UNIPROT:P39060 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P39060 (endostatin)
2,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endostar, approved for the treatment of non-small-cell lung cancer by the State Food and Drug Administration in China, is a derivative of human endostatin that is modified with an additional metal-chelating sequence (MGGSHHHHH) at the N-terminus. This modification contributes to an additional zinc-binding site in the endostatin sequence. In the present study, zinc-binding and zinc-free endostar were compared to further characterize their biochemical and structural properties. Thermally induced denaturation was determined by monitoring changes in fluorescence emission spectra. The data indicated that zinc binding significantly increased the transition temperature of endostar and contributed to a reversible change in protein conformation after recooling. Proteolysis assays demonstrated that the modified protein binding with zinc ions can stabilize the N-terminus and the C-terminus of endostar when treated with trypsin, chymotrypsin and carboxypeptidase A and B. Western-blot analyses using anti-His6 antibody confirmed that the major cleaved fragments of endostar were in the N-terminus when treated with trypsin and chymotrypsin. In the proliferation assay with human umbilical-vein endothelial cells, the zinc-binding and zinc-free endostar samples with extra zinc-binding sites displayed similar inhibiting activities.
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PMID:N-terminal modification increases the stability of the recombinant human endostatin in vitro. 1952 21

In this study, we investigated the PEG attachment site of mono-PEGylated Endostar, a modified recombinant human endostatin approved in China for lung cancer. N-terminal site-directed mono-PEGylation of Endostar was accomplished using mPEG-propionaldehyde derivatives (Mw=20 kDa) under slightly acidic pH conditions (pH 5.5). One-step cation exchange chromatography was used to purify the mono-PEGylated Endostar. Following tryptic digestion, the peptide fragment containing PEG was separated by SDS-PAGE. Barium iodide staining and Western blotting were used to detect the PEG moiety and the N-terminus of Endostar, respectively. The peptide fragment stained by barium iodide showed a positive response to anti-(His) 6 mAb, demonstrating that PEG was located at the N-terminus of Endostar. LC/MS was applied to verify the occurrence of mono-PEGylation at the N-terminus of Endostar.
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PMID:Characterization of a monoPEG20000-Endostar. 2012 57

The aim of this study was to investigate the inhibitory effect of radiotherapy combined with weekly recombinant human endostatin (RHES) on the human pulmonary adenocarcinoma A549 xenografts in nude mice. The 40 A549 xenograft nude mice models were randomly divided into 4 groups (each group with 10 nude mice). Single radiotherapy group (group 1) was given a single external irradiation (6MV-X ray, 10 Gy) and peritumoral subcutaneous injection of 0.2 ml normal saline every day for 7 days. Single RHES group (group 2) was given peritumoral subcutaneous injection of 0.2 ml RHES (0.75 mg/ml) for 7 days. Combination therapy group (group 3) was given radiotherapy as the same as group 1 and RHES as the same as group 2. Control group was given normal saline as the same as group 1. The tumor volume was smaller in group 3 than in control group from the 8th day after treatment (P<0.05) and tumor regression occurred from the second week after treatment in group 3. On the 15th day after treatment, the inhibitory rates of tumor volume were 69.65%, 92.64% and 116.4% in groups 2, 1 and 3, respectively; MVD number was lower in group 3 than in group 1 (P<0.05); there was no statistical significance in VEGF expression between group 2 and control group as well as between group 3 and group 1 (P>0.05). Apoptosis was marked in group 3. Radiotherapy combined with weekly RHES can significantly inhibit tumor growth and earlier induce tumor regression, which may be related to the improvement of tumor hypoxia and the inhibition of radiation-induced tumor angiogenesis. Short-term application (1 week) of RHES is beneficial to clinical practice.
Lung Cancer 2011 May
PMID:Inhibitory effect of radiotherapy combined with weekly recombinant human endostatin on the human pulmonary adenocarcinoma A549 xenografts in nude mice. 2096 4

Recombinant human endostatin (rh-endostatin), a potential antiangiogenic agent, is used in non-small cell lung carcinoma treatment and represses vascular endothelial cell growth factor (VEGF) levels in tumor cell. However, precise affection of rh-endostatin on the proangiogenic VEGF isoforms (VEGF(165)) or antiangiogenic VEGF isoforms (VEGF(165)b) is not clear. We therefore tested the hypothesis that rh-endostatin could alter expression of these isoforms to regulate tumor growth. A549 cells were exposed to rh-endostatin, and the expression of VEGF(165) and VEGF(165)b was detected. The role of SP1 as a regulator of isoform expression was investigated. We then examined the anticancer and antiangiogenic efficacy of rh-endostatin in combination with exogenous VEGF(165)b against A549 cells, EA.HY 926 cells and xenograft model of human lung cancer. rh-Endostatin reduced VEGF(165) and induced VEGF(165)b as well as inhibited SP1 in A549 cells. SP1 inhibitor (betulinic acid) also developed those changes. VEGF(165)b-rh-endostatin combination was highly synergistic and inhibited growth, survival, and migration of A549 cells, VEGF-mediated VEGFR2 phosphorylation in EA.HY 926 cells, and tumor growth in xenograft model of human lung cancer. rh-Endostatin downregulates proangiogenic vascular endothelial growth factor A (VEGFA) isoform and upregulates antiangiogenic VEGFA isoform, possibly through inhibition of SP1. Furthermore, VEGF(165)b sensitizes A549 to rh-endostatin treatment and enhances the anticancer effect of rh-endostatin.
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PMID:Sp1 inhibition-mediated upregulation of VEGF 165 b induced by rh-endostatin enhances antiangiogenic and anticancer effect of rh-endostatin in A549. 2144 81

Several antiangiogenic drugs targeting VEGF/VEGF receptor (VEGFR) that were approved by the Food and Drug Administration for many cancer types, including colorectal and lung cancer, can effectively reduce tumor growth. However, targeting the VEGF signaling pathway will probably influence the normal function of endothelial cells in maintaining homeostasis and can cause unwanted adverse effects. Indeed, emerging experimental evidence suggests that VEGF-targeting therapy induced less tumor cell-specific cytotoxicity, allowing residual cells to become more resistant and eventually develop a more malignant phenotype. We report an antitumor therapeutic EndoCD fusion protein developed by linking endostatin (Endo) to cytosine deaminase and uracil phosphoribosyltransferase (CD). Specifically, Endo possesses tumor antiangiogenesis activity that targets tumor endothelial cells, followed by CD, which converts the nontoxic prodrug 5-fluorocytosine (5-FC) to the cytotoxic antitumor drug 5-fluorouracil (5-FU) in the local tumor area. Moreover, selective targeting of tumor sites allows an increasing local intratumoral concentration of 5-FU, thus providing high levels of cytotoxic activity. We showed that treatment with EndoCD plus 5-FC, compared with bevacizumab plus 5-FU treatment, significantly increased the 5-FU concentration around tumor sites and suppressed tumor growth and metastasis in human breast and colorectal orthotropic animal models. In addition, in contrast to treatment with bevacizumab/5-FU, EndoCD/5-FC did not induce cardiotoxicity leading to heart failure in mice after long-term treatment. Our results showed that, compared with currently used antiangiogenic drugs, EndoCD possesses potent anticancer activity with virtually no toxic effects and does not increase tumor invasion or metastasis. Together, these findings suggest that EndoCD/5-FC could become an alternative option for future antiangiogenesis therapy.
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PMID:Dual targeting of tumor angiogenesis and chemotherapy by endostatin-cytosine deaminase-uracil phosphoribosyltransferase. 2161 Jan 70

The antiangiogenic agent bevacizumab has been approved for the treatment of non-small cell lung cancer (NSCLC), although the survival benefit associated with this agent is marginal, and toxicities and cost are substantial. A recent screen for selective inhibitors of endothelial cell proliferation identified the oral antifungal drug itraconazole as a novel agent with potential antiangiogenic activity. In this article, we define and characterize the antiangiogenic and anticancer activities of itraconazole in relevant preclinical models of angiogenesis and lung cancer. Itraconazole consistently showed potent, specific, and dose-dependent inhibition of endothelial cell proliferation, migration, and tube formation in response to both VEGF- and basic fibroblast growth factor-mediated angiogenic stimulation. In vivo, using primary xenograft models of human NSCLC, oral itraconazole showed single-agent growth-inhibitory activity associated with induction of tumor hypoxia-inducible factor 1 alpha expression and marked inhibition of tumor vascularity. Itraconazole significantly enhanced the antitumor efficacy of the chemotherapeutic agent cisplatin in the same model systems. Taken together, these data suggest that itraconazole has potent and selective inhibitory activity against multiple key aspects of tumor-associated angiogenesis in vitro and in vivo, and strongly support clinical translation of its use. Based on these observations, we have initiated a randomized phase II study comparing the efficacy of standard cytotoxic therapy with or without daily oral itraconazole in patients with recurrent metastatic NSCLC.
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PMID:Itraconazole inhibits angiogenesis and tumor growth in non-small cell lung cancer. 2189 39

Lung cancer remains the leading cause of cancer-related deaths. Antiangiogenic therapy has increasingly been studied for advanced non-small-cell lung cancer (NSCLC). Bevacizumab is the only approved antiangiogenic agent for NSCLC and has shown progression-free survival benefits in large Phase III studies and an overall survival benefit in the Phase III E4599 trial in advanced nonsquamous NSCLC. New antiangiogenic treatment strategies are being evaluated that target multiple receptors within a family (VEGF receptor [VEGFR]-1, VEGFR-2) or multiple angiogenic pathways (targets VEGFR and PDGF receptor pathways), and agents that inhibit alternative mediators of angiogenesis (integrins and established vasculature). As data become available from ongoing studies, it will be important to determine how these new antiangiogenic agents will best fit into the current NSCLC treatment paradigm.
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PMID:Emerging antiangiogenic therapies for non-small-cell lung cancer. 2199 34

Recent advances in understanding the importance of angiogenesis to tumor growth and distant metastasis has driven the development of antiangiogenic therapies for the treatment of non-small-cell lung cancer (NSCLC). The anti-vascular endothelial growth factor (VEGF) monoclonal antibody, bevacizumab, is the only US Food and Drug Administration-approved antiangiogenic agent for advanced NSCLC. Accumulated safety data with bevacizumab in NSCLC shows that patients are at risk for hemorrhage, venous thromboembolism, hypertension, and proteinuria. Investigational agents that target VEGF via a different mechanism (such as aflibercept [VEGF Trap]) or simultaneously inhibit multiple molecular pathways involved in angiogenesis (ie, multitargeted tyrosine kinase inhibitors [TKIs]) and vascular disrupting agents (VDAs) that target existing tumor vasculature are in various stages of clinical development for NSCLC, and safety profiles are emerging for these classes of agents. This review describes the molecular rationale for targeting angiogenic pathways in anticancer therapy and summarizes safety and tolerability data from clinical trials of bevacizumab or aflibercept in combination with chemotherapy and the investigational TKIs and VDAs in patients who have advanced NSCLC.
Clin Lung Cancer 2012 Mar
PMID:Safety profile and tolerability of antiangiogenic agents in non-small-cell lung cancer. 2205 89

BACKGROUND Vascular endothelial growth factor (VEGF) is a critical promoter of blood vessel growth during embryonic development and neovascularisation in tumours. VEGF serves as a logical target for antiangiogenic cancer therapy because of its fundamental role in tumour angiogenesis. This study is to investigate the inhibitory effects of FP3, a novel VEGF blocker, on angiogenesis in vitro and tumour growth in vivo. METHODS The inhibitory effects of FP3 on angiogenesis in vitro were evaluated by using human umbilical vein endothelial cells (HUVECs) and rat aortic ring. The inhibitory effects of FP3 on tumour growth and angiogenesis in vivo were evaluated in a human non-small-cell lung cancer (NSCLC) cell line A549 tumour xenograft model with the methods of tumour growth regression assay and immunohistochemical staining, respectively. RESULTS In experiments with HUVECs, FP3 inhibited cell proliferation and migration. In rat aortic ring assay, FP3 suppressed VEGF-induced vessel sprouting. In tumour growth regression assay, FP3 significantly blocked the growth of A549 tumour in the subcutaneous tumour xenograft model and dramatically decreased the vessel density of tumour. CONCLUSIONS FP3 has excellent inhibitory effects on tumour angiogenesis both in vitro and in vivo, therefore it could be used as an effective antiangiogenic agent.
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PMID:FP3: a novel VEGF blocker with antiangiogenic effects in vitro and antitumour effects in vivo. 2212 31

Herpes-mediated viral oncolysis alone is not sufficient to completely eradicate tumors. In this study we used a replication conditional, endostatin-expressing herpes simplex virus-1 mutant (HSV-Endo) in a murine lung cancer model. We hypothesized that the anti-angiogenic action of endostatin would improve upon the oncolytic effect of HSV-1. HSV-Endo was evaluated in a pulmonary metastases and orthotopic flank model, where there was significantly less tumor burden and reduced microvessel density compared to a control virus. Endostatin expression appears to improve the anti-tumor effect of HSV-1 in a lung cancer model.
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PMID:Angiogenesis inhibition using an oncolytic herpes simplex virus expressing endostatin in a murine lung cancer model. 2236 Mar 64

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