Multi-organ Site Metastatic Reactivation Mediated by Non-canonical Discoidin Domain Receptor 1 Signaling

Gao, Hua; Chakraborty, Goutam; Zhang, Zhanguo; Akalay, Intissar; Gadiya, Mayur; Gao, Yaquan; Sinha, Surajit; Hu, Jian; Jiang, Cizhong; Akram, Muzaffar; Brogi, Edi; Leitinger, Birgit; Giancotti, Filippo G.

doi:10.1016/j.cell.2016.06.009

Cited by 196 publications

(207 citation statements)

References 44 publications

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“…In this case, the capacity for multi-organ colonization has been traced to the production of the matrix protein laminin-a4 (LAMA4), which seems to be critical for the initial proliferation of DTCs. Similarly, the collagen receptor DDR1, in collaboration with the TM4SF1 adaptor protein, has recently been identified as a signaling axis that regulates CSCs and thereby enables the outgrowth of otherwise-dormant carcinoma cells in multiple organ sites (Gao et al, 2016). The activation of such programs could account for the apparently synchronous appearance of metastases in various organs – metastatic showers – that are occasionally observed in patients.…”

Section: Metastatic Colonizationmentioning

confidence: 99%

Emerging Biological Principles of Metastasis

Lambert

Pattabiraman

Weinberg

2017

Cell

2,266

2,010

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Metastases account for the great majority of cancer-associated deaths, yet this complex process remains the least understood aspect of cancer biology. As the body of research concerning metastasis continues to grow at a rapid rate, the biological programs that underlie the dissemination and metastatic outgrowth of cancer cells are beginning to come into view. In this review we summarize the cellular and molecular mechanisms involved in metastasis, with a focus on carcinomas where the most is known, and highlight the general principles of metastasis that have begun to emerge.

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Section: Metastatic Colonizationmentioning

confidence: 99%

Emerging Biological Principles of Metastasis

Lambert

Pattabiraman

Weinberg

2017

Cell

2,266

2,010

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“…As a result, p-STAT3 (S) upregulates p27 expression by binding to the p27 promoter. This selective serine phosphorylation by IFN-β may be caused either by Tyk, as IFN-γ activates Jak1 and Jak2, while IFN-β activates Jak1 and Tyk, or by Jak2, since a previous study shows that phosphorylation of Jak2 leads to the activation of STAT3 in a breast cancer model (55). Thus, IFN-β can use p-STAT3 (S) to further enhance p27 expression, facilitating TRCs to enter dormancy.…”

Section: Ki67mentioning

confidence: 99%

STAT3/p53 pathway activation disrupts IFN-β–induced dormancy in tumor-repopulating cells

Liu

Lv²,

Liu³

et al. 2018

Journal of Clinical Investigation

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“…DDR1 is required for normal tissue development, but the function of DDR1 in adult tissues particularly in diseased tissues is poorly understood [12,13]. DDR1 contributes to cancer [14,15] and promotes inflammation in models of atherosclerosis [10,16] and lung fibrosis [17], but the mechanisms whereby DDR1 contributes to disease progression are not clear.…”

Section: Introductionmentioning

confidence: 99%

Discoidin domain receptor 1 kinase activity is required for regulating collagen IV synthesis

Borza

Tran

et al. 2017

Matrix Biology

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Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that binds to and is activated by collagens. DDR1 expression increases following kidney injury and accumulating evidence suggests that it contributes to the progression of injury. To this end, deletion of DDR1 is beneficial in ameliorating kidney injury induced by angiotensin infusion, unilateral ureteral obstruction, or nephrotoxic nephritis. Most of the beneficial effects observed in the DDR1-null mice are attributed to reduced inflammatory cell infiltration to the site of injury, suggesting that DDR1 plays a pro-inflammatory effect. The goal of this study was to determine whether, in addition to its pro-inflammatory effect, DDR1 plays a deleterious effect in kidney injury by directly regulating extracellular matrix production. We show that DDR1-null mice have reduced deposition of glomerular collagens I and IV as well as decreased proteinuria following the partial renal ablation model of kidney injury. Using mesangial cells isolated from DDR1-null mice, we show that these cells produce significantly less collagen compared to DDR1-null cells reconstituted with wild type DDR1. Moreover, mutagenesis analysis revealed that mutations in the collagen binding site or in the kinase domain significantly reduce DDR1-mediated collagen production. Finally, we provide evidence that blocking DDR1 kinase activity with an ATP-competitive small molecule inhibitor reduces collagen production. In conclusion, our studies indicate that the kinase activity of DDR1 plays a key role in DDR1-induced collagen synthesis and suggest that blocking collagen-mediated DDR1 activation may be beneficial in fibrotic diseases.

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Multi-organ Site Metastatic Reactivation Mediated by Non-canonical Discoidin Domain Receptor 1 Signaling

Cited by 196 publications

References 44 publications

Emerging Biological Principles of Metastasis

Emerging Biological Principles of Metastasis

STAT3/p53 pathway activation disrupts IFN-β–induced dormancy in tumor-repopulating cells

Discoidin domain receptor 1 kinase activity is required for regulating collagen IV synthesis

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