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Query: UMLS:C0153690 (
bone metastases
)
6,382
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The paradigm of cancer development and metastasis is a comprehensive, complex series of events that ultimately reflects a coordinated interaction between the tumor cell and the microenvironment within which the tumor cell resides. Despite the realization that this relationship has changed the current paradigm of cancer research, the struggle continues to more completely understand the pathogenesis of the disease and the ability to appropriately identify and design novel targets for therapy. A particular area of research that has added a significant understanding to cancer metastasis is the role of chemokines and chemokine receptors. Here we review the current concepts of
CCL2
(monocyte chemoattractant protein 1) and its role in tumor metastasis with particular interest to its role in the development of
bone metastases
.
...
PMID:CCL2 (Monocyte Chemoattractant Protein-1) in cancer bone metastases. 1716 Jul 12
Over 70% of patients with advanced breast cancer will develop
bone metastases
for which there is no cure. Mesenchymal Stem Cells (MSCs) and their derivative osteoblasts are subpopulations of cells within the bone marrow environment, postulated as potential interacting targets for disseminating cancer cells because of their ability to secrete a range of chemokines. This study aimed to investigate chemokine secretion throughout MSC differentiation into osteoblasts and their effect on the breast cancer cells. Primary MSCs and osteoblast progenitors were cultured in appropriate conditions to induce differentiation into mature osteoblasts. Chemokines secreted throughout differentiation were detected using ChemiArray and ELISA. Migration of breast cancer cells in response to the bone-derived cells was quantified using Transwell inserts. Breast cancer cells were cocultured with MSCs, retrieved using magnetic beads, and changes in
CCL2
expression were analyzed. MSCs secreted a range of factors including IL-6, TIMP-1 and
CCL2
, the range and level of which changed throughout differentiation.
CCL2
secretion by MSCs increased significantly above control cells as they differentiated into mature osteoblasts (p<0.05). The bone-derived cells stimulated migration of breast cancer cells, and this was inhibited (21-50%) in the presence of a
CCL2
antibody.
CCL2
gene expression in breast cancer cells was upregulated following direct coculture with MSCs. The varying levels of chemokines secreted throughout MSC differentiation may play an important role in supporting tumor cell homing and progression. These results further highlight the distinct effect MSCs have on breast cancer cells and their potential importance in supporting development of metastases.
...
PMID:Mesenchymal stem cell secretion of chemokines during differentiation into osteoblasts, and their potential role in mediating interactions with breast cancer cells. 1900 62
Bone is the preferred site of prostate cancer metastasis, contributing to the morbidity and mortality of this disease. A key step in the successful establishment of prostate cancer
bone metastases
is activation of osteoclasts with subsequent bone resorption causing the release of several growth factors from the bone matrix. CD11b+ cells in bone marrow are enriched for osteoclast precursors. Conditioned media from prostate cancer PC-3 cells induces CD11b+ cells from human peripheral blood to differentiate into functional osteoclasts with subsequent bone resorption. Analysis of PC-3 conditioned media revealed high amounts of IL-6 and IL-8. CD11b+ cells were cultured with M-CSF and RANKL, IL-6, IL-8, and
CCL2
, alone or in combination. All of these conditions induced osteoclast fusion, but cells cultured with M-CSF, IL-6, IL-8, and
CCL2
were capable of limited bone resorption. Co-incubation with IL-6 and IL-8 and the RANK inhibitor, RANK-Fc, failed to inhibit osteoclast fusion and bone resorption, suggesting a potential RANKL-independent mechanism of functional osteoclast formation. This study demonstrates that functional osteoclasts can be derived from CD11b+ cells derived from human PBMCs. Prostate cancer cells secrete factors, including IL-6 and IL-8, that play an important role in osteoclast fusion by a RANKL-independent mechanism.
...
PMID:Prostate cancer promotes CD11b positive cells to differentiate into osteoclasts. 1917 75
Metastatic spread of cancer to distant vital organs, including lung and bone, is the overwhelming cause of breast cancer mortality and morbidity. Effective treatment of systemic metastasis relies on the identification and functional characterization of metastasis mediators to multiple organs. Overexpression of the
chemokine (C-C motif) ligand 2
(
CCL2
) is frequently associated with advanced tumor stage and metastatic relapse in breast cancer. However, the functional mechanism of
CCL2
in promoting organ-specific metastasis of breast cancer has not been rigorously investigated. Here, we used organ-specific metastatic sublines of the MDA-MB-231 human breast cancer cell line to demonstrate that overexpression of
CCL2
promotes breast cancer metastasis to both lung and bone. Conversely, blocking
CCL2
function with a neutralizing antibody reduced lung and
bone metastases
. The enhancement of lung and
bone metastases
by
CCL2
was associated with increased macrophage infiltration and osteoclast differentiation, respectively. By performing functional assays with primary cells isolated from the wild type,
CCL2
and CCR2 knock-out mice, we showed that tumor cell-derived
CCL2
depends on its receptor CCR2 (chemokine, CC motif, receptor 2) expressed on stromal cells to exert its function in promoting macrophage recruitment and osteoclast differentiation. Overall, these data demonstrated that
CCL2
-expressing breast tumor cells engage CCR2(+) stromal cells of monocytic origin, including macrophages and preosteoclasts, to facilitate colonization in lung and bone. Therefore,
CCL2
and CCR2 are promising therapeutic targets for simultaneously inhibiting lung and bone metastasis of breast cancer.
...
PMID:Chemokine (C-C motif) ligand 2 engages CCR2+ stromal cells of monocytic origin to promote breast cancer metastasis to lung and bone. 1972 Aug 36
Prostate cancer continues to be the most common nonskin cancer diagnosed and the second leading cause of cancer death in men in the United States. Prostate cancer that has metastasized to bone remains incurable. The interactions between prostate cancer cells and the various cells of the host microenvironment result in enhanced growth of tumor cells and activation of host cells that together culminate in osteoblastic
bone metastases
. These dynamic tumor-host interactions are mediated by cancer and host-produced cytokines and chemokines. Among them,
chemokine (C-C motif) ligand 2
(
CCL2
) has been identified as a prominent modulator of metastatic growth in the bone microenvironment.
CCL2
is produced by bone marrow osteoblasts, endothelial cells, stromal cells, and prostate cancer cells. It has been demonstrated to modulate tumor-associated macrophage migration and promote osteoclast maturation. In addition,
CCL2
functions through binding to its receptor CCR2 to induce prostate cell proliferation, migration, and invasion in both autocrine and paracrine manners.
CCL2
protects prostate cancer cells from autophagic death by activating survivin through a PI3K/AKT (phosphatidylinositol 3-kinase/protein kinase B)-dependent mechanism. Inhibition of
CCL2
substantially decreases macrophage infiltration, decreases osteoclast function, and inhibits prostate cancer growth in bone in preclinical animal models. The multiple roles of
CCL2
in the tumor microenvironment make it an attractive therapeutic target in metastatic prostate cancer as well as in other cancers.
...
PMID:Multiple roles of chemokine (C-C motif) ligand 2 in promoting prostate cancer growth. 2023 97
Induction of new bone formation is frequently seen in the bone lesions from prostate cancer. However, whether osteogenesis is necessary for prostate tumor growth in bone is unknown. Recently, 2 xenografts, MDA-PCa-118b and MDA-PCa-133, were generated from prostate cancer
bone metastases
. When implanted subcutaneously in severe combined immunodeficient (SCID) mice, MDA-PCa-118b induced strong ectopic bone formation while MDA-PCa-133 did not. To identify the factors that are involved in bone formation, we compared the expression of secreted factors (secretome) from MDA-PCa-118b and MDA-PCa-133 by cytokine array. We found that the osteogenic MDA-PCa-118b xenograft expressed higher levels of bone morphogenetic protein BMP4 and several cytokines including interleukin-8, growth-related protein (GRO), and
CCL2
. We showed that BMP4 secreted from MDA-PCa-118b contributed to about a third of the osteogenic differentiation seen in MDA-PCa-118b tumors. The conditioned media from MDA-PCa-118b induced a higher level of osteoblast differentiation, which was significantly reduced by treatment with BMP4 neutralizing antibody or the small molecule BMP receptor 1 inhibitor LDN-193189. BMP4 did not elicit an autocrine effect on MDA-PCa-118b, which expressed low to undetectable levels of BMP receptors. Treatment of SCID mice bearing MDA-PCa-118b tumors with LDN-193189 significantly reduced tumor growth. Thus, these studies support a role of BMP4-mediated osteogenesis in the progression of prostate cancer in bone.
...
PMID:BMP4 promotes prostate tumor growth in bone through osteogenesis. 2167 81
Bisphosphonates (BPs) are in clinical use for the treatment of breast cancer patients with
bone metastases
. Their anti-resorptive effect is mainly explained by inhibition of osteoclast activity, but recent evidence also points to a direct action of BPs on bone-forming osteoblasts. However, the mechanisms how BPs influence osteoblasts and their interactions with breast cancer cells are still poorly characterized. Human osteoblasts isolated from bone specimens were characterized in depth by their expression of osteogenic marker genes. The influence of the nitrogen-containing BPs zoledronate (Zol), ibandronate (Iban), and pamidronate (Pam) on molecular and cellular functions of osteoblasts was assessed focusing on cell proliferation and viability, apoptosis, cytokine secretion, and osteogenic-associated genes. Furthermore, effects of BPs on osteoblast-breast tumor cell interactions were examined in an established in vitro model system. The BPs Zol and Pam inhibited cell viability of osteoblasts. This effect was mediated by an induction of caspase-dependent apoptosis in osteoblasts. By interfering with the mevalonate pathway, Zol also reduces the proliferation of osteoblasts. The expression of phenotypic markers of osteogenic differentiation was altered by Zol and Pam. In addition, both BPs strongly influenced the secretion of the chemokine
CCL2
by osteoblasts. Breast cancer cells also responded to Zol and Pam with a reduced cell adhesion to osteoblast-derived extracellular matrix molecules and with a decreased migration in response to osteoblast-secreted factors. BPs revealed prominent effects on human osteoblasts. Zol and Pam as the most potent BPs affected not only the expression of osteogenic markers, osteoblast viability, and proliferation but also important osteoblast-tumor cell interactions. Changing the osteoblast metabolism by BPs modulates migration and adhesion of breast cancer cells as well.
...
PMID:Bisphosphonates modulate vital functions of human osteoblasts and affect their interactions with breast cancer cells. 2380 19
