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Query: UMLS:C1519670 (tumor angiogenesis)
 6,052 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A simple and quantitative angiogenesis assay was developed. Using this assay, the angiostatic effect of cortisone acetate (CA) on three murine tumors was studied. Tumor cells were inoculated i.d. into the syngeneic or heterogeneic hosts (day 0) and the degree of angiogenesis was quantitated on day 3 by measuring the tumor vascular volumes using an Evan's blue perfusion technique. CA treatment (250 mg/kg for 3 days) significantly suppressed tumor angiogenesis; however, the degree of angiostatic effect was influenced by the tumor types and by the mouse strain used. MBT-2 bladder cancer angiogenesis was suppressed by 77%-80% of controls in C3H/HeN and C57B1/6 mice, whereas MBT-2 angiogenesis in BALB/c mice was significantly less suppressed by CA (65% inhibition) as compared with values obtained for C3H mice. B16 melanoma or Line-1 lung-cell carcinoma-induced angiogenesis was suppressed by 57%-66% in their syngeneic or heterogeneic hosts. The combined administration of CA and heparin (Sigma; 1,000 units/ml in drinking water) did not influence the outcomes. The data suggest that host factor(s) and tumor factor(s) influenced the expression of CA angiostatic activity. This colorimetric assay enabled a quantitative estimation of the degree of angiogenesis in mammalian animals.
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PMID:Cortisone inhibition of tumor angiogenesis measured by a quantitative colorimetric assay in mice. 169 79

Microvascular proliferation, a hallmark of malignant brain tumors, represents an attractive target of anticancer research, especially because of the quiescent nonproliferative endothelium of the normal brain. Cerebral neoplasms sequester copper, a trace metal that modulates angiogenesis. Using a rabbit brain tumor model, normocupremic animals developed large vascularized VX2 carcinomas. By contrast, small, circumscribed, relatively avascular tumors were found in the brains of rabbits copper-depleted by diet and penicillamine treatment (CDPT). The CDPT rabbits showed a significant decrease in serum copper, copper staining of tumor cell nuclei, microvascular density, the tumor volume, endothelial cell turnover, and an increase in the vascular permeability (breakdown of the blood-brain barrier), as well as peritumoral brain edema. In non-tumor-bearing animals, CDPT did not alter the vascular permeability or the brain water content. CDPT also inhibited the intracerebral growth of the 9L gliosarcoma in F-344 rats, with a similar increase of the peritumoral vascular permeability and the brain water content. CDPT failed to inhibit tumor growth and the vascularization of the VX2 carcinoma in the thigh muscle or the metastases to the lung, findings that may reflect regional differences in the responsiveness of the endothelium, the distribution of copper, or the activity of cuproenzymes. Metabolic and pharmacologic withdrawal of copper suppresses intracerebral tumor angiogenesis; angiosuppression is a novel biologic response modifier for the in situ control of tumor growth in the brain.
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PMID:Inhibition of angiogenesis and tumor growth in the brain. Suppression of endothelial cell turnover by penicillamine and the depletion of copper, an angiogenic cofactor. 170 Jun 17

The effect of "antiangiogenesis" therapy using cortisone acetate (CA) with or without heparin on tumor growth as well as in combination with chemotherapy was investigated. C3H mice were implanted intradermally with N-[4-(5-nitro-2-furyl)-thiazolyl]formamide induced undifferentiated transitional cell carcinoma, MBT-2, in the right flank. The treatment was initiated 9 to 10 days after tumor inoculation. Daily injections of CA (250 mg/kg s.c.) suppressed tumor growth significantly in a dose dependent fashion. Administration of heparin (Elkins-Sinn) at the concentration of 200, 400, or 1000 units/ml in drinking water for 3 to 6 days was neither additive nor detrimental to the effect of CA. Chemotherapy was combined with CA; 3 days of administration of 250 mg/kg of CA in tapering doses was used. The chemotherapeutic agent was injected once 24 h before the initial CA. Combinations of chemotherapy (Adriamycin, 2.5-7.5 mg/kg i.v; cisplatin, 3-9 mg/kg i.p.; cyclophosphamide, 50-150 mg/kg i.p.; cis-(diammino)(1,1-cyclobutanedicarboxylate)platinum(II) (JM-8), 60-150 mg/kg i.p.; mitomycin C, 3-4.5 mg/kg i.p.) with CA showed additive suppression of tumor growth. Mice tolerated chemotherapy alone, CA alone, and both in combination. CA combined with JM-8 was not tolerated. Mice tolerated 100 to 150 mg/kg of JM-8, whereas the addition of CA to JM-8 resulted in a 66% (6 of 9) to 89% (8 of 9) mortality rate. CA at a concentration of 5 and 25 micrograms/ml showed no direct cytotoxic activity against MBT-2 cells in vitro. However, 3 days of administration of 250 mg/kg of CA inhibited tumor angiogenesis generated by MBT-2 cells in C3H mice using a dorsal air sac assay. The data suggest that CA alone inhibits tumor angiogenesis in C3H mice and that antiangiogenesis therapy enhances the antitumor efficacy of chemotherapeutic agents without increasing host toxicity (except for JM-8).
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PMID:Efficacy of antitumor chemotherapy in C3H mice enhanced by the antiangiogenesis steroid, cortisone acetate. 244 60

There are two distinct phases during prostatic carcinogenesis with regard to tumor blood vessel development. During the first or prevascular phase, which may persist for years, cells that have undergone some but not all of the transformation steps undergo a limited amount of net growth, producing premalignant prostatic intraepithelial neoplastic (PIN) lesions. Most of these PIN lesions do not continue net growth and do not progress to produce histologically detectable cancer. Even the PIN lesions that do progress to cancer remain of limited virulence unless they undergo conversion to the second or angiogenic phase. Once this angiogenic phase is reached, new blood vessel development is greatly enhanced within the cancer. It is this enhanced tumor angiogenesis which allows these cancers both to grow continuously and to metastasize. Thus, inhibition of angiogenesis should be an effective chemopreventive approach for prostatic carcinogenesis. Linomide is a low molecular weight, water-soluble agent with excellent p.o. absorption and bioavailability. We have previously demonstrated that daily p.o. treatment with Linomide has antiangiogenic abilities against a series of rat and human prostatic cancer xenografts growing in vivo. In the present studies, we have demonstrated using Matrigel in in vivo angiogenesis assays that daily p.o. Linomide at 25 mg/kg/day inhibits angiogenesis induced by tumor necrosis factor alpha, acidic fibroblast growth factor, basic fibroblast growth factor, and vascular endothelial growth factor. Using an N-methylnitrosourea initiation-androgen promotion model, Linomide was given p.o. at a daily dose as high as 25 mg/kg/day for at least 1 year without major toxicity while inhibiting the development of seminal vesicle/prostate cancers in male rats by >50%. Dose-response analysis demonstrated that a Linomide blood level of 50-100 microM is optimal for such chemoprevention. In addition, Linomide treatment at a dose of 25 mg/kg/day was able to inhibit by approximately 60% the incidence of N-methylnitrosourea and approximately 50% of 7,12-dimethyl-benz(a)anthracine-induced mammary carcinogenesis in female rats.
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PMID:Antiangiogenic treatment with linomide as chemoprevention for prostate, seminal vesicle, and breast carcinogenesis in rodents. 875 2

The growth of any solid tumor depends on angiogenesis. Among the known angiogenic factors, vascular endothelial growth factor (VEGF) has been shown to play a pivotal role in tumor angiogenesis. However, to date, the signal transduction pathway initiated by VEGF is still not fully understood. It has been suggested that protein kinase C (PKC) plays an important role in the VEGF-induced signal transduction pathway in vitro, although the role of PKC in tumor angiogenesis in vivo still remains to be elucidated. By delivering the VEGF gene within the self-contained tetracycline-regulated retroviral vector (Retro-Tet) into hepatocellular carcinoma (HCC) cells, we manipulated VEGF expression by providing tetracycline in the drinking water to assess the tumor kinetics mediated exclusively by VEGF. In this study, we combined this Retro-tet system and LY333531, an inhibitor of the PKC-beta isoform, to elucidate the role of PKC-beta in tumor development and angiogenesis. Using a syngenic xenograft model, tumor augmentation induced by VEGF overexpression in HCC was markedly suppressed by oral administration of the PKC-beta inhibitor, with an accompanying reduction of neovascularization and p44/42 mitogen-activated protein kinase activation. This inhibitory effect was achieved even after the tumor was fully established. Immunohistochemical analysis revealed that apoptosis increased markedly in the tumor upon PKC-beta inhibitor treatment, whereas tumor cell proliferation itself did not change. Furthermore, with orthotopical transplantation, PKC-beta inhibition suppressed HCC tumor development in the liver. These results suggest that PKC-beta lies on the signal transduction pathway by which VEGF augments development and angiogenesis not only at the initial stage but also after the tumor is fully established.
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PMID:Protein kinase C lies on the signaling pathway for vascular endothelial growth factor-mediated tumor development and angiogenesis. 1048 91

Vascular endothelial growth factor (VEGF), which is one of the most potent angiogenic factors, has been shown to play a pivotal role in tumor angiogenesis, including hepatocellular carcinoma (HCC). The effects of VEGF are mediated mainly through two distinct receptors, flt-1 and KDR/Flk-1. It has been suggested that KDR/Flk-1 plays an important role in tumor development. However, the role of KDR/Flk-1 in HCC has not been examined. We previously reported that VEGF tightly regulated murine HCC development, based on the results of a study using a retroviral tetracycline-regulated (Retro-Tet) gene expression system. This system allows VEGF gene expression to be manipulated in vivo by providing tetracycline in the drinking water. In the present study, we combined the KDR/Flk-1-specific neutralizing monoclonal antibody (KDR/Flk-1mAb) and the Retro-Tet system to elucidate the role of KDR/Flk-1 in VEGF-induced tumor development and angiogenesis in a murine HCC experimental model. In a xenograft study, tumor augmentation induced by VEGF overexpression was almost abolished by means of KDR/Flk-1mAb treatment, with accompanying inhibition of angiogenesis, KDR/Flk-1 autophosphorylation, but not interference of flt-1 activation. This inhibitory effect was achieved even on established tumors and regardless of whether the tumor size was small or large. On the contrary, KDR/Flk-1mAb treatment significantly increased the apoptosis in the tumor. With orthotopic transplantation, KDR/Flk-1mAb also inhibited HCC development in the liver. These results suggest that KDR/Flk-1 is a major regulator of VEGF-mediated HCC development and angiogenesis not only at the initial stage, but also after the tumor has fully developed.
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PMID:KDR/Flk-1 is a major regulator of vascular endothelial growth factor-induced tumor development and angiogenesis in murine hepatocellular carcinoma cells. 1053 39

Angiotensin-II (AT-II), which is produced mainly by the renin-angiotensin system (RAS), has been shown to stimulate neovascularization. AT-II induces vascular endothelial growth factor (VEGF), which plays a pivotal role in tumor angiogenesis. The role of AT-II, however, in VEGF-mediated tumor development has not yet been elucidated. We examined the effect of RAS inhibition by angiotensin-I converting enzyme (ACE) inhibitor on VEGF-mediated tumor development and angiogenesis in a murine experimental model using a retroviral tetracycline-regulated (Retro-Tet) gene expression system. This system allows VEGF gene expression to be manipulated in vivo by providing tetracycline in the drinking water. In an allograft study, the ACE inhibitor, perindopril (PE) significantly attenuated VEGF-mediated tumor development accompanying the suppression of neovascularization in the tumor at a clinically comparable low dose. In vitro study showed that perindoprilat, which is an active form of PE, inhibited VEGF-induced endothelial cell migration. These results suggested that RAS played an important role in VEGF-mediated tumor development and angiogenesis.
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PMID:Suppression of the renin-angiotensin system attenuates vascular endothelial growth factor-mediated tumor development and angiogenesis in murine hepatocellular carcinoma cells. 1201 3

Angiogenic activity and formation of a vascular network facilitate tumor perfusion and play a critical role in tumor growth and metastasis. Tumor vasculature may be visualized by means of parametric imaging of specific morphological and physiological characteristics that collectively describe its properties. In this review, we describe advanced magnetic resonance imaging (MRI) techniques that have been developed in order to image and quantify the distribution of tumor vasculature throughout the tumor and characterize its function. These techniques have been used to monitor changes in the magnetic resonance signal intensity of tissue water hydrogens generated by intrinsic effects, as well as by exogenous contrast agents administered into the blood circulation. We further describe specific applications of magnetic resonance imaging using a contrast agent, gadolinium diethylene triamine penta-acetic acid (GdDTPA), which has long been approved for clinical use. Examples include studies of the vascular properties of breast cancer tumors and metastases in animal models, as well as of breast cancer vasculature in patients. We also discuss the use of MRI to improve breast cancer diagnosis in humans by quantifying the permeability of the tumor vasculature. By maximizing the spatial resolution of the images in both animal and human studies, the capacity of magnetic resonance imaging to enhance our understanding of the processes regulating tumor angiogenesis, and improve the diagnosis of cancer, could be clearly demonstrated.
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PMID:Magnetic resonance imaging of tumor vasculature. 1254 Sep 50

Breast cancer is significantly less prevalent among Asian women, whose diets contain high intake of soy products and tea. The objective of our present study was to identify the combined effects of dietary soy phytochemicals and tea components on breast tumor progression in a clinically relevant in vivo model of MCF-7 androgen-dependent human breast tumor in female SCID mice. MCF-7 tumor growth, tumor cell proliferation and apoptosis, microvessel density, and expressions of tumor estrogen receptors were compared in mice treated with genistin-rich soy isoflavones (GSI), soy phytochemical concentrate (SPC), black tea (BT), green tea (GT), SPC/BT combination and SPC/GT combination. GSI and SPC led to dose-dependent inhibition of MCF-7 tumor growth via inhibition of cancer cell proliferation in vivo. GT showed more potent anti-breast tumor activity than BT. GT infusion at 1.5 g tealeaf/100 mL water produced significant (p < 0.05) reductions of 56% in final tumor weight. GT plus SPC at 0.1% of the diet further reduced final tumor weight by 72% (p < 0.005). Analysis of serum and tumor biomarkers showed that the combined effects of SPC and GT inhibited tumor angiogenesis, and reduced estrogen receptor (ER)-alpha and serum levels of insulin-like growth factor (IGF)-I. Our study suggests that dietary SPC plus GT may be used as a potential effective dietary regimen for inhibiting progression of estrogen-dependent breast cancer.
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PMID:Combined inhibition of estrogen-dependent human breast carcinoma by soy and tea bioactive components in mice. 1461 9

Angiostatin, a proteolytic fragment of plasminogen consisting of the first 3 or 4 kringle domains, reduces tumor growth by specifically inhibiting tumor angiogenesis. Angiostatin is generated in vitro in a 2-step process. First, plasminogen is converted to plasmin by plasminogen activators. Next, plasmin excises the angiostatin fragment from plasminogen, a process requiring molecules that are able to donate a free sulfhydryl group. In this study, we investigated whether stimulation of in vivo angiostatin generation by administration of plasminogen activator and a free sulfhydryl group donor (FSD) has anti-tumor activity. First, we determined the optimal conditions for in vitro angiostatin generation by incubating murine plasma with different concentrations of plasminogen activator and/or the FSD captopril. Angiostatin generation was monitored by western blot analysis. Our results were extrapolated to the in vivo situation by administering the optimal dose of tissue-type plasminogen activator (tPA, i.v. injection 3 times/week) and captopril (in drinking water) to mice and analyzing the presence of angiostatin in the circulation. Angiostatin was readily detectable in mice receiving both tPA and captopril, but not in mice receiving either one of the agents. Finally, the anti-tumor activity of the tPA/captopril treatment was tested in a human melanoma xenograft model. Administration of tPA alone had only a marginal effect on tumor growth. Captopril alone reduced tumor growth by about 60%, whereas treatment with both captopril and tPA resulted in 83% inhibition of tumor growth.
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PMID:Anti-tumor activity of a combination of plasminogen activator and captopril in a human melanoma xenograft model. 1535 48


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