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Query: UMLS:C1522282 (
EMT
)
2,868
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
.
...
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
We have reported previously that topical administration of vascular endothelial growth factor165 (VEGF) to a microvascular bed supplied with a continuous endothelium can rapidly induce the formation of endothelial fenestrations (W. G. Roberts and G. E. Palade, J. Cell Sci., 108: 2369-2379, 1995). From these results, we hypothesized that
tumor vasculature
, in general, may also be fenestrated because it has been reported that tumor secretion of VEGF causes the surrounding host vasculature to invade and feed the growing tumor. Using electron microscopy to characterize the endothelial cell morphology in tumor vessels from either the periphery or the core of the tumor and immunoblotting to detect secreted VEGF, we analyzed the vasculature of human and murine neoplastic tumors grown s.c. in male nude mice. To clarify the role of VEGF165 two models were used: (a) Chinese hamster ovary (CHO) cells stably transfected with hu VEGF165 and injected into mice (VEGF:CHO tumors); and (b) slow-release pellets containing purified VEGF or basic fibroblast growth factor implanted on the rat cremaster muscle. All tumors had vessels with fenestrated endothelium, open interendothelial junctions, and clustered fused caveolae. From all of the peripheral tumor vessels observed, fenestrated endothelium was observed in 41% from
EMT
, 35% from M1S, 37% from U87, and 56% from VEGF:CHO tumors, whereas surrounding skin and muscle, from which tumor vessels were derived, had fenestrated endothelium in 2 and 0% of all vessels, respectively. Additionally, further analysis revealed a substantial decrease in the anionic glycocalyx on the luminal face of the fenestral diaphragms in endothelium from tumors (especially VEGF:CHO) when compared to intestine or pancreas. Because the host tissue microvascular endothelium which supplies the tumor is not fenestrated, tumors can transform nonproliferating, nonfenestrated vessels into proliferating vessels, many of which have fenestrated endothelium. These data provide evidence that chronic VEGF exposure can induce fenestrations in nonfenestrated endothelium similar to the fenestrated endothelium found in tumor vessels.
...
PMID:Neovasculature induced by vascular endothelial growth factor is fenestrated. 904 58
We have previously demonstrated that vascular endothelial growth factor-165 (VEGF), a tumor-secreted angiogenic factor, can acutely and chronically induce fenestrations in microvascular endothelium (Cancer Res 1997, 57:765-772). Because the morphology and function of microvascular endothelium differs from tissue to tissue, we undertook studies to examine whether the neovasculature in tumors also differed depending upon tumor location. Four tumor types implanted in the brain or subcutis in nude mice were studied: a murine rhabdomyosarcoma (M1S), a murine mammary carcinoma (
EMT
), and two human glioblastomas (U87 and U251). In addition, we studied Chinese hamster ovary cells stably transfected with human VEGF165. As previously reported, tumors grown in the subcutaneous space had a microvasculature that was fenestrated and had open endothelial gaps. The identical tumors when grown in the brain also had fenestrated endothelium and vessels with open endothelial gaps, but they were drastically reduced in occurrence. Open endothelial gaps were not seen in all tumors implanted in the brain (
EMT
and M1S), although fenestrated endothelium was always seen. VEGF and VEGF receptors were measured in tumors from both locations by immunoblotting and competitive polymerase chain reaction, respectively. VEGF amount was not significantly different between the tumor locations. Interestingly, total tumor vascular mRNA expression of both Flk-1 and Flt-1 was greater in tumor vessels derived from the brain compared with tumor vessels derived from subcutaneous tissues. These results demonstrate that the host microvascular environment determines the morphology and function of the
tumor vasculature
and that endothelia from different tissues vary in their ability to express the VEGF receptors given identical stimuli.
...
PMID:Host microvasculature influence on tumor vascular morphology and endothelial gene expression. 977 55
