBC) resemble acute inflammation, the role played by infiltrating immune and stromal cells in this aggressive disease is uncharted. The tumor microenvironment (TME) presents molecular alterations, such as epimutations, prior to morphological abnormalities. These changes affect the distribution and the intricate communication between the TME components related to cancer prognosis and therapy response. Herein, we explored the global DNA methylation profile of IBC and surrounding tissues to estimate the microenvironment cellular composition and identify epigenetically dysregulated markers. Methods: We used the HiTIMED algorithm to deconvolve the bulk DNA methylation data of 24 IBC and six surrounding non-tumoral tissues (SNT) (GSE238092) and determine their cellular composition. The prognostic relevance of cell types infiltrating IBC and their relationship with clinicopathological variables were investigated. CD34 (endothelial cell marker) and CD68 (macrophage marker) immunofluorescence staining was evaluated in an independent set of 17 IBC and 16 non-IBC samples. Results: We found lower infiltration of endothelial, stromal, memory B, dendritic, and natural killer cells in IBC than in SNT samples. Higher endothelial cell (EC) and stromal cell content were related to better overall survival. EC proportions positively correlated with memory B and memory CD8+ T infiltration in IBC. Immune and EC markers exhibited distinct DNA methylation profiles between IBC and SNT samples, revealing hypermethylated regions mapped to six genes (CD40, CD34, EMCN, HLA-G, PDPN, and TEK). We identified significantly higher CD34 and CD68 protein expression in IBC compared to non-IBC. Conclusions: Our findings underscored cell subsets that distinguished patients with better survival and dysregulated markers potentially actionable through combinations of immunotherapy and epigenetic drugs.

KW - Deconvolution

KW - DNA methylation

KW - Endothelial cells

KW - Epigenetic silencing

KW - Immune markers

KW - Inflammatory breast cancer

KW - Tumor microenvironment

KW - Prognosis

KW - Humans

KW - Middle Aged

KW - Gene Expression Regulation, Neoplastic

KW - DNA Methylation/genetics

KW - Treatment Outcome

KW - Molecular Targeted Therapy

KW - Inflammatory Breast Neoplasms/genetics

KW - Female

KW - Tumor Microenvironment/genetics

U2 - 10.1186/s12967-024-05553-5

DO - 10.1186/s12967-024-05553-5

M3 - Journal article

C2 - 39103878

AN - SCOPUS:85200509391

SN - 1479-5876

VL - 22

JO - Journal of Translational Medicine

JF - Journal of Translational Medicine

M1 - 735

ER -

Inflammatory breast cancer microenvironment repertoire based on DNA methylation data deconvolution reveals actionable targets to enhance the treatment efficacy

Abstract

Bibliographical note

Keywords

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