The reasons why tumor cells metastasize to bone remain obscure. There is some evidence to support the theory that integrins (acting as cell surface adhesion receptors) play a role in mediating metastasis in certain organs. Here, we report that overexpression of a functionally active integrin alpha(v)b3 in Chinese hamster ovary (CHO) tumor cells drastically increased the incidence, number, and area of bone metastases in nude mice compared with those observed in mock-transfected CHO cells (CHO dhfr+) or in CHO cells expressing a functionally inactive integrin alpha(v)b3 (CHO beta3Delta744). Moreover, a breast cancer cell line (B02) established from bone metastases caused by MDA-MB-231 cells constitutively overexpressed integrin alpha(v)b3, whereas the cell surface expression level of other integrins remained unchanged. In vivo, the extent of bone metastases in B02-bearing mice was significantly increased compared with that of MDA-MB-231-bearing mice. In vitro, B02 cells and CHO cells expressing a functionally active integrin alpha(v)b3 exhibited substantially increased invasion of and adhesion to mineralized bone, bone sialoprotein, and collagen compared with those found with MDA-MB-231, CHO dhfr+, and CHO beta3Delta744 cells, respectively. Overall, our findings suggest that integrin alpha(v)b3 expression in tumor cells accelerates the development of osteolytic lesions, presumably through increased invasion of and adhesion to bone.
Platelet-derived lysophosphatidic acid (LPA) supports the progression of breast and ovarian cancer metastasis to bone. The mechanisms through which LPA promotes bone metastasis formation are, however, unknown. Here we report that silencing of the type 1 LPA receptor (LPA 1) in cancer cells blocks the production of tumor-derived cytokines that are potent activators of osteoclastmediated bone destruction and significantly reduces the progression of osteolytic bone metastases. Moreover, functional blockade of LPA action on its cognate receptor LPA 1 using a pharmacological antagonist mimics the effects of silencing LPA 1 in tumor cells in vitro and substantially reduces bone metastasis progression in animals. Overall, these results suggest that inhibition of plateletderived LPA action on LPA 1 expressed by tumor cells may be a promising therapeutic target for patients with bone metastases.breast cancer ͉ platelet ͉ treatment B one is a frequent metastatic site for many cancers (1). Bone metastasis formation is associated with a high morbidity rate because of intractable bone pain, pathological fractures, hypercalcemia, and nerve compression (1). Bone-residing metastatic cells are not directly able to destroy bone. Instead, they secrete paracrine factors [IL-6, IL-8, and parathyroid hormone-related peptide (PTHrP)] that stimulate osteoblast-mediated bone resorption, leading to osteolysis (1). In this respect, bisphosphonates (as inhibitors of osteoclast activity) are the standard of care in the treatment of patients with bone metastases. Unfortunately, these treatments are only palliative and do not provide a life-prolonging benefit to metastatic patients (2), indicating that more efficacious therapies are required.We have recently demonstrated that the naturally occurring bioactive lipid, lysophosphatidic acid (LPA), produced by activated blood platelets (3), is coopted by breast and ovarian cancer cells as a tumor mitogen and an inducer of tumor-derived cytokine (IL-6 and IL-8) that, altogether, promote the progression of bone metastases (4). Endogenous receptors through which LPA promotes breast cancer progression and bone metastasis are, however, unknown. LPA binds to three GTPbinding protein-coupled receptors, LPA 1 (5), LPA 2 (6), and LPA 3 (7), that mediate the growth factor-like activity of LPA in a large variety of cell types in culture, including cancer cells (8). Interestingly, mRNA levels for LPA receptors are up-regulated in various cancers (9-11). Yet, the clinical significance of such observations remains to be determined. Using both genetic and pharmacological approaches in vitro and in vivo, we demonstrate here that inhibition of LPA action on its receptor LPA 1 is a promising therapeutic target in cancer, especially for metastasis to bone.
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