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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An attractive strategy for the therapy of carcinomas and other solid tumors would be to target cytotoxic agents or host immune effectors to the endothelial cells of the tumor vasculature rather than to the tumor cells themselves. The key advantage of this approach is that the endothelial cells are freely accessible through the blood whereas the tumor cells are, for the most part, inaccessible. Also, endothelial cells are similar in different tumors, making it feasible to develop a single reagent for treating numerous types of cancer. In this chapter, we review progress in this "vascular targeting" approach, from the validation of the concept in a mouse model to the characterization of the TEC-11 antibody against endoglin, an endothelial cell proliferation marker that is upregulated on endothelial cells in miscellaneous human solid tumors. In addition, we review other tumor endothelial cell markers that are candidates for vascular targeting in man.
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PMID:Antibody-directed targeting of the vasculature of solid tumors. 887 33

C-26 colon adenocarcinoma cells transduced with the granulocyte colony-stimulating factor (G-CSF) gene form large tumors when injected into sublethally irradiated mice. These tumors regress when leukocyte function is reconstituted. Electron microscopy and immunocytochemical analysis of regressing C-26/G-CSF nodules indicates that tumor destruction is due mainly to hypoxia resulting from the functional loss of tumor vasculature and is only marginally due to direct cytolysis. Desegregation of basal lamina, cell swelling, and loss of junctions characterized the vessels within regressing tumors. Tumor cells were necrotic or filled with lipid vacuoles regardless of the distance from nearby vessels. Damage of tumor vasculature was dependent on the infiltrating leukocytes and the cytotoxic cytokines they produced. Locally produced interleukin-1 and tumor necrosis factor-alpha (TNF-alpha) induced vascular cellular adhesion molecule-1 (VCAM-1) and E-selectin on tumor vessels. Treatment with monoclonal antibodies to interferon-gamma (IFN-gamma) or TNF-alpha blocked tumor regression by inhibiting VCAM-1 and E-selectin expression on tumor-associated endothelial cells resulting in a reduced number of infiltrating leukocytes. Thus, C-26/G-CSF tumor regression presents features typical of hemorrhagic necrosis that occurs through the cytokines produced by infiltrating leukocytes in response to G-CSF.
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PMID:Hypoxic tumor cell death and modulation of endothelial adhesion molecules in the regression of granulocyte colony-stimulating factor-transduced tumors. 857 10

The modification of tumor blood flow resulting from administration of endothelin-1 (ET-1) and sarafotoxin S6c (SX6c) was examined in female CBH rats. Blood flow in subcutaneous HSN tumors and normal tissues was measured by tissue uptake of 125I-labeled iodoantipyrine ([125I])IAP). A 75% increase in tumor blood flow was observed after 1 nM/kg ET-1, contrasting with flow in normal tissue, which was unaffected or reduced. The exception to this was the brain, in which blood flow was increased by 30%, resulting from a rise in mean arterial blood pressure (MABP) and the absence of vasoconstriction. Paradoxically, a significant drop in the tumor vascular resistance was observed after 1 nM/kg ET-1, whereas in all other tissues the vascular resistance was significantly increased. Vascular responses to SX6c differed from those observed with ET-1. At 1 nM/kg SX6c, blood flow in the tumor was increased to 175% of the control as a result of the increase in MABP, which was similar to ET-1. However, unlike ET-1, there was no associated vasodilatation. Vascular resistance was increased in all normal tissues with 1 nM/kg SX6c, corresponding to decreases in blood flow in the contralateral skin, skeletal muscle, and small intestine. This study therefore demonstrates that the vascular responses to ET-1 and SX6c are unique in the HSN tumor compared to normal tissues. This atypical response of the tumor vasculature may therefore be exploitable to improve the delivery of blood-borne anti-cancer agents in therapy.
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PMID:Effect of endothelin-1 and sarafotoxin S6c on blood flow in a rat tumor. 858 70

The angiogenic phenotype is associated with hyperpermeable capillaries. Through treatment with angiogenesis inhibitors capillary permeability may be reduced, and it can be anticipated that cytotoxic agents coadministered may be adversely affected. The current investigation examined this possibility for the combination of TNP-470, an angiogenesis inhibitor, and temozolomide (TMZ), a DNA-alkylating agent with demonstrated activity in brain tumors. TNP-470 (30 mg/kg) was given s.c. on days 6, 8, 10, 12, and 14 following s.c. implantation of rat C6 glioma cells in Sprague-Dawley rats. On the 15th day following tumor implantation, control (no TNP-470) and treated rats received 40 mg/kg of TMZ intraarterially. Prior to dosing, a linear microdialysis probe was placed in the tumor to collect interstitial fluid. Plasma and interstitial fluid samples were collected for 8 h and measured for TMZ by a high-performance liquid chromatography assay. Pharmacokinetic parameters for TMZ were calculated by noncompartmental methods. Total systemic clearance (39.8 +/- 7 versus 44.2 +/- 14 ml min(-1) kg(-1)) and volume of distribution (5.4 +/- 2 versus 5.2 +/- 0.8 L kg(-1)) were not significantly different in control and TNP-470-treated animals. However, the mean TMZ area under the interstitial fluid concentration-time curve was reduced by 25% in the TNP-470-treated group compared to the control (5450 +/- 1892 versus 4120 +/- 1790 micrograms min ml(-1); P < 0.05). It appears that TNP-470 caused this reduction in the tumor uptake of TMZ by its pharmacodynamic action on the tumor vasculature. Since combination regimens using angiogenesis inhibitors and cytotoxic drugs will be needed to determine how such combinations can be used effectively. The current animal model, which utilized tumor microdialysis, can serve as a model to further analyze combination chemotherapy.
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PMID:Uptake of temozolomide in a rat glioma model in the presence and absence of the angiogenesis inhibitor TNP-470. 861 36

The diagnostic value of fluorescein angiography (FA) in the evaluation of small suspected choroidal melanomas is limited. Indocyanine green videoangiography (ICGV) has overcome some of the problems of FA in the imaging of normal and abnormal choroidal vessels. This study was performed to reveal the role of ICGV in the detection of the intrinsic tumor vasculature of choroidal malignant melanomas. A total of 24 patients with posterior-segment malignant melanoma underwent FA and ICGV using the scanning laser ophthalmoscope. All patients were grouped into 1 of 2 categories, depending on the tumor elevation: group I 10 patients with lesions elevated to < 4 mm, and group II 14 patients with lesions measuring > 4 and < 8 mm in height. On early frames of the ICGV the borders of the tumors were better demarcated from the background and the tumors appeared larger in the basal dimension than with FA or clinical examination. ICGV was superior to standard FA in imaging intrinsic tumor vasculature. Abnormal vasculature features included different caliber size, tortuosities, corkscrew loops, irregular ramifications, and irregular staining of the vessel walls. These intrinsic tumor vessels were identified in 6 of 10 patients from group I and in 12 of 14 patients from group II. ICGV appears to add some information in the diagnosis and documentation of tumor growth. It may allow detection of pathologic tumor vessels that cannot be detected by standard FA. The borders of the tumor are better demarcated against the background by ICGV than by FA or clinical examination.
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PMID:Indocyanine green videoangiography of malignant melanomas of the choroid using the scanning laser ophthalmoscope. 864 81

A comparison was made of photodynamic therapy (PDT) mediated by two photosensitizers, the disulfonated aluminum phthalocyanine (AlPcS2) and Photofrin* (PII) with regard to their mechanism of action on murine tumors. Balb/c mice bearing intradermally growing EMT-6 tumors were injected intravenously with either 1 mumol kg-1 body weight of AlPcS2 or 5 mg/kg of PII 24 h prior to red light irradiation from a Xenon lamp (650-700 nm, 200 mW cm-2, for AlPcS2 and 600-650 nm, 400 J cm-2 for PII. Tumor cell survival following in vivo PDT was determined by an in vitro clonogenicity assay on the dissociated tumors. Immediately after the completion of light irradiation, a reduction of approximately 72% in the number of clonogenic cells was seen with AlPcS2-treated tumor versus approximately 24% of that for PII-treated tumor. Further loss of clonogenic cell survival progressed as a function of time following PDT, and was considered to be the consequence of indirect PDT action, however, the decline in cell viability was steeper in the first 6 h with PII-PDT than with AlPcS2-PDT. 24 h after PDT, the clonogenic capacity of both AlPcS2-and PII-PDT treated tumor fell to approximately 3% of the control tumor. The PDT effect on tumor blood flow as a measure of the tumor vascular damage was monitored by the retention of 99mTc-MIBI in the tumor. Little effect on tumor blood flow was seen with AlPcS2-PDT at 0 h after the completion of light treatment. Thereafter the blood flow declined slowly and remained at approximately 50% the level of the control by 24 h post-PDT. In contrast, PII provoked a approximately 40% reduction of tumor blood flow immediately after the completion of photo irradiation, which then fell to approximately 20% within 2 h and approximately 7% by 24 h post-PDT. These results indicate the involvement of both direct and indirect mechanisms in the PDT induced tumor necrosis. However, AlPcS2-PDT exerted a larger direct tumor cell phototoxic effect, whereas PII-PDT induced tumor cell death to a greater extent via an indirect effect that parallels the extensive damage to the tumor vasculature.
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PMID:Evidence for different mechanisms of EMT-6 tumor necrosis by photodynamic therapy with disulfonated aluminum phthalocyanine or photofrin: tumor cell survival and blood flow. 871 17

Localization of activated natural killer (A-NK) cells in the microvasculature of growing tumors is the result of recognition of the intracellular and vascular cell-adhesion molecules ICAM-1 and VCAM-1 on the tumor endothelium, mediated by lymphocyte function-associated protein LFA-1 and vascular lymphocyte function-associated protein VLA-4. In vitro and in vivo studies of A-NK cell adhesion to endothelial cells showed that vascular endothelial growth factor (VEGF) promotes adhesion, whereas basic fibroblast growth factor (bFGF) inhibits adhesion through the regulation of these molecules on tumor vasculature. Thus, some angiogenic factors may facilitate lymphocyte recognition of angiogenic vessels, whereas others may provide such vessels with a mechanism that protects them from cytotoxic lymphocytes.
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PMID:During angiogenesis, vascular endothelial growth factor and basic fibroblast growth factor regulate natural killer cell adhesion to tumor endothelium. 878 49

Due to the high permeability of tumor vessels to fluids and plasma proteins, the microvascular pressure (MVP) is the principal driving force for interstitial hypertension in solid tumors; as a result, hydrostatic pressures between the microvascular and interstitial space are close to equilibrium. Based on these observations, we hypothesized that the tumor interstitial fluid pressure (IFP) should increase following the onset of angiogenesis. To this end, the relationship between IFP and tumor neovascularization was determined in the human colon adenocarcinoma (LS174T) and the murine carcinoma (MCaIV) implanted in a transparent dorsal skin fold chamber in severe combined immunodeficient mice. Three stages in the development of the tumor neovasculature were characterized by intravital microscopy. Stage I tumors were avascular, stage II was characterized by vascular sprouts and loops, and in stage III, the tumor vasculature was completely developed and blood flow was obvious. The IFP was measured with micropipettes and a servo-null system. For both tumor types, the IFP in stage I tumors was close to 0 mm Hg, and IFP increased significantly from one stage to the next. To further confirm that interstitial hypertension was associated with the development of the tumor vasculature, IFP was measured in LS174T spheroids. The mean pressure in spheroids was 0.2 +/- 0.3 mm Hg. In stage III tumors, the IFP was compared to the MVP. In MCaIV, the MVP was comparable to the IFP; however, in LS174T the MVP was significantly higher than the IFP. In conclusion, the results demonstrate that avascular tumors have atmospheric pressures and that tumor interstitial hypertension is associated with the development of the neovasculature.
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PMID:Tumor angiogenesis and interstitial hypertension. 879 2

Tumor blood flow (TBF) is characterized by spatial and temporal heterogeneities. Despite the crucial role of TBF in tumor growth, metastasis, and therapy, the mechanisms underlying these heterogeneities are not fully understood. Tumor vessels are, in general, more leaky than normal vessels and this may enhance the efficiency of fluid exchange between the vascular and the interstitial space. The coupling between transvascular fluid exchange and hemodynamics in tumors has not been explored previously. To investigate the role of transvascular fluid exchange on afferent and efferent blood flow, we modeled the tumor vasculature as an equivalent single vessel which is permeable and deformable and embedded in a fluid medium with uniform pressure. Simulations were carried out to examine the effects of vessel leakiness, vessel compliance, and interstitial fluid pressure on (a) pressure-flow relationship, (b) arterial-venous pressure relationship, and (c) pressure profile along the vessel. Experiments suggested by model simulations required an independent control of arterial and venous pressure and tumor blood flow. To this end, we perfused tissue-isolated tumors ex vivo and obtained data on perfusate flow rate vs arterial and venous pressures. The simulations predicted the following trends as a result of an enhanced fluid filtration across the vessel wall: (a) for a fixed arterial-venous pressure difference, efferent flow decreases with increasing venous pressure, (b) changes in venous pressure are not completely transmitted to the arterial side, and (c) the pressure profile along the vessel becomes less steep. The experimental results confirmed these trends and indicated that vascular and interstitial flow are coupled in isolated tumors. The implications of this coupling for the spatial and temporal heterogeneity in TBF are discussed.
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PMID:Effect of transvascular fluid exchange on pressure-flow relationship in tumors: a proposed mechanism for tumor blood flow heterogeneity. 881 51

Endothelial injury of the tumor microvasculature after isolated limb perfusion (ILP) with TNF-alpha and melphalan is considered to play an important role in the pathogenesis of tumor necrosis. It is thought to follow endothelial cell activation and subsequent attraction of polymorphonuclear cells (PMNs). The observed selectivity for the tumor could be due to preferential overexpression of cell-adhesion molecules by the tumor vasculature. We tested this proposition by analyzing sequential biopsies from both tumor and normal distant skin, taken from melanoma and sarcoma patients before ILP and at 30 min and 24 h after ILP. Histopathologically confirmed complete response was observed in six of seven melanoma patients, 1-8 months after ILP. By using immunohistochemistry on the light- and electron-microscopic level, the expression patterns of intercellular adhesion molecules-1 (ICAM-1), E-selectin (ELAM-1), VCAM-1, and PECAM-l were examined. In addition, the results were compared with the effects on HUVECs (human umbilical vein endothelial cells) in vitro of transient exposure of the agents used during ILP. ICAM-1 and PECAM-1 were constitutively expressed on vascular endothelial cells, both in normal tissues and in the tumor lesions. In biopsies taken 30 min after termination of the perfusion, a moderate induction of E-selectin expression on the vascular endothelium in the tumors and a marked expression on the vasculature in the perfused normal skin were observed. It decreased within 24 h after perfusion in both normal skin and in the tumor. The upregulation of E-selectin was accompanied neither by an influx of neutrophils nor by hemorrhagic necrosis. There were no drastic changes in the expression of VCAM-1, ICAM-1, or PECAM- 1. These findings imply that the upregulation of E-selectin after ILP is not restrfcted to the tumor microvasculature and that, therefore, these microvascular events seem not to be the decisive pathomechanism responsible for tumor regression.
J Immunother Emphasis Tumor Immunol 1996 Jan
PMID:Transient induction of E-selectin expression following TNF alpha-based isolated limb perfusion in melanoma and sarcoma patients is not tumor specific. 885 22


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