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

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

The level of parathyroid hormone-related protein (PTHrP) expressed in breast cancer tissue is closely related to the incidence of bone metastasis. We examined the PTHrP mRNA expression in breast cancer tissues by coamplification polymerase chain reaction (PCR) in mole ratio to internal standard beta-actin mRNA. The PTHrP expression was higher in premenopausal patients than in postmenopausal patients (P < 0.05). More pronounced difference by menopause found in estrogen receptor (ER) positive groups (P < 0.001) indicated that the PTHrP expression in breast cancer tissue is hormonally regulated and might be altered by endocrine agents. To clarify the changes of PTHrP expression by endocrine therapy of breast cancer, we measured PTHrP expression in the breast cancer tissue incubated for 24 h with 1 x 10(-8) M of estradiol (E2), 1 x 10(-6) M of tamoxifen (TAM) and 1 x 10(-5) M of medroxyprogesterone acetate (MPA). The PTHrP expression was decreased significantly by MPA (P < 0.005), while E2 and TAM did not change the PTHrP expression. Progesterone receptor (PgR) mRNA expression was also examined to confirm that the breast cancer tissue responds to E2 and TAM. The results were well compatible with the better therapeutic effect of MPA reported for the treatment of breast cancer with bone metastases. As a potential candidate for the receptor that mediates the suppressive effect of MPA, androgen receptor (AR) is suggested most probable. Present results also demonstrated that the clinical response of individual tumors is closely associated with the early in vitro changes of gene expression detected in the cancer specimen.
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PMID:Suppression of parathyroid hormone-related protein messenger RNA expression by medroxyprogesterone acetate in breast cancer tissues. 1051 39

A 69-year-old man had a hepatic tumour occupying the left and half of the right lobe, with portal vein thrombus. There were hypercalcaemia and hypophosphataemia with increased nephrogenous cyclic adenosine monophosphate; bone metastases were excluded. Serum parathyroid hormone-related protein (PTHrP) was elevated, but no increase in intact parathyroid hormone (PTH) or vitamin D3 metabolites was found. At autopsy the histological features were typical of sclerosing hepatic carcinoma. By immunohistochemistry PTHrP was detected in cancer cell nests but not in the fibrous stroma. PTHrP transcripts were demonstrated by in situ hybridization using a polymerase chain reaction (PCR)-derived single-stranded DNA probe. Tumour cells expressed AE1 and CA19-9 (markers for cholangioepithelium) and CEA (for bile canaliculi). Electron microscopy revealed microvilli on the apical surface, and secretory granules 100 nm in diameter were observed. These findings indicate that this case is one of cholangiocellular sclerosing hepatic carcinoma. The interaction between cancer and stromal cells may be the cause of PTHrP overexpression.
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PMID:In situ demonstration of parathyroid hormone-related protein mRNA in sclerosing hepatic carcinoma. 1059 13

MECHANISMS OF BONE LOSS: In patients with bone metastases, bone loss is the consequence of a dissociated process combining excessive bone resorption and inhibited bone formation. This destructive process occurs in response to soluble factors secreted by metastatic cells (PTH-rP, cytokines) which activate osteoclasts. These cells also secrete proteases (cathepsin K, metalloprotease MMP-9) which degrade the bone's collagen network. Excessive bone resorption is also favored by direct interaction between the metastatic cells and stromal cells in the bone marrow in response to the activation of membrane receptors (integrins a4 beta 1 and a4 beta 7). Finally, metastatic cells secrete non-identified soluble factors capable of inhibiting osteoblast proliferation in vitro. EFFECT OF BONE LOSS ON THE METASTASIS: Bone is a major reservoir of growth factors (mainly TGF beta and IGF-1). Positive feedback mechanism operates at the site of osteolysis where TGF beta released by bone tissue induces a paracrine stimulation of PTH-rP production by metastatic cells. IGF-1 released by the bone favors grow of metastatic cells present in the marrow. In addition, IGF-1 as well as collagen proteolytic fragments may stimulate recruitment of new metastatic cells at the site of the bone metastasis. This creates a vicious circle of mutual stimulation between bone destruction and tumor proliferation.
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PMID:[Bone hyperresorption in bone metastases]. 1074 42

Studies of breast cancer suggest that parathyroid hormone-related protein (PTHrP) is important in the development of bone metastases. To determine whether PTHrP expression is important in prostate cancer metastasis, immunohistochemistry and in situ hybridization were used to assess the expression of PTHrP and its receptor in primary prostate cancer and bone metastases from both prostate and non-prostate cancers. PTHrP was expressed in more prostate primary tumours than bone metastases (p=0.003, Fisher's exact test). All bone metastases from non-prostate cancers expressed PTHrP. In contrast, PTHrP receptor was expressed in all bone metastases, but in only 19% of primary prostate tumours (p=0.001). The receptor to PTHrP was found to be highly expressed in bone metastases from prostate and other primaries, whereas PTHrP protein was found to have lower expression in the bone metastases than in the primary tumours. In conclusion, the expression of the receptor to PTHrP is increased in bone metastases from prostate cancer and may play an important role in their formation.
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PMID:Expression of parathyroid hormone-related protein and its receptor in bone metastases from prostate cancer. 1086 77

Bisphosphonates are now the standard treatment for tumor-induced hypercalcemia (TIH), and pamidronate can normalize serum Ca in at least 90% of the patients treated for the first time. However, there are few data on the treatment of TIH when it recurs, and published results are contradictory. We studied 29 patients with solid tumors, 14 of whom had breast cancer and all of whom were naive to bisphosphonate therapy. They were retreated with pamidronate (median dose 1 mg/kg for both courses) for recurrence of TIH after a median interval of 78 (range 7-297) days. Fourteen of them, 7 of whom had breast cancer, were treated a third time 28 (range 5-79) days after the second course (median dose of pamidronate 1.5 mg/kg). Baseline Ca levels were not significantly different before each course, but the nadirs after each treatment progressively increased, 9.3 +/- 0.2 mg/dl, 10.5 +/- 0.3 mg/dl, and 12.3 +/- 0.4 mg/dl after the 1st, 2nd and 3rd administrations, respectively (P<0.05). The percentage of treatment failures also progressively increased: 10%, 31% and 85% (P< 0.05). This decreased hypocalcemic effect was essentially observed in patients without bone metastases or with tumors other than breast cancer. Thus, in patients without bone metastases, Ca levels did not decrease at all after the 3rd course, whereas the responses were not significantly different between the three courses in patients with bone metastases. Baseline urinary hydroxyproline, a marker of bone resorption, increased progressively from course to course, especially in patients with bone metastases or breast cancer, but this was not the case for parameters of bone formation. There was also a progressive increase in PTHrP levels accompanied by an increase in the number of patients with enhanced kidney reabsorption of Ca and a decrease in the threshold for Pi excretion, which was significant in patients without bone metastases. In conclusion, pamidronate was progressively less efficient when hypercalcemia recurred. This was observed mainly in patients with hypercalcemia of humoral origin. Tumor progression is accompanied by an enhanced release of osteolytic factors, notably PTHrP, that increase bone resorption and enhance kidney calcium reabsorption, especially in patients without bone metastases. When both phenomena occur, the response to bisphosphonates becomes minimal and the usefulness of therapy questionable.
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PMID:Decreased efficacy of bisphosphonates for recurrences of tumor-induced hypercalcemia. 1097 89

We present a diagnostically challenging case of hypercalcemia in a 50-year-old Japanese woman with chronic renal failure due to chronic interstitial nephritis. She had a history of a radical mastectomy for breast cancer at the age of 30. Despite her chronic renal failure, serum levels of calcium and alkaline phosphatase were abnormally high, and levels of intact parathyroid hormone and of parathyroid hormone-related protein were undetectable on repeated assays. Bone scintigram revealed multiple hot lesions in the ribs, which were suggestive of bone metastases of breast cancer. After treatment with tamoxifen citrate was initiated, her serum calcium levels returned to the normal range and hot lesions were no longer evident on bone scintigraphy in 14 months. Thus, our patient's hypercalcemia was considered to be related to bone metastases of breast cancer. Physicians should be aware of existence of malignancy in the patient with chronic renal failure and hypercalcemia.
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PMID:Hypercalcemia induced by metastatic bone cancer in a patient with chronic renal failure. 1107 12

The expression of parathyroid hormone-related protein (PTHrP) at primary and metastatic sites was studied retrospectively in specimens obtained at opreation and autopsy from 11 patients. The anti-human PTHrP monoclonal antibody, 4B3, was used in the immunohistochemical studies. The 11 cases showed metastases to the liver and the lung, and 9 showed bone metastases at autopsy. At primary sites, PTHrP was positive in the 9 cases with bone metastases, while the other 2 cases were negative for PTHrP. Regardless of the intensities of immunohistochemical staining of PTHrP at primary sites, cancer cells at metastatic sites in the liver and the lung were almost all negative for PTHrP. On the other hand, all PTHrP-positive cases at primary sites at operation showed skeletal metastases at autopsy, and the intensity of the immunohistochemical staining of PTHrP was strongly positive at all the sites of skeletal metastasis. These results suggest that while PTHrP is an important factor that causes cancer cells to erode and grow in skeletal bone, the expression of PHTrP is, concurrently, affected by an osseous microenvironment.
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PMID:Parathyroid Hormone-related Protein in Breast Cancer Tissues: Relationship between Primary and Metastatic Sites. 1109 6

In patients with advanced disease, several cancer types frequently metastasize to the skeleton, where they cause bone destruction. Osteolytic metastases are incurable and cause pain, hypercalcemia, fracture, and nerve compression syndromes. It was proposed over a century ago that certain cancers, such as that of the breast, preferentially metastasize to the favorable microenvironment provided by bone. Bone matrix is a rich store of immobilized growth factors that are released during bone resorption. Histological analysis of osteolytic bone metastases indicates that the bone destruction is mediated by the osteoclast rather than directly by the tumor cells. These observations suggest a vicious cycle driving the formation of osteolytic metastases: tumor cells secrete factors stimulating osteoclasts through adjacent bone marrow stromal cells; osteoclastic resorption in turn releases growth factors from the bone matrix; finally, locally released growth factors activate the tumor cells. This vicious cycle model has now been confirmed at the molecular level. In particular, transforming growth factor beta (TGF3beta) is abundant in bone matrix and released as a consequence of osteoclastic bone resorption. Bone-derived TGFbeta plays an integral role in promoting the development and progression of osteolytic bone metastases by inducing tumor production of parathyroid hormone-related protein (PTHrP), a known stimulator of osteoclastic bone resorption. In breast cancer cells TGFbeta appears to stimulate PTHrP secretion by a posttranscriptional mechanism through both Smad and p38 mitogen activated protein (MAP) kinase signaling pathways. Osteolytic metastases can be suppressed in vivo by inhibition of bone resorption, blockade of TGFbeta signaling in tumor cells, and by neutralization of PTHrP. Other factors released from bone matrix may also act on tumor cells in bone, which in turn may produce other factors that stimulate bone resorption, following the vicious cycle paradigm established for TGFbeta and PTHrP. An understanding at the molecular level of the mechanisms of osteolytic metastasis will result in more effective therapies for this devastating complication of cancer.
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PMID:Molecular mechanisms of tumor-bone interactions in osteolytic metastases. 1118 31

Tumor-stroma interactions are of primary importance in determining the pathogenesis of metastasis. Here, we describe the application of sensitive competitive polymerase chain reaction (PCR) techniques for detection and quantitation of human breast cancer cells (MDA-MB-231) in an in vivo mouse model of experimental metastasis. Human-specific oligonucleotide primers in competitive PCR reactions were used to quantify the amount of MDA-MB-231 cells per tissue per organ. Using this species-specific (semi)quantitative PCR approach, gene expression patterns of (human) tumor cells or (mouse) stromal cells in metastatic lesions in the skeleton or soft tissues were investigated and compared. In all metastatic lesions, MDA-MB-231 cells express angiogenic factors (vascular endothelial growth factors [VEGFs]; VEGF-A, -B, and -C) and bone-acting cytokines (parathyroid hormone-related protein [PTHrP] and macrophage colony-stimulating factor [M-CSF]). In these metastases, PECAM-1-positive blood vessels and stromal cells of mouse origin are detected. The latter express angiogenic factors and markers of sprouting vessels (VEGF receptors flt-1/flk - 1/flk-4 and CD31/PECAM-1). Strikingly, steady-state messenger RNA (mRNA) levels of VEGF-A and -B and the major bone resorption stimulators PTHrP and M-CSF by tumor cells were elevated significantly in bone versus soft tissues (p < or = 0.05, p < or = 0.0001, p < or = 0.001, and p < or = 0.05, respectively), indicating tissue-specific expression of these tumor progression factors. In conclusion, MDA-MB-231 breast cancer cells express a variety of factors in vivo that have been implicated in metastatic bone disease and that correlate with poor survival of patients with breast cancer. We hypothesize that the observed up-regulated expression of angiogenic and bone-resorbing factors by the breast cancer cells in the skeleton underlie the clinically observed osteotropism of breast cancer cells and pathogenesis of osteolytic bone metastases. The application of the species-specific competitive PCR-based assay in vivo can provide new information concerning the involvement of gene families in tumor progression and metastatic disease and greatly facilitates the study of tumor-stroma interactions in cancer invasion and metastasis.
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PMID:Monitoring metastatic behavior of human tumor cells in mice with species-specific polymerase chain reaction: elevated expression of angiogenesis and bone resorption stimulators by breast cancer in bone metastases. 1139 85

Background: Parathyroid hormone (PTH) and parathyroid hormone-related protein (PTH-rP) are two potent hypercalcemic hormones that act on the same targets. Autonomous secretion of the former is involved in primary hyperparathyroidism (PHPT), whereas the latter is responsible for humoral hypercalcemia of malignancy (HHM). Methods: From 250 consecutive, hypercalcemic serum samples sent to our laboratory for assessment of intact PTH, we were able to obtain clinical information, as well as an additional plasma sample for PTH-rP measurement, in 134 patients. At the time of sampling, patients could be classified into seven groups: cancer without known bone metastases (CaNoMeta, n=36), cancer with bone metastases (CaMeta, n=9), no evidence of cancer (noEvCa, n=71), sarcoidosis (Sarc, n=3), end-stage renal disease (ESRD, n=12), vitamin D overdose (VIT-D, n=2), and hyperthyroidism (Thyr, n=1). Results: In the CaNoMeta group, 29/36 patients had elevated PTH-rP levels, 9/36 patients had inappropriately elevated PTH levels, and 5/36 had elevated levels of both hormones. In the CaMeta group, three of the nine patients had inappropriately elevated PTH levels, two of them with concomitantly elevated PTH-rP levels. In the NoEvCa group, 63/71 patients had an inappropriate elevation of PTH levels and were diagnosed as having PHPT. Four of the 71 patients had elevated levels of both PTH and PTH-rP; three of them were in poor health and died within a short period of time. All of the ESRD patients had very high PTH and normal PTH-rP levels, except for one woman with high PTH-rP and undetectable PTH levels; she died from what later turned out to be a recurrent bladder carcinoma. In the Sarc, Vit-D, and Thyr groups, both PTH and PTH-rP levels were normal. Conclusions: (1) Elevated PTH-rP levels are a common finding in cancer patients without bone metastases. Intact PTH, however, should always be measured in hypercalcemic patients with malignancy because concurrent primary hyperparathyroidism is not rare. (2) Primary hyperparathyroidism accounts for hypercalcemia in 90% of patients without evidence of cancer whose PTH-rP levels may also be found to be elevated in a few cases, even some with surgically demonstrated parathyroid adenoma.
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PMID:Diagnostic approach to hypercalcemia: relevance of parathyroid hormone and parathyroid hormone-related protein measurements. 1139 97


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