Adenosine/TGF[beta] axis in regulation of mammary fibroblast functions

Cancer associated fibroblasts (CAF) play a key role in cancer progression and metastasis. Diminished TGF[beta] response on CAF correlates with poor outcome and recurrence in cancer patients. Mechanisms behind lost TGF[beta] signaling on CAF are poorly understood, but, utilizing MMTV-PyMT mouse model...

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Veröffentlicht in:	PloS one 2021-06, Vol.16 (6), p.e0252424
Hauptverfasser:	Vasiukov, Georgii, Menshikh, Anna, Owens, Philip, Novitskaya, Tatiana, Hurley, Paula, Blackwell, Timothy, Feoktistov, Igor, Novitskiy, Sergey V
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Sprache:	eng
Schlagworte:	Adenylic acid Analysis Metastasis Transforming growth factors
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creator	Vasiukov, Georgii Menshikh, Anna Owens, Philip Novitskaya, Tatiana Hurley, Paula Blackwell, Timothy Feoktistov, Igor Novitskiy, Sergey V
description	Cancer associated fibroblasts (CAF) play a key role in cancer progression and metastasis. Diminished TGF[beta] response on CAF correlates with poor outcome and recurrence in cancer patients. Mechanisms behind lost TGF[beta] signaling on CAF are poorly understood, but, utilizing MMTV-PyMT mouse model, we have previously demonstrated that in tumor microenvironment myeloid cells, producing adenosine, contribute to downregulated TGF[beta] signaling on CAFs. In the current work, we performed serial in vitro studies to investigate the role of adenosine/TGF[beta] axis in mouse mammary fibroblast functions, i.e., proliferation, protein expression, migration, and contractility. We found that adenosine analog NECA diminished TGF[beta]-induced CCL5 and MMP9 expression. Additionally, we discovered that NECA completely inhibited effect of TGF[beta] to upregulate [alpha]SMA, key protein of cytoskeletal rearrangements, necessary for migration and contractility of fibroblasts. Our results show that TGF[beta] increases contractility of mouse mammary fibroblasts and human fibroblast cell lines, and NECA attenuates theses effects. Using pharmacological approach and genetically modified animals, we determined that NECA effects on TGF[beta] pathway occur via A.sub.2A /A.sub.2B adenosine receptor-AC-PKA dependent manner. Using isolated CD11b.sup.+ cells from tumor tissue of CD73-KO and CD39-KO animals in co-culture experiments with ATP and AMP, we confirmed that myeloid cells can affect functions of mammary fibroblasts through adenosine signaling. Our data suggest a novel mechanism of interaction between adenosine and TGF[beta] signaling pathways that can impact phenotype of fibroblasts in a tumor microenvironment.
doi_str_mv	10.1371/journal.pone.0252424
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Diminished TGF[beta] response on CAF correlates with poor outcome and recurrence in cancer patients. Mechanisms behind lost TGF[beta] signaling on CAF are poorly understood, but, utilizing MMTV-PyMT mouse model, we have previously demonstrated that in tumor microenvironment myeloid cells, producing adenosine, contribute to downregulated TGF[beta] signaling on CAFs. In the current work, we performed serial in vitro studies to investigate the role of adenosine/TGF[beta] axis in mouse mammary fibroblast functions, i.e., proliferation, protein expression, migration, and contractility. We found that adenosine analog NECA diminished TGF[beta]-induced CCL5 and MMP9 expression. Additionally, we discovered that NECA completely inhibited effect of TGF[beta] to upregulate [alpha]SMA, key protein of cytoskeletal rearrangements, necessary for migration and contractility of fibroblasts. Our results show that TGF[beta] increases contractility of mouse mammary fibroblasts and human fibroblast cell lines, and NECA attenuates theses effects. Using pharmacological approach and genetically modified animals, we determined that NECA effects on TGF[beta] pathway occur via A.sub.2A /A.sub.2B adenosine receptor-AC-PKA dependent manner. Using isolated CD11b.sup.+ cells from tumor tissue of CD73-KO and CD39-KO animals in co-culture experiments with ATP and AMP, we confirmed that myeloid cells can affect functions of mammary fibroblasts through adenosine signaling. 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Our results show that TGF[beta] increases contractility of mouse mammary fibroblasts and human fibroblast cell lines, and NECA attenuates theses effects. Using pharmacological approach and genetically modified animals, we determined that NECA effects on TGF[beta] pathway occur via A.sub.2A /A.sub.2B adenosine receptor-AC-PKA dependent manner. Using isolated CD11b.sup.+ cells from tumor tissue of CD73-KO and CD39-KO animals in co-culture experiments with ATP and AMP, we confirmed that myeloid cells can affect functions of mammary fibroblasts through adenosine signaling. 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source	Public Library of Science; DOAJ Directory of Open Access Journals; PubMed Central; Free Full-Text Journals in Chemistry; EZB Electronic Journals Library
subjects	Adenylic acid Analysis Metastasis Transforming growth factors
title	Adenosine/TGF[beta] axis in regulation of mammary fibroblast functions
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