Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0153690 (bone metastases)
 6,382 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Wnts are a large family of secreted glycoproteins that mediate bone development in the embryo and promote bone production in the adult. Autocrine Wnt signaling within tumor cells has been shown to promote tumorigenesis by enhancing tumor cell proliferation and survival. We recently demonstrated that prostate cancer cells (CaP) produce Wnts which act in a paracrine fashion to induce osteoblastic activity in CaP bone metastases. The ability of tumor-derived Wnts to influence bone development is regulated by multiple families of secreted antagonists including soluble frizzled related receptors (sFrp) and dickkopfs (DKK). CaP cells appear to produce DKK-1 early in the development of skeletal metastases, which masks osteogenic Wnts and thus favors an osteolytic environment at the metastatic site. As the metastases progresses, DKK-1 expression is lost allowing for a Wnt mediated osteoblastic response which predominates CaP boney lesions. Interestingly, blocking DKK-1 expression early in CaP metastasis prevents tumor establishment within the bone suggesting that osteolysis is a required first step in the development of CaP bone metastases. In this review, we discuss our data on the Wnt inhibitor DKK-1 in CaP bone metastasis in the context of current literature evidence that demonstrate that Wnt inhibitors can function as both tumor suppressors and tumor promoters. We provide a model that the affect of Wnt inhibitors on tumor development is dependent on the tumor micro-environment and suggest that DKK-1 is a switch which transitions CaP bone metastases from osteolytic to osteoblastic.
 ...
PMID:The role of Wnts in bone metastases. 1716 May 58

Bone metastasis is a clinically devastating development of progressive cancers including prostate carcinoma, breast carcinoma and multiple myeloma. Bone metastases are typically painful, lead to adverse skeletal-related events, such as fracture, and are highly resistant to therapy. A major contribution to the ability of cancers to successfully establish bone metastases is their ability to exploit mechanisms of normal bone remodeling. Wnts are a large family of morphogenic proteins that are critical for bone development and contribute to maintaining bone mass in the mature organism. Wnt function is balanced by the presence of a variety of endogenous inhibitors, such as the dickkopf family members, secreted frizzled related proteins and sclerostin. Together, these factors contribute to normal bone homeostasis, allowing for dynamic changes in bone to withstand alterations in physical forces and physiological needs. In this review, we describe the role that Wnts and their inhibitors have in normal bone biology and cancer-related bone pathology. An overview of Wnt signaling pathways is discussed and key bone microenvironment cellular players, as they pertain to Wnt biology, are examined. Finally, we describe clinical trials of several Wnt inhibitor antagonists for patients with tumor-related bone disease. As few options currently exist for the treatment of bone-metastatic disease, Wnt proteins and their inhibitors offer promise for the development of novel therapeutics.
...
PMID:Wnt and Wnt inhibitors in bone metastasis. 2395 88

Bone metastases occur in 65% to 75% of patients with advanced breast cancer and significantly worsen their survival and quality of life. We previously showed that conditioned medium (CM) from osteocytes stimulated with oscillatory fluid flow, mimicking bone mechanical loading during routine physical activities, reduced the transendothelial migration of breast cancer cells. Endothelial cells are situated at an ideal location to mediate signals between osteocytes in the bone matrix and metastasizing cancer cells in the blood vessels. In this study, we investigated the specific effects of flow-stimulated osteocytes on the interaction between endothelial cells and breast cancer cells in vitro. We observed that CM from flow-stimulated osteocytes reduced endothelial permeability by 15% and breast cancer cell adhesion onto endothelial monolayers by 18%. The difference in adhesion was abolished with anti-intercellular adhesion molecule 1 (ICAM-1) neutralizing antibodies. Furthermore, CM from endothelial cells conditioned in CM from flow-stimulated osteocytes significantly altered the gene expression in bone-metastatic breast cancer cells, as shown by RNA sequencing. Specifically, breast cancer cell expression of matrix metallopeptidase 9 (MMP-9) was downregulated by 62%, and frizzled-4 (FZD4) by 61%, when the osteocytes were stimulated with flow. The invasion of these breast cancer cells across Matrigel was also reduced by 47%, and this difference was abolished by MMP-9 inhibitors. In conclusion, we demonstrated that flow-stimulated osteocytes downregulate the bone-metastatic potential of breast cancer cells by signaling through endothelial cells. This provides insights into the capability of bone mechanical regulation in preventing bone metastases; and may assist in prescribing exercise or bone-loading regimens to patients with breast cancers.
 ...
PMID:Mechanically stimulated osteocytes reduce the bone-metastatic potential of breast cancer cells in vitro by signaling through endothelial cells. 3041 49