Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have evaluated the pharmacokinetics in patients of a monoclonal antibody (19-9) F(ab')2 fragment coupled with DTPA and labeled with 111In. In addition to imaging and organ uptake determinations, serum and urine samples were analyzed to help determine the in vivo behavior of the label. Using a competitive binding assay, the immunoreactivity of the coupled fragment was found to be indistinguishable from that of the unmodified fragment. The absence of radiocolloids in the injectate was confirmed as was the in vivo stability of the attached DTPA groups. By a variety of techniques, we show that the only significant source of label instability was transcomplexation to circulating transferrin. About 9% per day of label exposed to transferrin (about 1-2% of the injected dose) dissociated with slight bone marrow accumulation. Following i.v. administration, serum activity levels fell rapidly (T 1/2 alpha 2 hr, T 1/2 beta 19 hr). Whole-body clearance of the label was slow (T 1/2 160 hr) and may be attributed entirely to urinary excretion (0.26% of the injected dose per hour). Organ accumulation was greatest in the liver and persisted after rapidly attaining high values (20% of the injected dose). A total of 14 cancer patients were studied, nine with identifiable sites of metastatic disease from colorectal [8], pancreatic [2], ovarian [3], or small cell lung [1] primaries. Eight of the 12 sites of documented tumor were visualized by external imaging (67%) most distinctly at 48-72 hr postadministration.
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PMID:Pharmacokinetics of an indium-111-labeled monoclonal antibody in cancer patients. 386 93

The localization of 111In activity in the tumor and draining lymph nodes of the H-4-II-E ACI rat hepatoma was investigated following the injection of 111In-chloride. In this tumor model, the tumors metastasize to the regional lymph nodes in male rats only. The following experiments were performed: (a) biodistribution of 111In; (b) correlation of 111In uptake with [3H]thymidine; (c) gamma camera imaging; (d) autoradiography; (e) iron competition and (f) binding of 131I-transferrin to H-4-II-E cells. Tumor-to-muscle ratios of 111In in males were 4.9:1 in the primary tumor and 9.1:1 in the metastatic lymph nodes 24 h post injection. In the lymph node metastases in the males, a significant correlation between 111In uptake and [3H]thymidine was observed (r = 0.737) suggesting that 111In uptake in the metastases is related to cellular proliferation. No such correlation was observed in either primary tumors (both male and female) or in the draining lymph nodes of the females. Metastatic lymph nodes in males could be detected in gamma camera images while draining nodes in females could not be delineated. Injection of ferric citrate prior to 111In administration resulted in a significant reduction of 111In uptake in the liver, spleen and tumor and increased the amount of activity recovered from the kidney. Measurements of the binding of 131I-labeled rat transferrin to H-4-II-E cells in vitro suggest that these cells display transferrin receptors.
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PMID:Distribution and mechanism of uptake of 111InCl3 in a tumor model for lymph node metastases. 404 44

From early 1972 to the end of 1976, the profiles of several serum protein were used to monitor disease stage and prognosis of 207 patients with breast cancer. Six of these proteins, alpha 1-antitrypsin (alpha-AT), alpha 2-ceruloplasmin (Cp), beta 1-transferrin, IgA, C4, and C5, were significantly elevated in these cancer patients and were used as biologic markers in a multiparametric study. Among these breast cancer patients, 72% had at least two of these protein levels elevated, of which alpha-AT (55%), C5 (38%), and IgA (36%) levels were most commonly raised. The number of elevated proteins was parallel to disease progression as 61% (Group 1) and 74% (Group 2) of the patients with operable breast cancer and 90% of patients with metastatic disease showed an elevation of two or more of these nonspecific proteins. There was also a positive correlation between the number of elevated proteins and prognosis; of the 26 patients who died during the five-year follow-up, only four (15%) had no more than one protein level elevated, and 22 (85%) had two or more protein levels elevated. On the other hand, when considered as a group, patients with no or only one protein level elevated had a better prognosis than patients with two or more levels elevated (P less than 0.03). This multiparametric study tends to indicate that the high level of these serum proteins, reflecting an abnormal biochemical profile, provides valuable information that relates to the stage of the disease and patients' prognosis. Results also suggest that these proteins may aid in differentiating the group with high recurrent risks from that with a more favorable prognosis for a given clinical and pathologic stage, illustrating their importance as biologic markers in breast cancer.
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PMID:Biologic markers and breast cancer: a multiparametric study--1. Increased serum protein levels. 697 5

Even though the liver is a relevant metastatic site for several human malignant tumors, mechanisms or organ-specific metastasis to the liver remain largely unknown. In the following paper we summarize the results obtained with different murine model systems which have been set up to elucidate the above mechanisms, and describe our own results with two murine models: the F9 teratocarcinoma and the B16 melanoma. While the F9 teratocarcinoma model system underscores the roles of both adhesion and growth stimulation in the target organ, the B16 melanoma model strengthens the relevance of paracrine growth stimulation. Moreover, B16 melanoma cells selected in vivo for increased liver colonization ability appear to depend on cell-to-cell contact with hepatocytes in order to gain efficient growth stimulation. When we next tried to identify the molecule(s) responsible for the growth effect in a liver plasma membrane extract, we found that such activity was mediated by two closely related protein bands. These turned out to be two different forms of transferrin (Tf), one of which is specifically present on the hepatocyte surface. Moreover, when we analyzed the different B16 lines for the expression of c-Met[the receptor for the hepatocyte growth factor-scatter factor (HGF/SF)], we found that liver-specific LS9 had more of this protein than lung-specific F10 or parental F1, suggesting a role for HGF/SF in liver colonization by B16 melanoma cells.
Invasion Metastasis
PMID:Murine models of liver metastasis. 765 28

The brain is a unique microenvironment enclosed by the skull, lacking lymphatic drainage and maintaining a highly regulated vascular transport barrier. To metastasize to the brain malignant tumor cells must attach to microvessel endothelial cells, respond to brain-derived invasion factors, invade the blood-brain barrier and respond to survival and growth factors. Trophic factors are important in brain invasion because they can act to stimulate this process. In responsive malignant cells trophic factors such as neurotrophins can promote invasion by enhancing the production of basement membrane-degradative enzymes (such as type IV collagenase/gelatinase and heparanase) capable of locally destroying the basement membrane and the blood-brain barrier. We examined human melanoma cell lines that exhibit varying abilities to form brain metastases. These melanoma lines express low-affinity neurotrophin receptor p75NTR in relation to their brain-metastatic potentials but the variants do not express trkA, the gene encoding a high affinity nerve growth factor (NGF) tyrosine kinase receptor p140trkA. Melanoma cells metastatic to brain also respond to paracrine factors made by brain cells. We have found that a paracrine form of transferrin is important in brain metastasis, and brain-metastatic cells respond to low levels of transferrin and express high levels of transferrin receptors. Brain-metastatic tumor cells can also produce autocrine factors and inhibitors that influence their growth, invasion and survival in the brain. We found that brain-metastatic melanoma cells synthesize transcripts for the following autocrine growth factors: TGF beta, bFGF, TGF alpha and IL-1 beta. Synthesis of these factors may influence the production of neurotrophins by adjacent brain cells, such as oligodendrocytes and astrocytes. Increased amounts of NGF were found in tumor-adjacent tissues at the invasion front of human melanoma tumors in brain biopsies. Trophic factors, autocrine growth factors, paracrine growth factors and other factors may determine whether metastatic cells can successfully invade, colonize and grow in the central nervous system.
Clin Exp Metastasis 1995 Mar
PMID:The role of trophic factors and autocrine/paracrine growth factors in brain metastasis. 788 17

Metastasis to the central nervous system in patients with small cell lung cancer is not uncommon, and a fraction of the cases have leptomeningeal disease for which no effective therapy is available. To establish an experimental model for evaluation of new therapeutic approaches for such tumor lesions, 1 x 10(6) human H-146 cells were injected directly into the cerebrospinal fluid in the cisterna magna of nude rats. Small, superficial leptomeningeal tumors developed, consistently resulting in symptoms of central nervous system involvement after a mean latency of 20 days. The model was used to study the efficacy of intrathecal targeted therapy with immunotoxins. The monoclonal anti-carcinoma antibodies MOC-31 and NrLu10 and the growth factor transferrin were conjugated to Pseudomonas exotoxin A (PE), and 1 day after tumor cell inoculation instilled in the cisterna magna as a single bolus dose of 1.5 micrograms. The antibody conjugates, which were highly cytotoxic to target cells in a protein synthesis inhibition assay in vitro, increased the symptom-free latency by 35-46%. PE had no effect, reflecting a lower in vitro cytotoxicity and possibly also a down-regulation of transferrin-receptor expression in the meningeal H-146 tumors. Delayed or repeated treatment with MOC-31-PE was less effective than day 1 administration, whereas the addition of 10% glycerol to the injection solution increased the symptom-free period to 72%. The efficacy of MOC-31-PE is superior to reported effects obtained in similar models with other therapies, and the results support the development of this immunotoxin towards clinical evaluation in small cell lung cancer patients with leptomeningeal carcinomatosis.
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PMID:Targeted therapy with immunotoxins in a nude rat model for leptomeningeal growth of human small cell lung cancer. 817 21

Once metastatic cells successfully seed at distant sites, their clinical detection and danger to the host are dependent on growth to form gross metastases. Metastatic tumor cells proliferate in response to local paracrine growth factors and inhibitors, and their growth also depends on production and responses to autocrine growth factors. A major organ-derived (paracrine) growth factor from lung tissue-conditioned medium has been isolated that differentially stimulates the growth of cells metastatic to brain or lung. Characterization of this mitogen demonstrated that it is a transferrin or a transferrin-like glycoprotein. Furthermore, antibodies to transferrin can remove significant growth activity from lung tissue-conditioned medium. Cells that are metastatic to brain or lung express greater numbers of transferrin receptors on their surfaces than cells that are poorly metastatic or metastatic to liver. Growth responses of metastatic cells and organ preferences of colonization appear to change during progression to more malignant states. At early stages of metastatic progression there is a tendency for many common malignancies to metastasize and grow preferentially at particular sites, suggesting that paracrine growth mechanisms may dominate the growth signals at this stage of progression. In contrast, at later stages of metastatic progression widespread dissemination to various tissues and organs occurs, and autocrine growth mechanisms may dominate the growth responses of metastatic cells. Ultimately, the progression of malignant cells to completely autonomous (acrine) states can occur, and at this stage of metastatic progression cell growth may be completely independent of autocrine and paracrine growth factors or inhibitors.
Cancer Metastasis Rev 1993 Sep
PMID:Paracrine and autocrine growth mechanisms in tumor metastasis to specific sites with particular emphasis on brain and lung metastasis. 828 16

An important clinical endpoint in patients with cancer is formation of metastases in the brain. Understanding this phenomenon is important in several types of malignancies, including melanoma, lung and breast cancers. Metastatic tumor cells use specific adhesion molecules to home to brain, and there they must attach to microvessel endothelial cells and respond to brain endothelial cell-derived motility factors and brain invasion factors to invade the CNS. Neurotrophins are important invasion factors in this process, and the ability to invade into the brain may well depend on metastatic cell responses to neurotrophins and production of basement membrane-degradative enzymes capable of locally destroying the blood-brain barrier. Brain-metastatic human melanoma cells express low-affinity p75 receptor for neurotrophins such as nerve growth factor, but they do not express the high-affinity-type receptors for nerve growth factor encoded by the protooncogene trkA. Tumor cells can proliferate in the CNS in response to local paracrine growth factors and inhibitors, but their growth also depends on their producing and responding to autocrine growth factors. A major organ-derived (paracrine) growth factor has been isolated that differentially stimulates the growth of cells metastatic to the brain. Characterization of this mitogen demonstrated that it is a transferrin-like glycoprotein; cells that are metastatic to brain express greater numbers of transferrin receptors on their surfaces than cells that are poorly metastatic or metastatic to other sites. Transferrin-like factors are expressed in fetal brain and could represent the transferrin-like factors that stimulate growth of brain-metastatic melanoma and breast cancer cells. These and other factors are probably important in determining whether metastatic cells can successfully invade, colonize, and grow in the CNS.
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PMID:Tumor metastasis to brain: role of endothelial cells, neurotrophins, and paracrine growth factors. 851 8

To metastasize to the central nervous system (CNS) malignant cells must attach to brain microvessel endothelial cells, respond to brain endothelial cell-derived motility factors, respond to CNS-derived invasion factors and invade the blood-brain barrier (BBB), and finally, respond to CNS survival and growth factors. Trophic factors such as the neurotrophins play an important role in tumor cell invasion into the CNS and in the survival of small numbers of malignant cells under stress conditions. Trophic factors promote BBB invasion by enhancing the production of basement membrane-degrading enzymes in neurotrophin-responsive cells. The expression of certain neurotrophin receptors on brain-metastasic neuroendocrine cells occurs in relation to their invasive and survival properties. For example, CNS-metastatic melanoma cells respond to particular neurotrophins (nerve growth factor, neurotrophin-2) that can be secreted by normal cells within the CNS. In addition, a paracrine form of transferrin is important in CNS metastasis, and brain-metastatic cells respond to low levels of transferrin and express high levels of transferrin receptors. CNS-metastatic tumor cells can also produce autocrine factors and inhibitors that influence their growth, invasion and survival in the brain. Synthesis of paracrine factors and cytokines may influence the production of trophic factors by normal brain cells adjacent to tumor cells. Moreover, we found increased amounts of neurotrophins in brain tissue at the invasion front of human melanoma tumors in CNS biopsies. Thus the ability to form metastatic colonies in the CNS is dependent on tumor cell responses to trophic factors as well as autocrine and paracrine growth factors and probably other underdescribed factors.
Cancer Metastasis Rev 1995 Dec
PMID:Trophic factors and central nervous system metastasis. 882 Oct 92

The restriction fragment length polymorphism of c-Ha-ras-1 and L-myc genes and expression of cell surface effector molecules were studied to determine their potential utility as markers for assessing risk of metastasis in 84 lung cancer patients. We performed a comparative study of primary lung carcinomas, metastases, adjacent tissues and blood samples in a group of patients with lung cancer of different histological types, grade of differentiation and presence of regional and distant metastasis. No differences in the frequency of c-Ha-ras-1 rare alleles were found between lung cancer patients and unaffected controls. The detection of common a4-allele seems to be associated with metastasis and low differentiation of lung carcinomas. S-allele of L-myc was observed in 82.6% of patients with metastatic lesions. Homozygosity of L-allele patients was not evidence for distant metastasis and only 17.4% of these patients have metastatic lesions of the lymph nodes. The expression of HLA class I and receptor of transferrin (TrRec) were tested immunohistochemically in the same patients. In the group of squamous cell carcinomas with regional metastases the expression of HLA class I antigens was decreased [7/21 (33.3%) positive staining tumors versus 13/20 (65.0%) in the group without metastases]. The opposite situation was observed for TrRec. The data of restriction fragment length polymorphism of oncogenes and expression of two cell surface effector molecules, identified in the same patients, were combined. The registration of more than one poor marker, tested in individuals with squamous cell carcinoma, closely correlated with dissemination and advanced stage of the disease. Nearly 90% (20/22) of patients with well and moderately differentiated tumor revealed metastatic lesions versus 6.6% (1/15) of patients with manifestation of a single poor marker. Finally, proposals could be made for the development of a risk group that incorporates both clinical and molecular biology features in the prediction of metastasis.
Clin Exp Metastasis 1996 Nov
PMID:Simultaneous detection of genetic and immunological markers in non-small cell lung cancer: prediction of metastatic potential of tumor. 897 May 79


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