An ex vivo model for functional studies of myofibroblasts.
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Migration, proliferation and invasive growth of myofibroblasts are key cellular events during formation of granulation tissue in situations of wound healing, arteriosclerosis and tumor growth. To study the invasive phenotype of myofibroblasts, we established an assay where arterial tissue from chicken embryos was embedded in fibrin gels and stimulated with growth factors. Addition of serum, PDGF-BB and FGF-2, but not VEGF-A, resulted in an outgrowth of cellular sprouts with a pattern that was similar to the organization of cells invading a provisional matrix in an in vivo model of wound healing using the chicken chorioallantoic membrane. Sprouting cells were defined as myofibroblasts based on being alpha-smooth muscle actin-positive but desmin-negative. There was no contribution of endothelial cells in outgrowing sprouts. The acquired myofibroblastic phenotype was stable since sprout-derived cells resumed sprouting in a growth factor-independent manner when re-embedded as spheroids in a fibrin matrix. Invasive growth and sprouting of vascular smooth muscle cells was not limited to chicken cells since a similar response was seen when spheroids composed of purified primary human aortic smooth muscle cells were embedded in fibrin. Finally, a technique for flat visualization of the three-dimensional sprouting and a quantification method is described. This ex vivo model allows quantitative analysis of invasive growth and differentiation of vascular smooth muscle cells and fibroblasts into myofibroblasts. (+info)
Tid-1 interacts with the von Hippel-Lindau protein and modulates angiogenesis by destabilization of HIF-1alpha.
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The von Hippel-Lindau protein (pVHL) is a major tumor suppressor protein and also associated with the inhibition of angiogenesis via HIF-1alpha ubiquitination and proteasomal degradation. To further elucidate the biological activity of pVHL in angiogenesis, pVHL-interacting proteins were screened using the yeast two-hybrid system. We found that a mouse homologue of the long form of Drosophila tumor suppressor l(2)tid, Tid-1(L), directly interacts with pVHL in vitro and in vivo. Furthermore, Tid-1(L) protein; enhanced the interaction between HIF-1alpha and pVHL, leading to the destabilization of HIF-1alpha protein; therefore, Tid-1(L) protein decreased vascular endothelial growth factor expression and inhibited angiogenesis in vivo and in vitro. These findings propose that Tid-1(L) may play a critical role in pVHL-mediated tumor suppression by modulating the pVHL-dependent HIF-1alpha stability. (+info)
Antiangiogenesis and anticancer efficacy of TA138, a novel alphavbeta3 antagonist.
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BACKGROUND: Angiogenesis is a complex process involving endothelial cell migration, proliferation, invasion, and tube formation. Inhibition of these processes might have implications in various angiogenesis-mediated disorders. MATERIALS AND METHODS: The antiangiogenic efficacy of the novel alphavbeta3 antagonist TA138 was examined using in vivo and in vitro model systems. RESULTS: The in vitro studies demonstrated the ability of TA138 and RP747 (conjugated TA138) to inhibit endothelial cell migration toward vitronectin, with an IC50=0.04 and 0.045 microM, respectively. Furthermore, utilizing the chick chorioallantoic membrane models, TA138 inhibited basic fibroblast growth factor-induced neovascularization. CONCLUSION: TA138 might be a useful tool for the inhibition of angiogenesis associated with human tumor growth, or other pathological neovascularization processes. RP747 demonstrated antitumor efficacy in 1 spontaneous tumor model (c-neu oncomouse model, alphavbeta3 positive cells) and in 1 xenograft model (HCT116 human tumor colon carcinoma, alphavbeta3 negative cells) injected subcutaneously into nude mice. (+info)
Digoxin inhibits neuroblastoma tumor growth in mice.
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BACKGROUND: Epidemiological data suggest a more favorable outcome of breast carcinoma in women taking cardiac glycosides. This study investigated whether digoxin could inhibit tumor growth in mice. MATERIALS AND METHODS: Tumor growth experiments were done in mice grafted with the neuroblastoma cell lines SH-SY5Y, Neuro-2a, colonic cancer cells (LS174T) or Lewis lung cancer cells (LLC). Angiogenesis inhibition was investigated in vitro on fibroblast growth factor-2 (FGF-2)-stimulated bovine endothelial cell (BCE) growth and in vivo in the chick chorioallantoic membrane (CAM) assay. RESULTS: SH-SY5Y and Neuro-2a grafts were inhibited by 44% (p=0.008) and 19% (p=0.007), respectively, whereas the colonic cancer xenografts and LLC syngrafts were less responsive. The neuroblastoma specificity was confirmed in vitro. Digoxin also inhibited angiogenesis in the CAM assay and the BCE cell survival in vitro was 50% at 53 ng/ml. CONCLUSION: Our data suggest that digoxin may be a specific neuroblastoma growth inhibitor and an unspecific inhibitor of angiogenesis. (+info)
Irradiation dose-response effects on angiogenesis and involvement of nitric oxide.
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BACKGROUND: Recent results implicate nitric oxide (NO) in the irradiation-induced perturbation of angiogenic mechanisms. We have previously shown, using the chick embryo chorioallantoic membrane (CAM) and a dose of 10 Gy, that the NO pathway is involved in X-ray-induced anti-angiogenicity. In the current study, we investigated the implication of NO in the effects of various doses (2-15 Gy) of irradiation on angiogenesis. MATERIALS AND METHODS: X-irradiation, NO synthase inhibitors, NO releasing agent and the in vivo CAM angiogenesis model (disc and ring method) were used. The CAM areas were irradiated on the 9th or the 14th day of embryo development and the vascular density was determined morphologically. RESULTS: Doses up to 5 Gy resulted in dose-dependent reduction of vascular density, whereas the NO synthase inhibitors, added immediately post-irradiation, protected the 9-day CAM from the above anti-angiogenic effects of irradiation. NO donor, under certain circumstances potentiated the effects of X-rays when applied to the 9-day CAM using the ring method. CONCLUSION: These results confirm the implication of NO in the anti-angiogenic mechanism of X-rays and describe the dose-response pattern of NO involvement in this action. (+info)
Circulating plasma vascular endothelial growth factor in mice bearing human ovarian carcinoma xenograft correlates with tumor progression and response to therapy.
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Vascular endothelial growth factor (VEGF) performs as an angiogenic and permeability factor in ovarian cancer, and its overexpression has been associated with poor prognosis. However, models to study its role as a marker of tumor progression are lacking. We generated xenograft variants derived from the A2780 human ovarian carcinoma (1A9), stably transfected with VEGF(121) in sense (1A9-VS-1) and antisense orientation (1A9-VAS-3). 1A9, 1A9-VS-1, and 1A9-VAS-3 disseminated in the peritoneal cavity of nude mice, but only 1A9-VS-1, the VEGF(121)-overexpressing tumor variant, produced ascites. Tumor biopsies from 1A9-VS-1 showed alterations in the vascular pattern and caused an angiogenic response in the chorioallantoic membrane assay. A significant level of soluble VEGF was detectable in the plasma of mice bearing 1A9-VS-1 even at an early stage of tumor growth. Plasma VEGF correlated positively with tumor burden in the peritoneal cavity and ascites accumulation. Cisplatin reduced the tumor burden and ascites in mice bearing 1A9-VS-1; the response was associated with a significant decrease of VEGF in plasma. This 1A9-VS-1 xenograft model reproduces the behavior of human ovarian cancer by growing in the peritoneal cavity, being highly malignant, and producing ascites. Plasma VEGF as a marker of tumor progression offers a valuable means of detecting early tumor response and following up treatments in an animal model. (+info)
Transport of hypericin across chick chorioallantoic membrane and photodynamic therapy vasculature assessment.
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This study examined the transport of a photosensitizer (hypericin, HY) using the chick chorioallantoic membrane (CAM) as a model of transport after topical administration. The model correlates both the photosensitizer uptake and anti-vasculature effects after photodynamic therapy (PDT). HY formulations were prepared using N-methyl pyrrolidone (NMP) as a solvent and penetration enhancer. Fertilized chicken eggs were disinfected and incubated at 37.4 degrees C and 60% humidity. Formulations were applied on CAM and incubated for 30 min in the dark. Subsequently, the solutions were removed from the CAM surface and the HY concentration was determined. The CAM was exposed to a fixed light dose of 10 J/cm2 at 50 mW/cm2. The vascular damage induced by the light was quantitatively measured using image-processing techniques. The uptake ratio of HY in 4.8% NMP (HD group) to that of 0.6% NMP (LD group) was found to be 1.96. This ratio is correlated with the vascular damage caused by the PDT effect of HY. The HD treated CAM showed a vessel regression that was 2.37 times higher than that of LD treated CAM. This paper reports the first attempt to develop a quantitative transport study for HY using CAM and to explore the relationship between the vascular regression and amount of drug of uptake. The model has potential for other similar transport studies. (+info)
Chick chorioallantoic membrane as an in vivo model to study vasoreactivity: characterization of development-dependent hyperemia induced by epoxyeicosatrienoic acids (EETs).
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Shell-less culture of chick chorioallantoic membrane (CAM) of developing chicken embryos is a useful model to evaluate the effects of vascular agents. We assessed the response of CAM vessels to epoxyeicosatrienoic acids (EETs), derivatives of the essential fatty acid arachidonic acid, that have a number of important biological functions, including dilation of microvessels in the coronary, cerebral, renal, and mesenteric circulations. Three of four regioisomers of EETs, 14,15-, 11,12-, and 8,9-EET, induced a characteristic dose-dependent acute hyperemia within 4 min after application on 10-day-old CAMs. This response was marked in early stages of development (between days 8 and 10), but the frequency and intensity of the response were reduced after 11 days of development. Histological examination demonstrated that the hyperemia was not due to extravasation of erythrocytes. However, many capillaries were distended and contained densely packed erythrocytes as compared to uniformly arranged vessels and erythrocytes in untreated CAMs. Transmission electron microscopy showed the basal laminae surrounding capillaries remained intact, similar to those in vehicle-treated or untreated CAM tissue. The hyperemia was specific to EETs since we did not observe it to be induced by other vasodilators such as nitric oxide or prostacyclin. In conclusion, we report a novel vascular response to EETs using the CAM as an in vivo model. These lipids specifically distend a subset of capillaries in a dose- and development-dependent manner. (+info)