Stroma-derived miR-214 coordinates tumor dissemination

Francesca Orso; Federico Virga; Daniela Dettori; Alberto Dalmasso; Mladen Paradzik; Aurora Savino; Margherita A.C. Pomatto; Lorena Quirico; Stefania Cucinelli; Martina Coco; Katia Mareschi; Franca Fagioli; Leonardo Salmena; Giovanni Camussi; Paolo Provero; Valeria Poli; Massimiliano Mazzone; Pier Paolo Pandolfi; Daniela Taverna

doi:10.1186/s13046-022-02553-5

Stroma-derived miR-214 coordinates tumor dissemination

Francesca Orso
, Federico Virga
, Daniela Dettori
, Alberto Dalmasso
, Mladen Paradzik
, Aurora Savino
, Margherita A.C. Pomatto
, Lorena Quirico
, Stefania Cucinelli
, Martina Coco
, Katia Mareschi
, Franca Fagioli
, Leonardo Salmena
, Giovanni Camussi
, Paolo Provero
, Valeria Poli
, Massimiliano Mazzone
, Pier Paolo Pandolfi
, Daniela Taverna

Dipartimento di Medicina Traslazionale

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Background: Tumor progression is based on a close interaction between cancer cells and Tumor MicroEnvironment (TME). Here, we focus on the role that Cancer Associated Fibroblasts (CAFs), Mesenchymal Stem Cells (MSCs) and microRNAs (miRs) play in breast cancer and melanoma malignancy. Methods: We used public databases to investigate miR-214 expression in the stroma compartment of primary human samples and evaluated tumor formation and dissemination following tumor cell injections in miR-214 overexpressing (miR-214^over) and knock out (miR-214^ko) mice. In addition, we dissected the impact of Conditioned Medium (CM) or Extracellular Vesicles (EVs) derived from miR-214-rich or depleted stroma cells on cell metastatic traits. Results: We evidence that the expression of miR-214 in human cancer or metastasis samples mostly correlates with stroma components and, in particular, with CAFs and MSCs. We present data revealing that the injection of tumor cells in miR-214^over mice leads to increased extravasation and metastasis formation. In line, treatment of cancer cells with CM or EVs derived from miR-214-enriched stroma cells potentiate cancer cell migration/invasion in vitro. Conversely, dissemination from tumors grown in miR-214^ko mice is impaired and metastatic traits significantly decreased when CM or EVs from miR-214-depleted stroma cells are used to treat cells in culture. Instead, extravasation and metastasis formation are fully re-established when miR-214^ko mice are pretreated with miR-214-rich EVs of stroma origin. Mechanistically, we also show that tumor cells are able to induce miR-214 production in stroma cells, following the activation of IL-6/STAT3 signaling, which is then released via EVs subsequently up-taken by cancer cells. Here, a miR-214-dependent pro-metastatic program becomes activated. Conclusions: Our findings highlight the relevance of stroma-derived miR-214 and its release in EVs for tumor dissemination, which paves the way for miR-214-based therapeutic interventions targeting not only tumor cells but also the TME.

Lingua originale	Inglese
Numero di articolo	20
Rivista	Journal of Experimental and Clinical Cancer Research
Volume	42
Numero di pubblicazione	1
DOI	https://doi.org/10.1186/s13046-022-02553-5
Stato di pubblicazione	Pubblicato - dic 2023

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Orso, F., Virga, F., Dettori, D., Dalmasso, A., Paradzik, M., Savino, A., Pomatto, M. A. C., Quirico, L., Cucinelli, S., Coco, M., Mareschi, K., Fagioli, F., Salmena, L., Camussi, G., Provero, P., Poli, V., Mazzone, M., Pandolfi, P. P., & Taverna, D. (2023). Stroma-derived miR-214 coordinates tumor dissemination. Journal of Experimental and Clinical Cancer Research, 42(1), Articolo 20. https://doi.org/10.1186/s13046-022-02553-5

@article{32805a9ebbb54defa0378dc0d55049a8,

title = "Stroma-derived miR-214 coordinates tumor dissemination",

abstract = "Background: Tumor progression is based on a close interaction between cancer cells and Tumor MicroEnvironment (TME). Here, we focus on the role that Cancer Associated Fibroblasts (CAFs), Mesenchymal Stem Cells (MSCs) and microRNAs (miRs) play in breast cancer and melanoma malignancy. Methods: We used public databases to investigate miR-214 expression in the stroma compartment of primary human samples and evaluated tumor formation and dissemination following tumor cell injections in miR-214 overexpressing (miR-214over) and knock out (miR-214ko) mice. In addition, we dissected the impact of Conditioned Medium (CM) or Extracellular Vesicles (EVs) derived from miR-214-rich or depleted stroma cells on cell metastatic traits. Results: We evidence that the expression of miR-214 in human cancer or metastasis samples mostly correlates with stroma components and, in particular, with CAFs and MSCs. We present data revealing that the injection of tumor cells in miR-214over mice leads to increased extravasation and metastasis formation. In line, treatment of cancer cells with CM or EVs derived from miR-214-enriched stroma cells potentiate cancer cell migration/invasion in vitro. Conversely, dissemination from tumors grown in miR-214ko mice is impaired and metastatic traits significantly decreased when CM or EVs from miR-214-depleted stroma cells are used to treat cells in culture. Instead, extravasation and metastasis formation are fully re-established when miR-214ko mice are pretreated with miR-214-rich EVs of stroma origin. Mechanistically, we also show that tumor cells are able to induce miR-214 production in stroma cells, following the activation of IL-6/STAT3 signaling, which is then released via EVs subsequently up-taken by cancer cells. Here, a miR-214-dependent pro-metastatic program becomes activated. Conclusions: Our findings highlight the relevance of stroma-derived miR-214 and its release in EVs for tumor dissemination, which paves the way for miR-214-based therapeutic interventions targeting not only tumor cells but also the TME.",

keywords = "Crosstalk, Extracellular vesicles (EVs), IL-6, Metastasis formation, Stroma, miR-214",

author = "Francesca Orso and Federico Virga and Daniela Dettori and Alberto Dalmasso and Mladen Paradzik and Aurora Savino and Pomatto, \{Margherita A.C.\} and Lorena Quirico and Stefania Cucinelli and Martina Coco and Katia Mareschi and Franca Fagioli and Leonardo Salmena and Giovanni Camussi and Paolo Provero and Valeria Poli and Massimiliano Mazzone and Pandolfi, \{Pier Paolo\} and Daniela Taverna",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1186/s13046-022-02553-5",

language = "English",

volume = "42",

journal = "Journal of Experimental and Clinical Cancer Research",

issn = "0392-9078",

publisher = "BioMed Central Ltd.",

number = "1",

}

Orso, F, Virga, F, Dettori, D, Dalmasso, A, Paradzik, M, Savino, A, Pomatto, MAC, Quirico, L, Cucinelli, S, Coco, M, Mareschi, K, Fagioli, F, Salmena, L, Camussi, G, Provero, P, Poli, V, Mazzone, M, Pandolfi, PP & Taverna, D 2023, 'Stroma-derived miR-214 coordinates tumor dissemination', Journal of Experimental and Clinical Cancer Research, vol. 42, n. 1, 20. https://doi.org/10.1186/s13046-022-02553-5

TY - JOUR

T1 - Stroma-derived miR-214 coordinates tumor dissemination

AU - Orso, Francesca

AU - Virga, Federico

AU - Dettori, Daniela

AU - Dalmasso, Alberto

AU - Paradzik, Mladen

AU - Savino, Aurora

AU - Pomatto, Margherita A.C.

AU - Quirico, Lorena

AU - Cucinelli, Stefania

AU - Coco, Martina

AU - Mareschi, Katia

AU - Fagioli, Franca

AU - Salmena, Leonardo

AU - Camussi, Giovanni

AU - Provero, Paolo

AU - Poli, Valeria

AU - Mazzone, Massimiliano

AU - Pandolfi, Pier Paolo

AU - Taverna, Daniela

PY - 2023/12

Y1 - 2023/12

N2 - Background: Tumor progression is based on a close interaction between cancer cells and Tumor MicroEnvironment (TME). Here, we focus on the role that Cancer Associated Fibroblasts (CAFs), Mesenchymal Stem Cells (MSCs) and microRNAs (miRs) play in breast cancer and melanoma malignancy. Methods: We used public databases to investigate miR-214 expression in the stroma compartment of primary human samples and evaluated tumor formation and dissemination following tumor cell injections in miR-214 overexpressing (miR-214over) and knock out (miR-214ko) mice. In addition, we dissected the impact of Conditioned Medium (CM) or Extracellular Vesicles (EVs) derived from miR-214-rich or depleted stroma cells on cell metastatic traits. Results: We evidence that the expression of miR-214 in human cancer or metastasis samples mostly correlates with stroma components and, in particular, with CAFs and MSCs. We present data revealing that the injection of tumor cells in miR-214over mice leads to increased extravasation and metastasis formation. In line, treatment of cancer cells with CM or EVs derived from miR-214-enriched stroma cells potentiate cancer cell migration/invasion in vitro. Conversely, dissemination from tumors grown in miR-214ko mice is impaired and metastatic traits significantly decreased when CM or EVs from miR-214-depleted stroma cells are used to treat cells in culture. Instead, extravasation and metastasis formation are fully re-established when miR-214ko mice are pretreated with miR-214-rich EVs of stroma origin. Mechanistically, we also show that tumor cells are able to induce miR-214 production in stroma cells, following the activation of IL-6/STAT3 signaling, which is then released via EVs subsequently up-taken by cancer cells. Here, a miR-214-dependent pro-metastatic program becomes activated. Conclusions: Our findings highlight the relevance of stroma-derived miR-214 and its release in EVs for tumor dissemination, which paves the way for miR-214-based therapeutic interventions targeting not only tumor cells but also the TME.

AB - Background: Tumor progression is based on a close interaction between cancer cells and Tumor MicroEnvironment (TME). Here, we focus on the role that Cancer Associated Fibroblasts (CAFs), Mesenchymal Stem Cells (MSCs) and microRNAs (miRs) play in breast cancer and melanoma malignancy. Methods: We used public databases to investigate miR-214 expression in the stroma compartment of primary human samples and evaluated tumor formation and dissemination following tumor cell injections in miR-214 overexpressing (miR-214over) and knock out (miR-214ko) mice. In addition, we dissected the impact of Conditioned Medium (CM) or Extracellular Vesicles (EVs) derived from miR-214-rich or depleted stroma cells on cell metastatic traits. Results: We evidence that the expression of miR-214 in human cancer or metastasis samples mostly correlates with stroma components and, in particular, with CAFs and MSCs. We present data revealing that the injection of tumor cells in miR-214over mice leads to increased extravasation and metastasis formation. In line, treatment of cancer cells with CM or EVs derived from miR-214-enriched stroma cells potentiate cancer cell migration/invasion in vitro. Conversely, dissemination from tumors grown in miR-214ko mice is impaired and metastatic traits significantly decreased when CM or EVs from miR-214-depleted stroma cells are used to treat cells in culture. Instead, extravasation and metastasis formation are fully re-established when miR-214ko mice are pretreated with miR-214-rich EVs of stroma origin. Mechanistically, we also show that tumor cells are able to induce miR-214 production in stroma cells, following the activation of IL-6/STAT3 signaling, which is then released via EVs subsequently up-taken by cancer cells. Here, a miR-214-dependent pro-metastatic program becomes activated. Conclusions: Our findings highlight the relevance of stroma-derived miR-214 and its release in EVs for tumor dissemination, which paves the way for miR-214-based therapeutic interventions targeting not only tumor cells but also the TME.

KW - Crosstalk

KW - Extracellular vesicles (EVs)

KW - IL-6

KW - Metastasis formation

KW - Stroma

KW - miR-214

UR - https://www.scopus.com/pages/publications/85146346653

U2 - 10.1186/s13046-022-02553-5

DO - 10.1186/s13046-022-02553-5

M3 - Article

SN - 0392-9078

VL - 42

JO - Journal of Experimental and Clinical Cancer Research

JF - Journal of Experimental and Clinical Cancer Research

IS - 1

M1 - 20

ER -

Stroma-derived miR-214 coordinates tumor dissemination

Abstract

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