UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ectopic acromegaly is a rare syndrome (less than 1% of acromegalic patients) caused by ectopic growth hormone-releasing hormone (GHRH) or growth hormone (GH)-producing tumors. Its recognition is clinically important because acromegaly may be a symptom of an aggressive tumor, and different therapeutic approaches are required. Most cases are caused by either extra- or intracranial GHRH-producing tumors, whereas in rare instances the underlying disease is an ectopic GH-secreting tumor. The routine evaluation of circulating GHRH in all acromegalic patients may allow its early recognition, because plasma levels greater than 0.3 ng/mL are virtually diagnostic of a GHRH-producing tumor (frequently a bronchial or pancreatic carcinoid), whereas suppressed levels may suggest an ectopic GH-producing tumor. In addition to classic imaging techniques, whole body scintiscan with labeled octreotide may help in the localization of ectopic tumors. Surgical removal of the ectopic tumor is the therapy of choice, but it is not always feasible because patients often present with widespread metastases. Patients with GHRH-induced acromegaly benefit from the administration of the long-acting somatostatin analog, octreotide, which reduces GH, IGF-I, and GHRH, and may shrink the ectopic tumor, its metastases, and the secondary pituitary enlargement.
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PMID:Ectopic acromegaly. 152 13

Somatostatin is a regulatory hormone or tissue factor which plays an inhibitory role in the normal regulation of several organ systems, including the central nervous system, hypothalamus and pituitary gland, the gastrointestinal tract and the exocrine and endocrine pancreas. Sandostatin is an analogue of somatostatin which has characteristics which makes it a better compound for clinical use than native somatostatin: it inhibits GH preferentially over insulin. It has a long half-life in the circulation, causing a prolonged inhibitory effect in somatostatin-responsive target organs. It is active after subcutaneous administration and rebound hypersecretion does not occur. Sandostatin is very well tolerated by most patients. Somatostatin receptors remain present on a variety of tumours which arise in tissues that contain these receptors normally. High numbers of somatostatin receptors have been found on GH-secreting pituitary tumours and on most metastatic endocrine pancreatic tumours and carcinoids. Sandostatin treatment ameliorates clinical symptoms in most acromegalic patients while GH hypersecretion and elevated concentrations of circulating IGF-I are well controlled. In most patients hormonal hypersecretion from endocrine pancreatic tumours and carcinoids is also suppressed during Sandostatin therapy. This results in an instant improvement in the quality of life. There is preliminary evidence of control of tumour growth. The presence of high numbers of somatostatin receptors on tumours enables in vivo receptor-imaging, with 123iodine coupled to a somatostatin analogue. This newly developed technique provides for the first time the possibility of localization of the primary tumours and their metastases and a prediction of which patients may respond to treatment with Sandostatin. Theoretically this somatostatin-receptor imaging technique represents a new approach which may be extended to other receptor-containing tumours. Therefore it may provide a new, powerful alternative to tumour localization performed with monoclonal antibody technology. Another potential development is the use of beta-emitting isotopes coupled to somatostatin analogues for therapeutic irradiation. Somatostatin analogues exert potent inhibitory effects on the growth of a variety of experimental tumour models in animals. Several mechanisms of action have been proposed including the direct antiproliferative effects of somatostatin and its analogues in a variety of tumour cell cultures. Most well-differentiated human brain tumours like meningiomas and low-grade astrocytomas contain somatostatin receptors, while undifferentiated brain tumours mainly contain EGF receptors. Fifteen percent of human breast carcinomas contain somatostatin receptors; those which do have a better prognosis. It can be concluded that somatostatin is an endogenous, naturally occurring inhibitory growth factor.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The clinical use of somatostatin analogues in the treatment of cancer. 197 66

Tumor metastasis requires highly motile cells that can respond to appropriate stimuli. A2058 human melanoma cells were shown previously to secrete a highly potent autocrine motility factor (AMF) that stimulates chemokinetic movement. We have shown that the insulin polypeptides (IPs; insulin-like growth factors I and II [IGF-I, -II] and insulin) stimulated A2058 cell chemotaxis and chemokinesis. We now report that the IPs and AMF stimulate locomotion in other human malignant cell lines. Insulin (100 nM) induced motility of up to 50% of the magnitude of the AMF response in human carcinoma lines MDA-231 (breast), T24 (bladder), and OVCAR3 (ovarian). The tumorigenic and metastatic 5R Haras-transfected rat embryo fibroblast cell line responded to insulin with both chemotaxis and chemokinesis and was 100% of that seen for AMF. The ED50 for IGF-I in the carcinoma cell lines was in the order of I nM, but the magnitude of the responses at this concentration was 40% of the AMF-stimulated response, with the exception of the A2058 cells, which were maximally stimulated at I nM. IGF-II induced maximal motility of 75 to 130% of the AMF-stimulated response in the carcinoma lines with ED50 of less than or equal to 10 nM. IGF-II-stimulated motility in the carcinoma lines was predominantly chemotactic by modified checkerboard analysis. Cell pretreatment with pertussis toxin inhibited 90-100% of AMF-induced motility, whereas migration to the IPs was not pertussis toxinsusceptible. In growth studies, IGF-I induced mitogenesis up to 140% of basal media control growth. In general, maximal growth stimulation was seen at 100 nM IGF-I, and optimal migration was seen at 10 nM IGF-I. The IGFs are secreted by normal stroma in a number of organs that are common sites for primary and metastatic disease. Therefore, we suggest that IPs may be important homing and mitogenic signals for tumor cells in the process of invasion and metastasis and that the differential motility stimulation and respective mechanisms of action by these physiologically important agents may underlie the diversity of the metastatic process.
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PMID:Heterogeneity of the motility responses in malignant tumor cells: a biological basis for the diversity and homing of metastatic cells. 211 98

The transplantation of PA-III rat prostate cancer cells onto rat skeleton produces osteoblastic metastases. Therefore w e studied the paracrine interactions between the PA-III cells and osteoblast-derived osteosarcoma cells (UMR 106 cells). A serine protease secreted by PA-III cells hydrolyzed IGF-binding protein-1 and IGF-binding protein-2 (IGFBP-1 and IGFBP-2) detected in the cell culture media (CM) of OMR 106 cells by western ligand blotting. The serine protease of PA-III cell CM was purified using a benzamidine affinity column. This protease was a protein of 45-50 kDa on polyacrylamide gel electrophoresis under non-reducing conditions but generated two protein bands under reducing conditions; a) one of 33-35 kDa possessing protease activity and b) another of 20-25 kDa which was proteinolytically inactive. Sequence analysis identified the amino acid sequence of the a-chain (20-25 kDa band) and of the b-chain (33-35 kDa band) of rat urokinase-type plasminogen activator molecule. Urokinase purified from PA-III cell CM hydrolyzed IGFBPs of UMR 106 cells and stimulated the proliferation of UMR 106 cells in serum-free cultures. Its protease activity was abolished by benzamidine and aprotinin. Its mitogenic activity for osteoblasts was inhibited by anti-IGF-I monoclonal antibody. Northern blot analysis documented the expression of the urokinase-type plasminogen activator gene in the mRNA extracted from PA-III cells. Urokinase expression was inhibited by dexamethasone. Therefore, we conclude that urokinase-type plasminogen activator stimulates osteoblasts via an IGF-I dependent mechanism. Hydrolysis of the IGFBOPs at the sites of PA-III cell-induced bone tumors account for an increased bioavailability of IGFs. This may facilitate the development and the growth of PA-III cell-induced bone tumor and can also mediate the subsequent local osteoblastic reaction.
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PMID:Urokinase-type plasminogen activator: a paracrine factor regulating the bioavailability of IGFs in PA-III cell-induced osteoblastic metastases. 768 89

Tumor cells are characterized by abnormalities in growth and metabolism, including the autocrine secretion of certain growth factors. On the basis of our previous demonstration of the production of insulin-like growth factors (IGFs) and their binding proteins by central nervous system (CNS) tumors, we asked whether the levels of IGFs in the CSF may be altered in patients with pituitary and other CNS tumors and may reflect autocrine secretion. We used specific radioimmuoassays for IGF-I and -II and measured these growth factors in the cerebrospinal fluid (CSF) from 26 patients with tumors located adjacent to the ventricular system. The tumors included were eight pituitary tumors (five nonsecreting, three growth hormone secreting), five gliomas, two meningiomas, five medulloblastomas, three metastases, and three other tumors. CSF from patients without tumors served as controls. For radioimmunoassay, CSF was treated with acetic acid overnight and IGF-binding proteins were separated from IGFs by C-2 solid phase cartridge extraction. The pituitary tumors were characterized by significantly elevated levels of IGFs in the CSF. In nonseceting pituitary tumors, the levels of IGF-I in the CSF were similar to normal levels, whereas IGF-II levels were significantly elevated. In acromegalic patients, levels of both IGF-I and -II in the CSF were significantly elevated compared with normal levels and compared with levels in patients with nonsecreting tumors. In contrast, the levels of IGFs in the CSF from most of the primary and metastatic CNS CNS tumors did not significantly differ from normal values. In summary, although IGFs may contribute to the regulation of cell growth in primary CNS tumors, CSF levels are not elevated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Radioimmunoassay of insulin-like growth factors I and II in the cerebrospinal fluid of patients with pituitary and other central nervous system tumors. 775 56

We evaluated levels of insulin-like growth factor-I and interleukin-1 alpha and beta in patients with pancreatic cancer; the role of these substances in tumor spread and in hyperglycemia was also investigated. Thirty pancreatic cancer patients (21 with hyperglycemia) were compared with others with diseases causing hyperglycemia [liver cirrhosis (14 cases, 12 with hyperglycemia), chronic pancreatitis (20 cases, 12 with hyperglycemia), type I diabetes mellitus (13 cases, all hyperglycemic)]. Insulin-like growth factor-I was significantly reduced in patients with liver cirrhosis, probably due to a reduced hepatic capacity for synthesis. It was increased in 6 of 30 pancreatic cancer patients; in these subjects it was correlated with alanine aminotransferase and C-peptide, but not with tumor diameter or the presence of metastases. Interleukin-1 alpha and beta were both elevated in pancreatic cancer patients. The former was high, while the latter was low when liver metastases were present. Neither was related to glucose or C-peptide levels. In summary, insulin-like growth factor-I levels are increased in some pancreatic cancer patients but this does not seem to favor tumor spread; however IGF-I could be involved influencing glucose homeostasis. Interleukin-1 alpha increased, while interleukin-1 beta decreased in pancreatic cancer patients with metastases, suggesting a different involvement of these two substances in pancreatic cancer spread.
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PMID:Insulin-like growth factor-I, interleukin-1 alpha and beta in pancreatic cancer: role in tumor invasiveness and associated diabetes. 778 9

Tumor metastasis is the primary cause of death for cancer patients. The metastatic cascade requires successful tumor cell invasion into and through vascular and parenchymal barriers. We have shown that autocrine motility factor (AMF, autotaxin) and the insulin-like growth factors (IGFs) induce tumor-cell migration. Since granulocyte-macrophage colony-stimulating factor (GM-CSF) has been shown to prime neutrophils for chemotaxis, we have therefore studied the influence of GM-CSF upon tumor cells and report that GM-CSF stimulates migration of these cells in a dose-dependent fashion. The ED50 for A2058 human melanoma cell line chemotaxis to GM-CSF is approx. 60 pM. The motile response to GM-CSF was additive to that of IGF-I and AMF, both of which are potent attractants for tumor cells. Pre-treatment of cells for 2 hr with non-toxic concentrations of pertussis toxin (PT) or amiloride resulted in a 50% inhibition of chemotaxis to GM-CSF. Therefore, GM-CSF, through PT- and amiloride-sensitive signal pathways, is a potent attractant for melanoma cells, the response to which is additive to that of other attractants. The presence of the GM-CSF receptor in A2058 melanoma cells was indicated by Northern-blot analysis which identified message transcripts of 2.1 and 3.0 kb. These data emphasize the versatility of the melanoma cell migration response to an array of cytokines, including GM-CSF.
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PMID:Granulocyte-macrophage colony-stimulating factor induces human melanoma-cell migration. 847 54

The invasion-suppressor molecule E-cadherin (E-CAD) can be regulated at multiple levels: synthesis, processing and stability of mRNA; synthesis, processing and stability of protein; localization and posttranslational modification of protein; binding to catenins (E-CAD-associated proteins); and size and charge of cell surface glycosaminoglycans. Loss of E-CAD antigen and of E-CAD function in vivo has been observed with cell lines that homogeneously expressed functional E-CAD in vitro. These observations led to the idea that factors in the host may downmodulate E-CAD on the cancer cells, thereby promoting cell invasion. Nude mouse cancers that were homogeneously E-CAD-positive and noninvasive in vitro, formed by epithelioid MDCK or NMuMG cells, stained heterogeneously for E-CAD; such cancers were invasive and metastatic. The in vivo downmodulation appeared to be transient. Ex vivo cultures from primary cancers, as well as from metastases, produced homogeneously E-CAD-positive and noninvasive cells. Downmodulation did not occur when cells were micro-encapsulated and then implanted in the mouse, suggesting a role for immediate cancer cell-host cell contact. Similar in vitro/in vivo/ex vivo experiments with mouse MO4 fibrosarcoma cells, transfected with E-CAD cDNA under the control of a b-actin promotor, showed downregulation at the transcriptional or mRNA stability level. This downregulation was rapidly reversible upon ex vivo culture of the tumor cells. TGF-bl and IGF-I were found, respectively, to downregulate and upregulate the expression or the function of E-CAD. We speculate that IGF-1 restores the function of E-CAD through interaction of the IGF-I tyrosine kinase receptor with the catenin-actin cytoskeletal complex. In human cancers, immunohistochemistry has revealed changes in E-cadherin that agree with the experimental data on transient downmodulation of the invasion-suppressor function of E-cadherin by host factors.
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PMID:Downregulation in vivo of the invasion-suppressor molecule E-cadherin in experimental and clinical cancer. 898 64

The extensive mortality and morbidity associated with prostate cancer is caused by the high prevalence of metastatic disease at the time of diagnosis. The area most frequently involved in metastatic prostate cancer is the skeleton. Unlike other cancers, which metastasize to bone and destroy the bone matrix, prostate cancer is unique in that it is osteogenic, resulting in the formation of dense, sclerotic bone with high levels of osteoblastic activity. We proposed that factors produced by bone cells may be responsible for the development of prostate carcinoma metastasis. We studied the effects of these growth factors on prostate cell proliferation by [3H]thymidine incorporation and chemotaxis by the double-filter chamber method. Three prostate carcinoma cell lines were studied, LNCaP (androgen responsive) and PC-3 and DU-145 (androgen unresponsive). The bone-associated growth factors tested were: insulin-like growth factors I and II (IGF-I, IGF-II), transforming growth factor beta, interleukin (IL)-1 beta, IL-6, and tumor necrosis factor alpha (TNF-alpha), IGF-I and IGF-II significantly increased proliferation in all three cell lines, whereas IL-6, TNF-alpha, and IL-1 beta significantly decreased proliferation. Transforming growth factor beta induced a biphasic response in proliferation in DU-145 and PC-3 cells and produced no response on LNCaP cells. Increased cell chemotaxis occurred in the presence of IGF-I and IGF-II, and decreased cell chemotaxis occurred with the addition of TNF-alpha and IL-1 beta. These data indicate that growth factors produced by bone cells alter prostate carcinoma cell proliferation and chemotaxis and suggest that modulations of the production of these factors may be a potential therapeutic intervention in deterring the metastasis of prostate carcinoma to bone.
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PMID:The effects of growth factors associated with osteoblasts on prostate carcinoma proliferation and chemotaxis: implications for the development of metastatic disease. 904 21

A 52-year-old-woman with non-insulin-dependent diabetes mellitus developed carcinoma of the pancreas and had a Whipple's resection performed. She required pancreatic exocrine supplements and insulin post-operatively. Five years later metastatic disease became apparent, and was accompanied by episodic spontaneous hypoglycaemia necessitating the cessation of insulin therapy. Hormonal analysis was performed, off insulin, at a time of hypoglycaemia (glucose 0.9 mmol l-1) and showed negligible insulin concentrations (< 2 mU l-1) but raised IGF-II together with low IGF-I concentrations (1.85 and 0.1 U ml-1, respectively). The association between diabetes and pancreatic carcinoma, and the pathogenesis of non-islet cell tumour induced hypoglycaemia (NICTH) are discussed.
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PMID:Spontaneous hypoglycaemia in a noninsulin-dependent diabetes mellitus patient with disseminated pancreatic carcinoma. 911 88

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