Autocrine TGF-β and stromal cell-derived factor-1 (SDF-1) signaling drives the evolution of tumor-promoting mammary stromal myofibroblasts

Kojima, Yasushi; Acar, Ahmet; Eaton, Elinor Ng; Mellody, Kieran T.; Scheel, Christina; Ben-Porath, Ittai; Önder, Tamer T.; Wang, Zhigang C.; Richardson, Andrea L.; Weinberg, Robert A.; Orimo, Akira

doi:10.1073/pnas.1013805107

Cited by 688 publications

(687 citation statements)

References 53 publications

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“…While it is conceivable that such paracrine signalling mechanisms that activate fibroblasts in vivo could be derived from immune cells, there is also evidence indicating direct regulation by neoplastic cells: co-culture of fibroblasts with either melanoma cells or oral squamous cell carcinoma cells induces pro-inflammatory gene expression in fibroblasts that includes CXCL1 and CXCL2 [59,60]. Activation of CAFs can also be accelerated by autocrine signalling: Kojima et al reported that autocrine TGF-β and SDF-1α/CXCL12 chemokine signalling result in activation of mammary CAFs, but the in vivo molecular signals that trigger these inflammatory pathways in CAFs remain unknown [61]. TGF-β and SDF-1α/CXCL12 may have an additional role in the recruitment of pro-inflammatory CAFs from bone marrow: In a model of induced gastric cancer, Quante et al reported that CAFs recruited into gastric tumours from bone marrow express a pro-inflammatory gene signature that includes CXCL1, CCL5, OPN, IL-6, IL-1β, CXCL12, and TNF-α [40].…”

Section: Activation By Paracrine Signallingmentioning

confidence: 99%

From sentinel cells to inflammatory culprits: cancer‐associated fibroblasts in tumour‐related inflammation

Servais

Erez

2012

The Journal of Pathology

130

110

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Section: Activation By Paracrine Signallingmentioning

confidence: 99%

From sentinel cells to inflammatory culprits: cancer‐associated fibroblasts in tumour‐related inflammation

Servais

Erez

2012

The Journal of Pathology

130

110

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“…In breast cancer, TGFβ1 is upregulated compared to its adjacent nonmalignant tissue and it impacts on various cells of the tumor microenvironment. In the tumor stroma, TGFβ1 gets secreted by tumor‐associated macrophages and CAFs (Kojima et al ., 2010; Yu et al ., 2014). It has been shown that TGFβ1 directly acts on the basal‐like breast tumor cell line MDA‐MB‐231 and that this drives metastatic processes of breast cancer cells by its binding to TGFBR2 (Willis et al ., 2015).…”

Section: Discussionmentioning

confidence: 99%

TGFβ1 regulates HGF‐induced cell migration and hepatocyte growth factor receptor MET expression via C‐ets‐1 and miR‐128‐3p in basal‐like breast cancer

et al. 2018

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Breast cancer is the most common cancer in women worldwide. The tumor microenvironment contributes to tumor progression by inducing cell dissemination from the primary tumor and metastasis. TGFβ signaling is involved in breast cancer progression and is specifically elevated during metastatic transformation in aggressive breast cancer. In this study, we performed genomewide correlation analysis of TGFBR2 expression in a panel of 51 breast cancer cell lines and identified that MET is coregulated with TGFBR2. This correlation was confirmed at the protein level in breast cancer cell lines and human tumor tissues. Flow cytometric analysis of luminal and basal‐like breast cancer cell lines and examination of 801 tumor specimens from a prospective cohort of breast cancer patients using reverse phase protein arrays revealed that expression of TGFBR2 and MET is increased in basal‐like breast cancer cell lines, as well as in triple‐negative breast cancer tumor tissues, compared to other subtypes. Using real‐time cell analysis technology, we demonstrated that TGFβ1 triggered hepatocyte growth factor (HGF)‐induced and MET‐dependent migration in vitro. Bioinformatic analysis predicted that TGFβ1 induces expression of C‐ets‐1 as a candidate transcription factor regulating MET expression. Indeed, TGFβ1‐induced expression of ETS1 and breast cancer cell migration was blocked by knockdown of ETS1. Further, we identified that MET is a direct target of miR‐128‐3p and that this miRNA is negatively regulated by TGFβ1. Overexpression of miR‐128‐3p reduced MET expression and abrogated HGF‐induced cell migration of invasive breast cancer cells. In conclusion, we have identified that TGFβ1 regulates HGF‐induced and MET‐mediated cell migration, through positive regulation of C‐ets‐1 and negative regulation of miR‐128‐3p expression in basal‐like breast cancer cell lines and in triple‐negative breast cancer tissue.

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“…19 A huge variety of cell types such as epithelial cells, mesenchymal stem cells, resident fibroblasts or endothelial cells have been reported to be able to transdifferentiate into CAFs through epithelial-mesenchymal transition (EMT), mesothelial-to-mesenchymal transition (MMT), or endothelial-mesenchymal transition (EndMT). [20][21][22][23][24] All these models for CAF development assume exogenous stimuli that initiate transformation and, in most cases, are thought to be sent from adjacent cancer cells in form of growth factors, such as TGF-ß and CXCL12. 23 There is experimental evidence that the CAF phenotype can also be initiated by intrinsic factors.…”

Section: Discussionmentioning

confidence: 99%

“…[20][21][22][23][24] All these models for CAF development assume exogenous stimuli that initiate transformation and, in most cases, are thought to be sent from adjacent cancer cells in form of growth factors, such as TGF-ß and CXCL12. 23 There is experimental evidence that the CAF phenotype can also be initiated by intrinsic factors. In particular depletion of tumor suppressor genes was reported to convert normal fibroblasts to CAFs.…”

Section: Discussionmentioning

confidence: 99%

CAF-like state in primary skin fibroblasts with constitutional BRCA1 epimutation sheds new light on tumor suppressor deficiency-related changes in healthy tissue

et al. 2016

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Constitutive epimutations of tumor suppressor genes are increasingly considered as cancer predisposing factors equally to sequence mutations. In light of the emerging role of the microenvironment for cancer predisposition, initiation, and progression, we aimed to characterize the consequences of a BRCA1 epimutation in cells of mesenchymal origin. We performed a comprehensive molecular and cellular comparison of primary dermal fibroblasts taken from a monozygous twin pair discordant for recurrent cancers and BRCA1 epimutation, whose exceptional clinical case we previously reported in this journal. Comparative transcriptome analysis identified differential expression of extracellular matrix-related genes and pro-tumorigenic growth factors, such as collagens and CXC chemokines. Moreover, genes known to be key markers of so called cancer-associated fibroblasts (CAFs), such as ACTA2, FAP, PDPN, and TNC, were upregulated in fibroblasts of the affected twin (BRCA1 mosMe ) in comparison to those of the healthy twin (BRCA1 wt ). Further analyses detected CAF-typical cellular features, including an elevated growth rate, enhanced migration, altered actin architecture and increased production of ketone bodies in BRCA1 mosMe fibroblasts compared to BRCA1 wt fibroblasts. In addition, conditioned medium of BRCA1 mosMe fibroblasts was more potent than conditioned medium of BRCA1 wt fibroblasts to promote cell proliferation in an epithelial and a cancer cell line. Our data demonstrate, that a CAF-like state is not an exclusive feature of tumor-associated tissue but also exists in healthy tissue with tumor suppressor deficiency. The naturally occurring phenomenon of twin fibroblasts differing in their BRCA1 methylation status revealed to be a unique powerful tool for exploring tumor suppressor deficiency-related changes in healthy tissue, reinforcing their significance for cancer predisposition.

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Autocrine TGF-β and stromal cell-derived factor-1 (SDF-1) signaling drives the evolution of tumor-promoting mammary stromal myofibroblasts

Cited by 688 publications

References 53 publications

From sentinel cells to inflammatory culprits: cancer‐associated fibroblasts in tumour‐related inflammation

From sentinel cells to inflammatory culprits: cancer‐associated fibroblasts in tumour‐related inflammation

TGFβ1 regulates HGF‐induced cell migration and hepatocyte growth factor receptor MET expression via C‐ets‐1 and miR‐128‐3p in basal‐like breast cancer

CAF-like state in primary skin fibroblasts with constitutional BRCA1 epimutation sheds new light on tumor suppressor deficiency-related changes in healthy tissue

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