UMLS:C0153690 - FACTA Search

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Query: UMLS:C0153690 (bone metastases)
6,382 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several lines of evidence suggest that production of parathyroid hormone-related protein (PTHrP) by breast cancer cells contributes to the formation of bone metastases. However, it is not clear if PTHrP promotes access of cancer cells to the skeleton or if it simply promotes bone resorption around cells already within bone. To study the effects of PTHrP on the development of bone metastases, we treated mice overexpressing PTHrP in their mammary glands (K14-PTHrP transgenic mice) with 9,10-dimethyl-1,2-benz-anthracene (DMBA), a known mammary carcinogen. After DMBA treatment, K14-PTHrP mice showed a higher incidence of tumor formation and a shorter latency to tumor formation than wild-type littermates. Transgenic tumors expressed the K14-PTHrP transgene and secreted excess amounts of PTHrP. In response, tumor-bearing transgenic mice became hypercalcemic and had elevated circulating levels of PTHrP. Despite the development of visceral metastases, neither transgenic mice nor wild-type controls developed bone metastases. This was true even if tumor cells were introduced into the arterial circulation of immunodeficient mice. Our results are consistent with the emerging notion that the ability of breast cancer cells to produce PTHrP in response to cues from the bone microenvironment may be more important to the development of skeletal metastases than the production of PTHrP by cells within the primary breast cancer.
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PMID:Overexpression of parathyroid hormone-related protein causes hypercalcemia but not bone metastases in a murine model of mammary tumorigenesis. 1209 30

Bone metastases appear frequently in patients with advanced breast cancer. They are associated with substantial morbidity and occasionally produce life-threatening complications. Systemic anticancer therapies (chemotherapy and hormonal therapies) represent the treatment of choice for these and other distant metastases from breast cancer. Aggressive use of prophylactic and therapeutic orthopedic surgery is warranted, especially for lesions in weight-bearing areas. Judicious use of external radiotherapy and bone-seeking radionuclides contributes to the control of pain and local control of lesions in strategic locations. In recent years, the development of osteoclast-inhibitory therapy added a new dimension to symptom control and prevention of skeletal complications. The bisphosphonates, clodronate, pamidronate, and zoledronic acid, are potent osteoclast inhibitors with marked clinical effects. They represent the drugs of choice for control of hypercalcemia of malignancy, and they are critical adjuvants to systemic anticancer therapy of metastatic disease. More recently, the development of recombinant osteoprotegerin and an anti-parathyroid hormone-related protein monoclonal antibody represent promising new options for the treatment of patients with bone metastases.
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PMID:Novel approaches to the management of bone metastases in patients with breast cancer. 1213 8

Parathyroid hormone-related protein (PTH-rP), a protein produced by prostate carcinoma and other epithelial cancers, is a key agent in the development of bone metastases. We investigated whether the protein follows the self-tolerance paradigm or can be used as a target Ag for anticancer immunotherapy by investigating the immunogenicity of two HLA-A(*)02.01-binding PTH-rP-derived peptides (PTR-2 and -4) with different affinity qualities. PTH-rP peptide-specific CTL lines were generated from the PBMC of two HLA-A(*)02.01(+) healthy individuals, stimulated in vitro with PTH-rP peptide-loaded autologous dendritic cells and IL-2. The peptide-specific CTLs were able to kill PTH-rP(+)HLA-A(*)02.01(+) breast and prostate carcinoma cell lines. The two peptides were also able to elicit a strong antitumor PTH-rP-specific CTL response in HLA-A(*)02.01 (HHD) transgenic mice. The vaccinated mice did not show any sign of side effects due to cell-mediated autoimmunity or toxicity. In this study we describe two immunogenic and toxic-free PTH-rP peptides as valid candidates for the design of peptide-based vaccination strategies against prostate cancer and bone metastases from the most common epithelial malignancies.
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PMID:High-affinity HLA-A(*)02.01 peptides from parathyroid hormone-related protein generate in vitro and in vivo antitumor CTL response without autoimmune side effects. 1239 Nov 94

Metastasis of prostate cancer to bone is a common complication of progressive prostate cancer. Skeletal metastases are often associated with severe pain and thus demand therapeutic interventions. Although often characterized as osteoblastic, prostate cancer skeletal metastases usually have an underlying osteoclastic component. Advances in osteoclast biology and pathophysiology have led toward defining putative therapeutic targets to attack tumor-induced osteolysis. Several factors have been found to be important in tumor-induced promotion of osteoclast activity. One key factor is the protein receptor activator of nuclear factor-kappa B ligand (RANKL), which is required to induce osteoclastogenesis. RANKL is produced by prostate cancer bone metastases, enabling these metastases to induce osteolysis through osteoclast activation. Another factor, osteoprotegerin, is a soluble decoy receptor for RANKL and inhibits RANKL-induced osteoclastogenesis. Osteoprotegerin has been shown in murine models to inhibit tumor-induced osteolysis. In addition to RANKL, parathyroid hormone-related protein and interleukin-6 are produced by prostate cancer cells and can promote osteoclastogenesis. Finally, matrix metalloproteinases (MMPs) are secreted by prostate cancer cells and promote osteolysis primarily through degradation of the nonmineralized bone matrix. MMP inhibitors have been shown to diminish tumor establishment in bone in murine models. Thus, many factors derived from prostate cancer metastases can promote osteolysis, and these factors may serve as therapeutic targets. The importance of osteoclasts in the establishment and progression of skeletal metastases has led to clinical evaluation of therapeutic agents to target them for slowing metastatic progression. Bisphosphonates are a class of compounds that decrease osteoclast life span by promoting their apoptosis. The bisphosphonate pamidronate has proven clinical efficacy for relieving bone pain associated with breast cancer metastases and has a promising outlook for prostate cancer metastases. Another bisphosphonate, zoledronic acid, appears to directly target prostate cancer cells in addition to diminishing osteoclast activity at the metastatic site. In addition to bisphosphonates, other novel therapies based on studies that delineate mechanisms of skeletal metastases establishment and progression will be developed in the near future.
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PMID:The role of osteoclastic activity in prostate cancer skeletal metastases. 1253 87

Parathyroid hormone-related protein (PTHrP), which has been localized in prostate cancer tissue and cell lines, plays a role in the development of bone metastases, a frequent complication in prostate cancer patients. Tumor cell adhesion to extracellular matrix (ECM) components is mediated via integrin subunits, and plays a major role in the invasion and metastasis of tumor cells. The present experiments examined the ability of PTHrP to influence adhesion of the human prostate cancer cell line PC-3 to several ECM proteins found in normal tissues. Clonal PC-3 cells induced to overexpress PTHrP by stable transfection with PTHrP complementary DNA showed significantly higher adhesion to collagen type 1, fibronectin, and laminin than control (empty vector-transfected) cells. PTHrP-overexpressing cells also exhibited higher expression of the alpha1, alpha5, alpha6, and beta4 integrin subunits. These results suggest that PTHrP may play a role in prostate tumor invasion and metastasis by influencing cell adhesion to the ECM via upregulation of specific integrin subunits.
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PMID:PTH-related protein modulates PC-3 prostate cancer cell adhesion and integrin subunit profile. 1258 88

Overproduction of parathyroid hormone-related protein (PTHRP) occurs in a high proportion of primary breast cancers (PBC) and is strongly implicated in their metastatic spread to bone. Although the PTHRP-receptor (PTHRP-R) is often coexpressed with PTHRP in PBC, its role in regulating breast cancer cell proliferation and metastases to bone remains unclear. The aims of this study were to determine the expression of the PTHRP-R in breast cancer bone metastases (BM) and to investigate the effects of PTHRP-R overexpression on breast cancer cell proliferation. PTHRP-R expression occurred in 85% (11 out of 13) of BM compared with 58% (39 out of 67) of PBC. Median expression was higher (P<0.05) in BM compared with PBC. PTHRP increased cAMP accumulation and DNA synthesis in MCF-7 cells stably overexpressing the PTHRP-R (MCF-7(WTR)) but not in MCF-7(VEC) control cells. The increase in DNA synthesis was mimicked by the cAMP pathway activator forskolin. The receptor antagonist PTHRP(7-34) reduced DNA synthesis in MCF-7(WTR) cells, but not MCF-7(VEC) cells, indicating that receptor overexpression promotes autocrine PTHRP activity. MCF-7(WTR) cells showed increased mitogenic responsiveness to fetal calf serum and reduced doubling times. PTHRP induced weak activation of ERK1 and ERK2 and potentiated their activation by serum growth factors. Collectively these results show that the PTHRP-R is frequently expressed in breast cancer BM and indicate that receptor overexpression drives proliferation via autocrine signals that are mediated via cAMP and ERK pathways.
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PMID:The parathyroid hormone-related protein receptor is expressed in breast cancer bone metastases and promotes autocrine proliferation in breast carcinoma cells. 1502 15

Parathyroid hormone-related protein (PTH-rP), a secreted protein produced by prostate carcinoma and other epithelial cancers, is considered a key agent for the development of bone metastases. We investigated the construct GC90/IRIV, composed of immunopotentiating reconstituted influenza virosomes (IRIV) containing PTH-rP gene plasmids (GC90), as a potential tool for human anticancer immunotherapy into humanised mice transgenic for HLA-A(*)02.01, the human-beta2 microglobulin, and the human CD8alpha molecule. Intranasal administration of GC90/IRIV resulted in the induction of a PTH-rP-specific multiepitope cytotoxic T-cell (CTL) response. Cytotoxic T cells derived from vaccinated mice were capable of lysing in vitro syngenic murine PTH-rP transfectants and human HLA-A((*))02.01(+)/PTH-rP(+) prostate carcinoma LNCaP cells as well. The immune response capacity and the absence of any sign of toxicity and/or autoimmunity in vivo suggest the GC90/IRIV vaccine as a valid tool for active specific immunotherapy of human cancers and metastases overexpressing PTH-rP.
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PMID:In vivo study of the GC90/IRIV vaccine for immune response and autoimmunity into a novel humanised transgenic mouse. 1283 24

A cloned cell line (IP-B12) derived from a transplantable rat pulmonary carcinoma (IP), of which neoplastic cells produce parathyroid hormone-related protein (PTHrP), was established. Tumors induced in syngeneic F344 rats by intraperitoneal injection of IP-B12 cells had features of pulmonary adenocarcinomas, consisting of neoplastic cells immunopositive to PTHrP. The IP-B12 tumor-bearing rats developed severe emaciation and hypercalcemia, with a marked elevation of plasma PTHrP level; there was an increase in osteoclastic areas of the femur and calcium depositions in systemic organs, indicating progression to humoral hypercalcemia of malignancy (HHM) in the tumor-bearing rats. In addition, the injection of IP-B12 cells into the left cardiac ventricle of syngeneic rats resulted in osteolytic skeletal metastases in the long bones and vertebrae. In the metastatic lesions, histologically, neoplastic cells showed an immunopositive reaction to PTHrP, and a prominent osteoclastic activity was seen; bone lesions, including osteolysis, fracture, and nerve compression as well as replacement of bone marrow cells by proliferated tumor cells were similar to those reported in human cancer patients with bone metastases. IP-B12 is a new animal model for HHM and osteolytic bone metastases, and will become a useful tool for studies on the pathogenesis and therapeutic strategies for such conditions.
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PMID:Establishment of a transplantable rat pulmonary carcinoma-derived cell line (IP-B12) as a new model of humoral hypercalcemia of malignancy and bone metastasis. 1285 1

The proto-oncogene, c-src, has been implicated in the tumorigenesis in breast cancer. However, the relationship of c-src with distant metastasis is unclear. Moreover, the role of c-src in organ-preferential metastasis of breast cancer is unknown. Because breast cancer has a strong predilection for metastasizing to bone, we examined the role of c-src in bone metastases using an animal model in which inoculation of the MDA-231 human breast cancer cells into the left cardiac ventricle preferentially developed osteolytic bone metastases in female nude mice. A clone of the MDA-231 with the increased capacity of bone metastasis exhibited elevated c-src tyrosine kinase (TK) activity compared with parental cells. MDAsrc527 cells caused significantly increased size of the osteolytic bone metastases with increased number of osteoclasts and mitotic cancer cells compared with MDA-231EV or MDAsrcWT. In contrast, MDAsrc295 cells caused impaired metastases to bone. Of note, mice inoculated with MDAsrc295 cells via tail vein developed reduced lung metastases and prolonged survival compared with mice with MDA-231EV cells, suggesting that c-src TK is unlikely to play a specific role in bone metastases. The growth in vitro and in vivo and production of parathyroid hormone-related protein, a key cytokine in the pathogenesis of osteolytic bone metastases in breast cancer, were promoted in MDAsrc527 and diminished in MDAsrc295. These results suggest that c-src TK is associated with the capacity of breast cancer to metastasize to bone through regulating cell growth and parathyroid hormone-related protein production. Our results together with the fact that c-src is an essential molecule for bone resorption by osteoclasts, which are central players in osteolytic bone metastases, support the notion that c-src TK is a potential target molecule for designing novel therapeutic interventions, especially for bone metastases in breast cancer.
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PMID:C-SRC tyrosine kinase activity is associated with tumor colonization in bone and lung in an animal model of human breast cancer metastasis. 1294 30

Breast cancer shows a predilection for metastasis to bone. Interestingly, approximately 80% of patients with breast cancer also have bone metastases develop at some point during the course of their disease. Osteolytic breast cancer induces bonedestruction via the stimulation of osteoclasts. Breast cancer cells produce many known stimulators of bone resorption with significant research effort focused on the role of parathyroid hormone-related protein (PTHrP). However, a recent prospective clinical trial has questioned the primary role of PTHrP in this process. The overexpression of interleukin-8 (IL-8) in metastatic breast cancer cells prompted additional investigation of the role of IL-8 in osteolysis. Recombinant IL-8 induces the expression of RANKL mRNA and protein in osteoblastic cells and stimulates formation of bone resorbing osteoclasts, even in the absence of RANKL. The ability of IL-8 to directly stimulate osteoclastogenesis via RANKL dependent and independent mechanisms suggests it may play an important role in the process of osteoclast formation and function. Therefore, we propose that cytokines such as IL-8 are involved in the early stages of breast cancer metastasis and initiate the process of osteoclastic bone resorption. In this modified model of breast cancer metastasis to bone, PTHrP expression is induced later to stimulate the vicious cycle of bone destruction.
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PMID:Breast cancer metastasis to bone: it is not all about PTHrP. 1460 May 91

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