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Query: UMLS:C0153690 (
bone metastases
)
6,382
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In normal bone there are two essential processes of bone turnover, resorption and formation, which are disrupted by
bone metastases
. Two types of
bone metastases
are known, i.e. osteolytic lesions with dominant bone resorption and osteosclerotic tumors with enhanced osteoblastic bone formation. Numerous cytokines and growth factors regulate the activity of osteoclasts and/or osteoblasts in endo- or paracrine ways, playing crucial roles in the processes of bone turnover.
Bone metastases
are often the consequences of certain malignant tumors, such as breast, prostate, lung, and renal cancer. The diagnosis of bone metastasis is essential for a determination of the clinical stage of cancer and appropriate treatment. Tumor markers are useful in diagnosis, prognosis, staging, and, especially, monitoring treatment. Tumor markers are also useful in detecting
bone metastases
. There is growing evidence that various cytokines, especially M-CSF,
TGFbeta
, TNFalpha, and IL-6 and IL-7, may be new tumor markers useful in the diagnosis of neoplastic disease. The processes of bone turnover in normal bone and metastatic tumors as well as the significance of the most important cytokines in the development of osteolytic metastases and the possibility of their use in the diagnosis of the most frequent cancers presenting
bone metastases
are described in this article.
...
PMID:[Cytokines as markers of osteolysis in the diagnostics of patients with bone metastases]. 1918 82
Survival and capability of cancer cells to form metastases fundamentally depend on interactions with their microenvironment. Secondary tumors originating from prostate carcinomas affect remodeling of bone tissue and can induce both osteolytic and osteocondensing lesions. However, particular molecular mechanisms responsible for selective homing and activity of cancer cells in bone microenvironment have not been clarified yet. Growth/differentiation factor-15 (GDF-15), a distant member of the
TGF-beta
protein family, has recently been associated with many human cancers, including prostate. We show that both pure GDF-15 and the GDF-15-containing growth medium of 1,25(OH)(2)-vitamin D(3)-treated prostate adenocarcinoma LNCaP cells suppress formation of mature osteoclasts differentiated from RAW264.7 macrophages and bone-marrow precursors by M-CSF/RANKL in a dose-dependent manner. GDF-15 inhibits expression of c-Fos and activity of NFkappaB by delayed degradation of IkappaB. Moreover, GDF-15 inhibits expression of carbonic anhydrase II and cathepsin K, key osteoclast enzymes, and induces changes in SMAD and p38 signaling. The lack of functional osteoclasts can contribute to accumulation of bone matrix by reduction of bone resorption. These results unveil new role of GDF-15 in modulation of osteoclast differentiation and possibly in therapy of
bone metastases
.
...
PMID:Growth/differentiation factor-15 inhibits differentiation into osteoclasts--a novel factor involved in control of osteoclast differentiation. 1969 66
In the past decade, our understanding of the molecular mechanisms that underlie breast cancer pathology and progression has dramatically improved. Using this knowledge, we have identified additional targets and developed novel therapeutic interventions in breast cancer. Together, these translational research efforts are helping to usher us into an age of personalized cancer therapy.
Metastasis to bone
is a common and devastating consequence of breast cancer. Bisphosphonates, which represent the current gold standard in bone metastasis therapies, are being improved with newer and more efficacious generations of these compounds being developed. Breast cancer growth in the bone requires activation of various signaling pathways in both cancer cells and stromal cells, including those that are stimulated by
TGF-beta
and RANKL, and mediated through the Src tyrosine kinase. Bone cells and cancer cells alike express promising targets for therapeutic intervention, including Cathepsin K, CXCR4 and GPNMB. In this article we discuss the molecular mechanisms behind these pro-metastatic molecules and review the most recent findings in the clinical development of their associated targeted therapies.
...
PMID:Emerging therapeutic targets in breast cancer bone metastasis. 2002 Dec 9
Conventional treatment for metastatic bone pain requires a multidisciplinary approach (medical therapy, surgery, and radiation), but is primarily palliative. Biphosphonates introduced the concept of disease-modifying therapy, by effectively reducing bone pain and skeletal related events in patients suffering from bone metastatic cancer. In the past decade, the growing knowledge of bone biology and our understanding of the molecular mechanisms at the basis of the interaction between cancer cells and bone matrix led to the identification of new therapeutic targets for innovative "smart drugs". The most investigated is the RANK/RANKL/OPG pathway, and denosumab, among novel targeted therapies, is the molecule that is in the most advanced development phase. Additional targets have been identified and potential novel therapeutic interventions, classified as inhibitors of bone resorption or stimulators of bone formation, are under preclinical and clinical evaluation. These promising targets include cathepsin K, the Src tyrosine kinases, integrins, chloride channels, the parathyroid hormone-related peptide, endotelin-1, sclerostin, and
TGF-beta
. Other pathways or molecules expressed by bone cells and cancer cells, such as CXCR4, GPNMB, EGF-family ligands, Wnt/DKK1, and MIP-1 alpha have recently emerged as potential targets. The aim of this review is to discuss the molecular mechanisms behind these emerging therapeutic targets in
bone metastases
and to give an overview of results from those in advanced clinical phases.
...
PMID:Bone metastatic disease: taking aim at new therapeutic targets. 2165 83
Lysophosphatidic acid (LPA), generated in the microenvironment of cancer cells, can drive the proliferation, invasion, and migration of cancer cells by activating G protein-coupled LPA receptors. Moreover, in cancer cells that have metastasized to bone, LPA signaling can promote osteolysis by inducing cancer cell production of cytokines, such as IL-6 and IL-8, which can stimulate osteoblasts to secrete RANKL, a key promoter of osteoclastogenesis. Indeed, in cancers prone to metastasize to bone, LPA appears to be a major driver of the expansion of osteolytic
bone metastases
. Activation of NADPH oxidase has been shown to play a mediating role in the signaling pathways by which LPA, as well as RANKL, promote osteolysis. In addition, there is reason to suspect that Nox4 activation is a mediator of the feed-forward mechanism whereby release of
TGF-beta
from bone matrix by osteolysis promotes expression of PTHrP in cancer cells, and thereby induces further osteolysis. Hence, measures which can down-regulate NADPH oxidase activity may have potential for slowing the expansion of osteolytic
bone metastases
in cancer patients. Phycocyanin and high-dose statins may have utility in this regard, and could be contemplated as complements to bisphosphonates or denosumab for the prevention and control of osteolytic lesions. Ingestion of omega-3-rich flaxseed or fish oil may also have potential for controlling osteolysis in cancer patients.
...
PMID:Suppression of NADPH Oxidase Activity May Slow the Expansion of Osteolytic Bone Metastases. 2757 Nov 13
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