Qiongqing Wang scite author profile

A search for general regulators of cancer metastasis has yielded a set of microRNAs for which expression is specifically lost as human breast cancer cells develop metastatic potential. Here we show that restoring the expression of these microRNAs in malignant cells suppresses lung and bone metastasis by human cancer cells in vivo. Of these microRNAs, miR-126 restoration reduces overall tumour growth and proliferation, whereas miR-335 inhibits metastatic cell invasion. miR-335 regulates a set of genes whose collective expression in a large cohort of human tumours is associated with risk of distal metastasis. miR-335 suppresses metastasis and migration through targeting of the progenitor cell transcription factor SOX4 and extracellular matrix component tenascin C. Expression of miR-126 and miR-335 is lost in the majority of primary breast tumours from patients who relapse, and the loss of expression of either microRNA is associated with poor distal metastasis-free survival. miR-335 and miR-126 are thus identified as metastasis suppressor microRNAs in human breast cancer.Although metastasis is the overwhelming cause of mortality in patients with solid tumours, our understanding of its molecular and cellular determinants is limited 1-3 . Transcriptional profiling has revealed sets of genes, or `signatures', for which expression in primary tumours correlates with metastatic relapse or poor survival 4 . Some of these genes endow cancer cells with a more invasive phenotype, enhanced angiogenic and intravasation activity, the ability to exit from the circulation, or an ability to modify the metastasis microenvironment 5,6 . Such gene sets are thus providing numerous candidate mediators of metastasis to be validated through functional and clinical studies. Much less insight, however, has been gained into the

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TGFβ Primes Breast Tumors for Lung Metastasis Seeding through Angiopoietin-like 4

Padua

Zhang

Wang

et al. 2008

Cell

868

884

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Cells released from primary tumors seed metastases to specific organs by a nonrandom process, implying the involvement of biologically selective mechanisms. Based on clinical, functional, and molecular evidence, we show that the cytokine TGFbeta in the breast tumor microenvironment primes cancer cells for metastasis to the lungs. Central to this process is the induction of angiopoietin-like 4 (ANGPTL4) by TGFbeta via the Smad signaling pathway. TGFbeta induction of Angptl4 in cancer cells that are about to enter the circulation enhances their subsequent retention in the lungs, but not in the bone. Tumor cell-derived Angptl4 disrupts vascular endothelial cell-cell junctions, increases the permeability of lung capillaries, and facilitates the trans-endothelial passage of tumor cells. These results suggest a mechanism for metastasis whereby a cytokine in the primary tumor microenvironment induces the expression of another cytokine in departing tumor cells, empowering these cells to disrupt lung capillary walls and seed pulmonary metastases.

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RASMutations in Cutaneous Squamous-Cell Carcinomas in Patients Treated with BRAF Inhibitors

et al. 2012

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BACKGROUND Cutaneous squamous-cell carcinomas and keratoacanthomas are common findings in patients treated with BRAF inhibitors. METHODS We performed a molecular analysis to identify oncogenic mutations (HRAS, KRAS, NRAS, CDKN2A, and TP53) in the lesions from patients treated with the BRAF inhibitor vemurafenib. An analysis of an independent validation set and functional studies with BRAF inhibitors in the presence of the prevalent RAS mutation was also performed. RESULTS Among 21 tumor samples, 13 had RAS mutations (12 in HRAS). In a validation set of 14 samples, 8 had RAS mutations (4 in HRAS). Thus, 60% (21 of 35) of the specimens harbored RAS mutations, the most prevalent being HRAS Q61L. Increased proliferation of HRAS Q61L–mutant cell lines exposed to vemurafenib was associated with mitogen-activated protein kinase (MAPK)–pathway signaling and activation of ERK-mediated transcription. In a mouse model of HRAS Q61L–mediated skin carcinogenesis, the vemurafenib analogue PLX4720 was not an initiator or a promoter of carcinogenesis but accelerated growth of the lesions harboring HRAS mutations, and this growth was blocked by concomitant treatment with a MEK inhibitor. CONCLUSIONS Mutations in RAS, particularly HRAS, are frequent in cutaneous squamous-cell carcinomas and keratoacanthomas that develop in patients treated with vemurafenib. The molecular mechanism is consistent with the paradoxical activation of MAPK signaling and leads to accelerated growth of these lesions. (Funded by Hoffmann–La Roche and others; ClinicalTrials.gov numbers, NCT00405587, NCT00949702, NCT01001299, and NCT01006980.)

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Latent Bone Metastasis in Breast Cancer Tied to Src-Dependent Survival Signals

et al. 2009

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Metastasis may arise years after removal of a primary tumor. The mechanisms allowing latent disseminated cancer cells to survive are unknown. We report that a gene-expression signature of c-Src activation is associated with late-onset bone metastasis in breast cancer. This link is independent of hormone receptor status or breast cancer subtype. In breast cancer cells, c-Src is dispensable for homing to the bones or lungs critical for the survival and outgrowth of these cells in the bone marrow. c-Src mediates AKT regulation and cancer cell survival responses to CXCL12 and TRAIL, factors which are distinctively expressed in the bone metastasis microenvironment. Breast cancer cells that lodge in the bone marrow succumb in this environment when deprived of c-Src activity.

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ADAMTS1 and MMP1 proteolytically engage EGF-like ligands in an osteolytic signaling cascade for bone metastasis

Lü¹,

Wang²,

Hu³

et al. 2009

Genes Dev.

278

241

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Bone metastasis is mediated by complex interactions between tumor cells and resident stromal cells in the bone microenvironment. The functions of metalloproteinases in organ-specific metastasis remain poorly defined despite their well-appreciated role in matrix degradation and tumor invasion. Here, we show a mechanism whereby two distinct metalloproteinases, a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS1) and matrix metalloproteinase-1 (MMP1), orchestrate a paracrine signaling cascade to modulate the bone microenvironment in favor of osteoclastogenesis and bone metastasis. Proteolytic release of membranebound epidermal growth factor (EGF)-like growth factors, including Amphiregulin (AREG), heparin-binding EGF (HB-EGF), and transforming growth factor a (TGFa) from tumor cells suppress the expression of osteoprotegerin (OPG) in osteoblasts and subsequently potentiate osteoclast differentiation. EGF receptor (EGFR) inhibitors block osteolytic bone metastasis by targeting EGFR signaling in bone stromal cells. Furthermore, elevated MMP1 and ADAMTS1 expression is associated with increased risk of bone metastasis in breast cancer patients. This study established MMP1 and ADAMTS1 in tumor cells, as well as EGFR signaling in osteoblasts, as promising therapeutic targets for inhibiting bone metastasis of breast cancer. Increased osteoclast activity leads to bone matrix degradation and the release of bone-derived growth factors that can further stimulate the metastatic function of tumor cells. Central to the control of this so-called ''vicious cycle'' of bone metastasis is the modulation of osteoclast activity by the tumor necrosis factor (TNF) family member receptor activator of nuclear kB ligand (RANKL) (Mundy 2002). RANKL is expressed in both membranebound and soluble forms by osteoblasts, while its cognate receptor RANK is expressed on the surface of osteoclasts and controls a key signaling pathway essential for osteoclast differentiation. Osteoprotegerin (OPG), a soluble decoy receptor of RANKL, is also produced by osteoblasts to antagonize the activity of RANKL. The function of tumor-derived bone metastasis factors, such as parathyroid hormone-related peptide (PTHrP), hinges upon their ability to increase RANKL production or decrease OPG secretion by osteoblasts, ultimately promoting osteoclast differentiation and activation (Mundy 2002).

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Qiongqing Wang

Endogenous human microRNAs that suppress breast cancer metastasis

TGFβ Primes Breast Tumors for Lung Metastasis Seeding through Angiopoietin-like 4

RASMutations in Cutaneous Squamous-Cell Carcinomas in Patients Treated with BRAF Inhibitors

Latent Bone Metastasis in Breast Cancer Tied to Src-Dependent Survival Signals

ADAMTS1 and MMP1 proteolytically engage EGF-like ligands in an osteolytic signaling cascade for bone metastasis

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