Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0153690 (
bone metastases
)
6,382
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Bone metastasis is a common event and a major cause of morbidity in cancer patients. The hematopoietic marrow of the bones, rather than the bone tissue per se, is the target organ in bone metastasis. In the bone marrow,
IL-1
induces the release of hematopoietic growth factors that may affect tumor-cell growth. We treated groups of mice with rhuIL-1 alpha to examine its role in the establishment of experimental bone/bone-marrow metastasis. We found that injection of 2 micrograms of rhuIL-1 alpha 24 hr prior to, simultaneously with or 24 hr after the injection of 10(4) B16 melanoma cells into the left cardiac ventricle of mice resulted in a 2-fold increase in the average number of colonized bones per mouse. GM-CSF is produced by bone-marrow stromal cells in response to
IL-1
, and its receptor has been found on tumor cells, including melanoma cells. However, the administration of rmuGM-CSF to mice by either multiple injections or continuous infusion did not affect the number of colonized bones. Many of the biologic effects of
IL-1
are mediated by prostaglandins. Treatment of mice with 100 micrograms of indomethacin, a potent inhibitor of prostaglandin synthesis, prior to the injection of rhuIL-1 alpha, prevented the increase in number of
bone metastases
. To determine whether constitutive productions of
IL-1
and/or prostaglandins are involved in the pathogenesis of bone/bone marrow metastasis, we treated mice with antimouse IL-1 alpha neutralizing antibodies, rhuIRAP (an inhibitor of
IL-1
activity) or indomethacin. We found no difference in the average number of colonized bones per mouse between treated and control mice. We conclude that exogenous administration of
IL-1
enhances experimental bone/bone-marrow metastases, and that this phenomenon is mediated through prostaglandins. However, neither the constitutive production of
IL-1
nor that of prostaglandins appear to play a role in the pathogenesis of bone/bone-marrow metastasis in our murine model system.
...
PMID:Effect of IL-1 on experimental bone/bone-marrow metastases. 142 34
Hypercalcemia is relatively frequent in malignancy with or without osteolytic
bone metastases
. It is thought that neoplastic cells may secrete substances which not only stimulate osteoclastic activity but are also capable of modifying the absorption, excretion, and resorption of calcium and phosphate ions. Since 1987, we have studied 24 breast cancer patients with hypercalcemia (22 with
bone metastases
and two without). The group of 22 patients with
bone metastases
were divided into two subgroups. The first consisted of 10 patients with high serum levels of humoral factors, such as parathyroid hormone-related protein (PTHrP), and/or prostaglandin E2 (PGE2) and/or
interleukin 1
(
IL-1
), and high levels of bone markers, such as alkaline phosphatase, bone Gla protein and urinary hydroxyproline. The second subgroup consisted of 12 patients with high levels of bone markers alone. Bone histologic analysis showed an osteoclastic activation surrounding metastatic tumor tissue in six out of 10 patients of the first subgroup, while an evident osteolysis caused by the tumor cells was noted in seven out of 12 patients of the second subgroup. The two patients without
bone metastases
showed normal biochemistry and bone histologic examination. The authors, having tried to explain the pathogenesis of hypercalcemia, emphasize the importance of humoral factors secreted by tumor cells as a direct or indirect cause of hypercalcemia. The origin of hypercalcemia remains unclear in two patients without
bone metastases
.
...
PMID:Hypercalcemia in breast cancer. 837 11
Lung cancer is commonly associated with multiorgan metastasis, and bone is a frequent metastatic site for lung cancer. Nevertheless, no bone metastasis model of lung cancer with multiorgan dissemination is available, which could provide opportunity to study the molecular pathogenesis. We examined the abilities of eight human lung cancer cell lines injected intravenously into natural killer (NK) cell-depleted SCID mice to generate metastatic nodules in bone and multiple organs, and explored the correlation of the parathyroid hormone-related protein (PTHrP) with the bone metastasis. Although all the small-cell carcinoma cell lines (SBC-5, SBC-3, SBC-3/ADM, H69, H69/VP) formed metastatic nodules in multiple organs (liver, kidney, and lymph nodes), only SBC-5 cells reproducibly developed
bone metastases
. Squamous cell carcinoma (RERF-LC-AI) cells metastasized mainly into the liver and kidneys, whereas adenocarcinoma (PC-14, A549) mainly produced colonies in the lungs. As assessed by X-ray photography, the osteolytic
bone metastases
produced by SBC-5 cells were detected as early as on day 28, and all recipient mice developed bone metastasis by day 35. The expression of PTHrP in eight cell lines was directly correlated with the formation of bone metastasis. No correlation was observed between the formation of bone metastasis and the expression of other metastasis-related cytokines (
IL-1
, IL-6, IL-8, IL-10, IL-11, TNF-alpha, VEGF, M-CSF). Consistent with the formation of bone metastasis by SBC-5 cells, the levels of PTHrP and calcium in the mouse serum were increased in a time-dependent manner, suggesting that PTHrP produced by human lung cancer may play a crucial role in the formation of bone metastasis and hypercalcemia. These findings indicate that a bone metastasis model of SBC-5 cells may be useful for clarifying the molecular aspects of the metastatic processes in different organ microenvironments and the development of therapeutic modalities for lung cancer patients with
bone metastases
.
...
PMID:Bone metastasis model with multiorgan dissemination of human small-cell lung cancer (SBC-5) cells in natural killer cell-depleted SCID mice. 1141 46
Prostate cancer metastasis to bone may be mediated by preferential proliferation of these cells in the bone's microenvironment. We hypothesize that this preferential proliferation is mediated by bone-associated growth factors (GFs) and cytokines. To test our hypothesis, human prostate cancer cells, derived from both soft tissue (LNCaP, DuCaP, DU145) and
bone metastases
(PC-3, VCaP, MDA-2a, MDA-2b), were treated with bone-associated GFs and cytokines (PDGF, IGF-1, TGF-beta, EGF, bFGF, TNF-alpha,
IL-1
, and IL-6) for 48 h, and their growth responses were compared. The responses of soft tissue-derived prostate cancer cell lines to bone GFs and cytokines were variable. LNCaP cell growth was stimulated by IGF-1 but was inhibited by TNF-alpha. DU145 cell growth was stimulated with EGF. Prostate cancer cell lines derived from
bone metastases
also responded variably to bone GFs and cytokines.
IL-1
stimulated the growth of MDA-2a and 2b cell lines in a dose-dependent manner. PDGF and bFGF both demonstrated variable effects on bone-derived prostate cancer cell lines. TNF-alpha inhibited proliferation of the VCaP cells. These findings demonstrate that human prostate cancer cell lines derived from
bone metastases
may not respond preferentially to bone-associated GFs and cytokines.
...
PMID:The effect of bone-associated growth factors and cytokines on the growth of prostate cancer cells derived from soft tissue versus bone metastases in vitro. 1263 88
Bisphosphonates are endogenous pyrophosphate analogs in which a carbon atom replaces the central atom of oxygen. They are indicated in non-neoplastic diseases including osteoporosis, corticosteroid-induced bone loss, Paget disease, and in cancer-related diseases such as neoplastic hypercalcemia, multiple myeloma and
bone metastases
secondary to breast and prostate cancer. There is now extensive in vitro evidence suggesting a direct antitumor effect of bisphosphonates at different levels of action. Some new in vitro and in vivo studies support the cytostatic effects of bisphosphonates on tumor cells, and the effects on the regulation of cell growth, apoptosis, angiogenesis, cell adhesion, and invasion, with particular attention to biological properties. Well designed clinical trials are necessary to investigate whether the antitumor potential of bisphosphonates may be clinically relevant. On the basis of their effects on macrophages, we may divide bisphosphonates into two distinct categories: aminobisphosphonates, which sensitize macrophages to an inflammatory stimulus inducing an acute-phase response, and non-aminobisphosphonates that can be metabolized into macrophages and that may inhibit the inflammatory response of macrophages. There is evidence of aminobisphosphonate-induced pro-inflammatory response, in particular, related to modifications of the cytokine network. Several in vivo studies have demonstrated an acute-phase reaction after the first administration of aminobisphosphonates, with a significant increase in the main pro-inflammatory cytokines. However, a peculiar aspect concerning the action of non-aminobisphosphonates seems to be an anti-inflammatory activity caused by the inhibition of the release of inflammatory mediators from activated macrophages, such as interleukin (IL)-6, tumor necrosis factor-alpha and
IL-1
. The inhibition of inflammatory responses is demonstrated in both in vivo and in vitro models. This activity suggests the use of non-aminobisphosphonates in several inflammatory diseases characterized by macrophage-mediated production of acute-phase cytokines, as prevention of erosions in rheumatoid arthritis, and of loosening of joint prostheses, as well as possibly in osteoarthritis, ankylosing spondylitis, myelofibrosis, and hypertrophic pulmonary osteoarthropathy.
...
PMID:Bisphosphonate effects in cancer and inflammatory diseases: in vitro and in vivo modulation of cytokine activities. 1524 2
