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)

In the last years, a sharp rise in the morbidity due to lung cancer is observed, especially in the male population. Despite the intensive, multidirectional development of oncology, early detection and effective treatment of lung cancer is still limited. Its detection is delayed because of the lack of characteristic early signs. Especially poor in prognosis are patients with small cell lung cancer (SCLC), who usually die in consequence of distant metastases. This may result due to coating of the surface of circulating neoplastic cells with thrombocytes and clots. Platelets aggregates on the surface of neoplastic cells may have a protective action in relation to cytostatic drugs. This is why neoplastic cells that persist through this phase, implant themselves into various organs giving rise to metastases. The aim of the 1st part of the paper was to evaluate the influence of antiplatelet drugs (AD) on the haemostatic system of patients with SCLC. There is data in literature indicating a ameliorating influence of AD on time of survival of patients with certain neoplasms. The study was performed in 87 male patients aged 35-73 years with SCLC, limited to half of the chest (limited disease). After 2 i.v. chemotherapy series in 3 week intervals (VAC scheme according Greco): --Adriamycin (ADR) 40 mg on 1sq.m of body surface; --Vincristin (VCR) 1 mg; on 1sq.m of body surface; --Cyclophosfamid (CTX) 1000 mg on 1sq.m of body surface; radiation was also applied--40 Gy during 20 days on the tumor and mediastinum. The described treatment was performed in 22 patients from controls (Group I). Patients from Group II (n = 22) received additionally Defibrotide, Group III (n = 22) Ticlide and Group IV (n = 21) Aspirin. To evaluate of the influence of AD on the haemostatic system--every 3 months during the consecutive 27 weeks, the following tests were performed: bleeding time, clotting time, platelet aggregation, platelets aggregation ratio, euglobulin clot lysis time (ECLT), fibrinogen and fibrinogen degradation products (FDP). It was shown that AD prolonged bleeding and clotting time, increased the threshold ADP and collagen concentration causing platelets aggregation as well as increased platelet aggregation ratio. The used AD (Defibrotide, Ticlide) resulted in activation of the plasma fibrynolytic system as expressed by a shortening of the ECLT, lowering of fibrinogen level and increasing FDP. The influence of observed changes in the haemostatic system, as a result of AD on the remission and survival time of patients with SCLC will be presented in the 2nd part of this paper.
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PMID:[Influence of antiplatelet drugs (AD) on the efectiveness of combined therapy in patients with small cell lung cancer. Part I. Influence of AD on the haemostatic system]. 1885 60

Human breast cancer cells (MDA-MB-435s) secrete a nucleoside diphosphate kinase (NDPK-B) as a phosphoprotein capable of converting diphosphate nucleosides to triphosphate nucleotides for one round in the absence of a phosphoryl donor. Incubation of the partially purified NDPK-B (Nm23-H2 by Western blot) from [gamma32P]Pi-labeled cells with non-radioactive ADP results in the formation of [gamma32P]ATP (Proc. West. Pharmacol. Soc. 44: 61-63, 2001). The presence of a secreted protein that can maintain ATP levels in the vicinity of capillary and lymph vessels may support cancer metastasis in several ways based on the known actions of ATP at P2Y receptors: facilitate intravasation of breast cancer cells that migrate from a solid tumor, support their extravasation at a distal site, and stimulate angiogenesis. The putative role of angiostatin (AS) as an ATP-synthase inhibitor led us to test the notion that AS blocks NDPK-B activity. Addition of commercial AS (kringles 1-4) did not alter enzyme activity. However, AS produced by us and never lyophilized, blocked NDPK activity in a dose-dependent fashion consistent with the notion that extracellular ATP generation by tumor cells may be important to the development of metastases. The ability of 0.5 mg/ml angiostatin to block NDPK-B activity to approximately 75% of control activity compared poorly with the polyphenol inhibitors of. The catechin gallates, theaflavins and ellagic acid inhibited NDPK-B completely with the rank order of potency: EA > theaflavins > EGCG > ECG > PAPS. Our results suggest that the biological activity of angiostatin as a putative metastasis inhibitor may be in part the result of nm23 inhibition and that the production, lyophilization, packaging or storage of commercial angiostatin leads to the alteration of its biological activity against NDPK-B. Ellagic acid is a potent (IC50 = 10.5 microM) NDPK-B inhibitor that may prove useful in elucidating the role of cancer-cell secreted NDPK-B in tumor development.
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PMID:Inhibition of Nm23H2 gene product (NDPK-B) by angiostatin, polyphenols and nucleoside analogs. 1954 70

Several advances have recently expanded models of tumor growth and promoted the concept of tumor homeostasis, the hypothesis that primary tumors exert an anti-proliferative effect on both themselves and subclinical secondary metastases. Recent trials indicate that the characterization of tumor growth as uncontrolled is inconsistent with animal models, clinical models, and epidemiological models. There is a growing body of evidence which lends support to an updated concept of tumor growth: tumor homeostasis. In the case of breast cancer, if not all metastasizing tumors, these advances suggest an inconvenient truth. That is, if breast tumor cells metastasize to distant sites early in the tumorigenesis process, then removal of a breast tumor may hasten the development of its metastases. We explore the heretofore unappreciated notion that nucleotides generated by tumor cells following the secretion of an ADP-kinase can promote metastasis and support angiogenesis. Evidence is presented that blockade of the actions of nucleotides in the setting of newly diagnosed breast cancer may provide a useful adjunct to current anti-angiogenesis treatment.
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PMID:Purinergic mechanisms in breast cancer support intravasation, extravasation and angiogenesis. 1992 95

Inhibitors of differentiation or DNA binding (Id) proteins have been shown to be involved in tumor growth, invasiveness, metastasis, and angiogenesis. Overexpression of Id proteins, especially Id1, correlates with unfavorable clinical prognosis. Thus, they are attractive molecular targets for anticancer therapy. Overexpression of Id proteins mediates breast cancer metastasis to lung. Targeting Id1 and Id3 expression in breast cancer cells reduces breast cancer metastasis in animal models. Different breast tumors failed to grow and/or metastasize in Id1 (+/-) Id3 (-/-) mice. Id1 and Id3 preferentially dimerize with the key regulatory E-proteins which inhibit the expression of different tumor suppressor genes. Nevertheless, the inhibition of tumorigenic activities of Id1 and Id3 at protein level has never been studied. Here, we isolated a novel peptide aptamer, Id1/3-PA7, specifically interacting with Id1 and Id3 from randomized combinatorial expression library using yeast and mammalian two-hybrid systems. Intracellular delivered Id1/3-PA7 co-localized to Id1 and Id3 and interfered with their functions. It repressed E47 protein sequestration by Id1 and Id3, activated the E-box promoter and increased the expression level of cyclin-dependent kinase inhibitors (CDKN1A and CDKN1B) in a dose-dependent fashion, paralleled by the cleavage of poly ADP ribose polymerase (PARP). These effects were counteracted by ectopically overexpressed Id1 and Id3. Peptide aptamer Id1/3-PA7 induced cell cycle arrest and apoptosis in breast cancer cells MCF7 and MDA-MB-231. In conclusion, Id1/3-PA7 could represent a nontoxic exogenous agent that can significantly provoke antiproliferative and apoptotic effects in breast cancer cells, which are associated with deregulated expression of Id1 and Id3.
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PMID:Targeting Id1 and Id3 by a specific peptide aptamer induces E-box promoter activity, cell cycle arrest, and apoptosis in breast cancer cells. 2019 79

In 2006 there were 60,000 new cases of cutaneous melanoma in the European Union and 13,000 deaths (www.europeancancerleagues. org). Currently available systemic treatment options for metastatic melanoma, including both cytotoxic and immunologic therapies, produce low rates of response and have modest survival impact. Therefore, there is an urgent need for effective novel therapies. Molecularly targeted treatments have demonstrated efficacy in certain cancers e.g. in HER2- positive breast cancer and in chronic myeloid leukaemia. Several pathways are currently being investigated as potential molecular targets in melanoma. The best studied is BRAF which is frequently mutated in melanoma. A multi tyrosine kinase inhibitor, sorafenib, which targets BRAF, has shown promising activity in preclinical studies and is currently being tested in combination with chemotherapy in patients with metastatic disease. In addition to BRAF, therapies which target other components of the Raf/Ras/MAPK pathway are being investigated. Other novel targets currently being investigated include the PI3/AKT pathway, tyrosine kinases, angiogenesis, poly (ADP ribose) polymerases, survivin and heat shock protein 90. Progress on preclinical and clinical evaluation of these novel targets in melanoma will be reviewed.
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PMID:Prospects for non-immunological molecular therapeutics in melanoma. 2041 21

Protein ADP-ribosylation is a reversible posttranslational modification of uncertain significance in cancer. In this study, we evaluated the consequences for cancer susceptibility in the mouse of a genetic deletion of the enzyme responsible for removing mono-ADP-ribose moieties from arginines in cellular proteins. Specifically, we analyzed cancer susceptibility in animals lacking the ADP-ribosylarginine hydrolase (ARH1) that cleaves the ADP ribose-protein bond. ARH1(-/-) cells or ARH1(-/-) cells overexpressing an inactive mutant ARH1 protein (ARH1(-/-)+dm) had higher proliferation rates than either wild-type ARH1(+/+) cells or ARH1(-/-) cells engineered to express the wild-type ARH1 enzyme. More significantly, ARH1(-/-) and ARH1(+/-) mice spontaneously developed lymphomas, adenocarcinomas, and metastases more frequently than wild-type ARH1(+/+) mice. In ARH1(+/-) mice, we documented in all arising tumors mutation of the remaining wild-type allele (or loss of heterozygosity), illustrating the strict correlation that existed between tumor formation and absence of ARH1 gene function. Our findings show that proper control of protein ADP-ribosylation levels affected by ARH1 is essential for cancer suppression.
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PMID:ADP-ribosylarginine hydrolase regulates cell proliferation and tumorigenesis. 2169 77

Platelet hyperreactivity is associated with an increased risk of thrombosis. Cancer patients are at an increased risk of thrombosis, a risk that increases with disease progression. While cancer patients show evidence of platelet activation in vivo, few studies have extensively assessed whether these patients display platelet hyperreactivity. We hypothesized that patients with metastatic cancer would display platelet hyperreactivity, reflecting their associated high risk of thrombosis. In a cohort of patients with metastatic cancer (n = 13), we assessed platelet function using well-established assays of platelet reactivity (agonist-induced platelet aggregation, spontaneous platelet aggregation, and agonist-induced P-selectin expression). In comparison with healthy controls (n = 10), patients with metastatic cancer displayed global platelet hyperreactivity. Agonist-induced platelet aggregation responses to ADP (adenosine diphosphate), epinephrine, collagen, arachidonic acid, and PAR-1 (protease-activated receptor-1) activating peptide, as well as spontaneous platelet aggregation, were significantly increased in patients with metastatic cancer. Furthermore, agonist-induced platelet P-selectin expression was also significantly increased within the patient cohort. We demonstrate that patients with metastatic cancer are characterized by global platelet hyperreactivity, a factor that may contribute to their increased risk of thrombosis.
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PMID:Increased platelet reactivity in patients with late-stage metastatic cancer. 2415 29

Tumor cells use activated platelets to promote their proliferation and metastatic potential. Because platelet activation is largely mediated through ADP engagement of purinergic P2Y12 receptors on platelets, we investigated the potential of the reversible P2Y12 inhibitor ticagrelor, a clinical agent used in the prevention of cardiovascular and cerebrovascular events, to inhibit tumor adhesion and metastasis. In B16-F10 melanoma intravenous and intrasplenic metastasis models, mice treated with a clinical dose of ticagrelor (10 mg/kg) exhibited marked reductions in lung (84%) and liver (86%) metastases. Furthermore, ticagrelor treatment improved survival compared to saline-treated animals. A similar effect was observed in a 4T1 breast cancer model, with reductions in lung (55%) and bone marrow (87%) metastases following ticagrelor treatment. In vitro, B16-F10 cells exhibited decreased interaction with platelets from ticagrelor-treated mice compared to saline-treated mice, an effect similar to that observed with blockade of glycoprotein IIbIIIa. Similarly, B16-F10 cells co-incubated with platelets from ticagrelor-treated mice exhibited reduced adhesion to endothelial monolayers compared to those co-incubated with platelets from saline-treated animals, an effect also observed in vivo. Interestingly, pretreatment of endothelial monolayers with ticagrelor did not result in reduced tumor cell adhesion. These findings support a role for P2Y12-mediated platelet activation in promoting metastases, and provide proof-of-concept for the clinical use of ticagrelor in the prevention of tumor metastasis.
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PMID:The reversible P2Y12 inhibitor ticagrelor inhibits metastasis and improves survival in mouse models of cancer. 2479 3

NEDD9 is an established marker of invasive and metastatic cancers. NEDD9 downregulation has been shown to dramatically reduce cell invasion and metastasis in multiple tumors. The mechanisms by which NEDD9 regulates invasion are largely unknown. In the current study, we have found that NEDD9 is required for matrix metalloproteinase 14 (MMP14) enzymatic recovery/recycling through the late endosomes to enable disengagement of tissue inhibitor of matrix metalloproteinase 2 (TIMP2) and tumor invasion. Depletion of NEDD9 decreases targeting of the MMP14/TIMP2 complex to late endosomes and increases trafficking of MMP14 from early/sorting endosomes back to the surface in a small GTPase ADP ribosylation factor-6 (Arf6)-dependent manner. NEDD9 directly binds to Arf6-GTPase-activating protein, ARAP3 and Arf6-effector GGA3, thereby facilitating the Arf6 inactivation required for MMP14/TIMP2 targeting to late endosomes. Re-expression of NEDD9 or a decrease in Arf6 activity is sufficient to restore MMP14 activity and the invasive properties of tumor cells. Importantly, NEDD9 inhibition by Vivo-Morpholinos, an antisense therapy, decreases primary tumor growth and metastasis in xenograft models of breast cancer. Collectively, our findings uncover a novel mechanism to control tumor-cell dissemination through NEDD9/Arf6-dependent regulation of MMP14/TIMP2 trafficking, and validate NEDD9 as a clinically relevant therapeutic target to treat metastatic cancer.
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PMID:NEDD9/Arf6-dependent endocytic trafficking of matrix metalloproteinase 14: a novel mechanism for blocking mesenchymal cell invasion and metastasis of breast cancer. 2524 93

Poly (ADP-ribose) polymerase (PARP) inhibitors are particularly efficient against tumors with defects in the homologous recombination repair pathway. Nonetheless poly(ADP-ribosylation) (PARylation) modulates prometastasic activities and adaptation of tumor to a hostile microenvironment. Modulation of metastasis-promoting traits is possible through the alteration of key transcription factors involved in the regulation of the hypoxic response, the recruitment of new vessels (or angiogenesis), and the stimulation of epithelial to mesenchymal transition (EMT). In this review, we summarized some of the findings that focalize on PARP-1's action on tumor aggressiveness, suggesting new therapeutic opportunities against an assembly of tumors not necessarily bearing DNA repair defects. Metastasis accounts for the vast majority of mortality derived from solid cancer. PARP-1 is an active player in tumor adaptation to metastasis and PARP inhibitors, recognized as promising therapeutic agents against homologous recombination deficient tumors, has novel properties responsible for the antimetastatic actions in different tumor settings.
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PMID:Deciphering the insights of poly(ADP-ribosylation) in tumor progression. 2560 34

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