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Query: UMLS:C1658953 (
tumor vasculature
)
2,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
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
Prevention of tumor-associated blood vessel formation (angiogenesis) is a potentially powerful strategy to treat cancer. We found that tumor vascular endothelial cells were rearranged in vitro with conditioned culture medium derived from tumor cells and compared the sensitivity to the effects of
TNF-alpha
between normal and tumor endothelial cells. Incubation with tumor (Meth-A, Colon26)-derived conditioned medium showed that no effect was observed on cell growth. Tumor cells (Meth-A, Colon26, and B16BL6) only showed no sensitivity to
TNF-alpha
. Normal and control endothelial cells in culture showed little cytotoxicity in response to
TNF-alpha
treatment, but marked cytotoxicity of
TNF-alpha
was observed in endothelial cells cultured with tumor-derived conditioned medium. Sensitivity to
TNF-alpha
was different depending on the type of tumor from which the conditioned medium was derived. This difference in sensitivity was assumed to be due to the in vivo sensitivity to
TNF-alpha
. The results of this study suggested that the sensitivity of tumors to
TNF-alpha
is controlled by the sensitivity of
tumor vasculature
.
...
PMID:In vitro remodeling of tumor vascular endothelial cells using conditioned medium from various tumor cells and their sensitivity to TNF-alpha. 1067 87
NGR-TNF is a derivative of
TNF-alpha
, consisting of TNF fused to CNGRCG, a
tumor vasculature
-targeting peptide. Previous studies showed that NGR-TNF can exert synergistic antitumor effects with doxorubicin and with other chemotherapeutic drugs in murine models. In this study, we have investigated the role of endogenous IFN-gamma on the antitumor activity of NGR-TNF in combination with doxorubicin. The study was carried out using murine B16F1 melanoma and TS/A mammary adenocarcinoma implanted subcutaneously in (a) immunocompetent mice, (b) athymic nude mice, and (c) IFN-gamma-knockout mice. Synergism between NGR-TNF and doxorubicin was observed in immunocompetent mice but not in nude or IFN-gamma-knockout mice. Preadministration of a neutralizing anti-IFN-gamma antibody to immunocompetent mice inhibited the NGR-TNF/doxorubicin synergism, whereas administration of IFN-gamma to nude and to IFN-gamma-knockout mice restored the synergistic activity. The synergism in nude mice was restored also by transfecting tumor cells with the IFN-gamma cDNA. Administration of NGR-TNF in combination with IFN-gamma to nude mice, but not of NGR-TNF alone, doubled the penetration of doxorubicin in TS/A tumors. These findings point to a crucial role for locally produced IFN-gamma in tumor vascular targeting with NGR-TNF and doxorubicin. Finally, addition of IFN-gamma to the treatment of immunocompetent mice with NGR-TNF/doxorubicin induced only modest improvement in response, suggesting that exogenous IFN-gamma can improve the therapeutic activity of these drugs only in case of suboptimal production of endogenous IFN-gamma.
...
PMID:Crucial role for interferon gamma in the synergism between tumor vasculature-targeted tumor necrosis factor alpha (NGR-TNF) and doxorubicin. 1546 13
The
tumor vasculature
is a suitable target for cancer treatment. RGD-4C (CDCRGDCFC) peptide can bind to human alphav integrins, which are known to be selectively expressed in human tumor blood vessels. Some studies showed that coupling anticancer drugs or peptides to the RGD peptides yielded compounds with increased efficacy against tumors and lowered toxicity to normal tissues in mice.
TNF-alpha
mutant (rmhTNF-alpha) that we previously constructed has been proved to have stronger antitumor effect compared with
TNF-alpha
. To increase antitumor effect and lower toxicity of rmhTNF-alpha, we coupled RGD4C to the N-terminal of rmhTNF-alpha (termed RGD4C-rmhTNF) and expressed RGD4C-rmhTNF in Escherichia coli. Here, we describe the expression, purification, and characterization of RGD4C-rmhTNF.
...
PMID:Expression, purification, and characterization of a neovasculature targeted rmhTNF-alpha in Escherichia coli. 1602 6
TNF-alpha
may improve drug delivery to tumors by alteration of vascular permeability. However, toxicity precludes its systemic administration in patients. NGR-TNF comprises TNF coupled to the peptide CNGRC, which is a ligand for CD13. CD13 is expressed on
tumor vasculature
. Therefore, to assess the efficacy of NGR-TNF its biological effect on
tumor vasculature
should be measured rather than its effect on tumor growth. The aim of this study was to assess the effects of a low dose of NGR-TNF (5 ng/kg) on vascular permeability, tumor hypoxia, perfusion and proliferation in lymphoma bearing mice. MRI measurements with blood pool contrast agent showed an increased leakage of the contrast agent from the vasculature in NGR-TNF treated tumors compared with controls (p < 0.05), suggesting NGR-TNF-induced vascular permeability. Immunohistochemical analysis two hours after NGR-TNF treatment showed a decrease in tumor hypoxia (p < 0.1) and an increase in labeling index of the S-phase marker bromodeoxyuridine (p < 0.1), possibly due to an increase in tumor blood flow after NGR-TNF treatment. Although a decrease in tumor hypoxia and an increase in labeling index could have lead to increased tumor growth, in this experiment after one day a decrease in tumor volume was measured. Possibly, the effects on tumor hypoxia and proliferation two hours after treatment are transient and overruled by other, more longlasting effects. For example, the observed increase in vascular permeability may lead to haemoconcentration and increased interstitial pressure, ultimately resulting in an reduction of tumor blood flow and thus a decrease in tumor growth. A beneficial effect of NGR-TNF in combination with other therapeutical agents may therefore critically depend on the sequence and timing of the regimens. Currently, NGR-TNF is being tested in clinical studies.
...
PMID:Effects of the tumor vasculature targeting agent NGR-TNF on the tumor microenvironment in murine lymphomas. 1637 40
Treatment of tumor-bearing mice with mouse (m)
TNF-alpha
, targeted to
tumor vasculature
by the anti-ED-B fibronectin domain antibody L19(scFv) and combined with melphalan, induces a therapeutic immune response. Upon treatment, a highly efficient priming of CD4+ T cells and consequent activation and maturation of CD8+ CTL effectors is generated, as demonstrated by in vivo depletion and adoptive cell transfer experiments. Immunohistochemical analysis of the tumor tissue demonstrated massive infiltration of CD4+ and CD8+ T cells 6 days after treatment and much earlier in the anamnestic response to tumor challenge in cured mice. In fact, the curative treatment with L19mTNF-alpha and melphalan resulted in long-lasting antitumor immune memory, accompanied by a mixed Th1/Th2-type response and significant in vitro tumor-specific cytolytic activity. Finally, the combined treatment reduced the percentage and absolute number of CD4+CD25+ regulatory T cells in the tumor-draining lymph nodes of mice responding to therapy, and this was associated with the establishment of protective immunity. These findings pave the way for alternative therapeutic strategies based on the targeted delivery of biological and pharmacological cytotoxic compounds that not only kill most of the tumor cells but, more importantly, trigger an effective and long-lasting antitumor adaptive immune response.
...
PMID:Therapy-induced antitumor vaccination by targeting tumor necrosis factor alpha to tumor vessels in combination with melphalan. 1802 63
Vascular disrupting agents (VDAs) are a new class of potential anticancer drugs that selectively destroy
tumor vasculature
and shutdown blood supply to solid tumors, causing extensive tumor cell necrosis. VDAs target established tumor blood vessels, which are distinct from antiangiogenic agents that prevent the formation of new blood vessels. There are two types of VDAs, small molecules and ligand-directed agents. Most of the small molecule VDAs are tubulin inhibitors, including CA4P, ZD6126, AVE8062, OXi-4503, NPI-2358, MN-029 and EPC2407. The others are synthetic flavonoids including FAA and DMXAA that induce the production of local cytokines such as
TNF-alpha
. VDAs have shown good antitumor efficacy in animal models, especially in combination with established anticancer agents. Several VDAs, including CA4P and DMXAA, have demonstrated good safety profile as well as some promising efficacy in phase I clinical trials. Currently CA4P and DMXAA are in phase II clinical trials and AVE8062, OXi-4503, NPI-2358 and MN-029 are in phase I clinical trials. This review will focus on recent progress in the discovery and development of small molecule VDAs, including recently published patent applications and issued patents related with small molecule VDAs.
...
PMID:Small molecule vascular disrupting agents: potential new drugs for cancer treatment. 1822 Oct 55
As the
tumor vasculature
is a key element of the tumor stroma, angiogenesis is the target of many cancer therapies. Recent work published in BMC Cell Biology describes a fusion protein that combines a peptide previously shown to home in on the gastric cancer vasculature with the anti-tumor cytokine
TNF-alpha
, and assesses its potential for gastric cancer therapy.
...
PMID:Targeting TNF-alpha for cancer therapy. 1986 62
TNF-alpha
is involved in many physiologic and pathologic cellular pathways, including cellular proliferation, differentiation, and death, regulation of immunologic reactions to different cells and molecules, local and vascular invasion of neoplasms, and destruction of
tumor vasculature
. It is obvious that because of integrated functions of
TNF-alpha
inside different physiologic systems, it cannot be used as a single-agent therapy for neoplasms; however, long-term investigation of its different cellular pathways has led to recognition of a variety of subsequent molecules with more specific interactions, and therefore, might be suitable as prognostic and therapeutic factors for neoplasms. Here, we will review different aspects of the
TNF-alpha
as a cytokine involved in both physiologic functions of cells and pathologic abnormalities, most importantly, cancers.
...
PMID:Importance of TNF-alpha and its alterations in the development of cancers. 3220 36
