UNIPROT:P42574 - FACTA Search

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activation of an inducible caspase (iCaspase-9) mediates apoptosis of neovascular endothelial cells, and overcomes the prosurvival effect of vascular endothelial growth factor or basic fibroblast growth factor. The potential utilization of direct activation of caspases as an antiangiogenic strategy for treatment of angiogenesis-dependent diseases (eg cancer) requires expression of the inducible caspase primarily in the tumor endothelium. The objective of this work was to develop and characterize a transcriptionally targeted adenoviral vector that mediates expression of iCaspase-9 specifically in neovascular endothelial cells. We observed that adenoviral vectors containing the human VEGFR2 promoter induced reporter gene expression primarily in proliferating human dermal microvascular endothelial cells (HDMEC). HDMEC transduced with recombinant adenoviral vectors containing iCaspase-9 under regulation of the VEGFR2 promoter (Ad-hVEGFR2-iCaspase-9) and exposed to a cell-permeable dimerizer drug (AP20187), presented higher caspase-3 activity and apoptosis than controls (P < or = 0.05). Using the SCID Mouse Model of Human Angiogenesis, we observed that local delivery of Ad-hVEGFR2-iCaspase-9 followed by intraperitoneal injection of AP20187 resulted in endothelial cell apoptosis and local ablation of microvessels. We believe that this constitutes the first report of a transcriptionally targeted antiangiogenic adenoviral vector that mediates neovascular disruption upon activation of a caspase-based artificial death switch.
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PMID:Antiangiogenic gene therapy: disruption of neovascular networks mediated by inducible caspase-9 delivered with a transcriptionally targeted adenoviral vector. 1561 6

The vascular endothelial growth factor (VEGF) is known mainly as the potent angiogenic and vascular permeability-enhancing factor. Both processes are very effective in hypoxia. The latest studies show that VEGF has neurotrophic and neuroprotective as well as angiogenic properties. It exerts neuroprotective actions directly through the inhibition of programmed cell death (PCD), or apoptosis and the stimulation of neurogenesis. VEGF is also a mediator of multiple processes including angiogenesis, enhancing blood brain barrier permeability for glucose, antioxidants activation, which indirectly result in neuroprotection. VEGF prevents neurons from death under critical conditions such as hypoxia, glucose deprivation through binding to the specific receptors, which are also expressed on the surface of neuronal cells. The increased expression of VEGFR-2/flk-1/KDR receptors on neurons subjected to hypoxia, glucose deprivation provides evidence that these receptors are mainly involved in neuroprotective effects of VEGF. Furthermore, binding to these receptors triggers the phosphatidyloinositol 3-kinase (PI3K) /Akt signal transduction system and, in consequence, leads to the inhibition of PCD by activating antiapoptotic proteins through the transcription factor NFkappaB and inhibiting proapoptotic signaling by Bad, caspase-9, caspase-3, and other effectors. Promotion of neuronal cells proliferation by VEGF is also associated with the increased expression of VEGFR-2 receptors and up-regulation of E2F family transcription factors, cyclin D1, cyclin E, and cdc25. It is known that the amount and types of VEGF isoforms influence its action. At least six isoforms of VEGF proteins are formed as a result of alternative mRNA splicing and it is unknown which of them and in what proportion occur in the nervous system in physiology and pathophysiology. It seems to be very essential to find out the mechanisms responsible for specific patterns of VEGF isoforms and their receptors expression in different pathologies of the nervous system. Maybe such knowledge will provide new perspectives in VEGF therapy.
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PMID:The neuroprotective function of vascular endothelial growth factor (VEGF). 1582 88

Transcription factor p53 regulates the cell cycle and apoptosis and may impair angiogenesis by the deregulation of pro-angiogenic factors and the activation of anti-angiogenic factors. Our aim has been to elucidate further the role of p53 in physiological angiogenesis. By treating hamsters with the wildtype p53 inhibitor pifithrin-alpha (PFT) versus equivalent volumes of the vehicle dimethylsulfoxide, we showed a reduced p53 tissue protein level, a reduction of poly(ADP-ribose) polymerase and cleaved caspase-3 products, and a slightly increased proliferation of cell nuclear antigen and cyclin D1 by Western blot protein analysis of ovarian tissue. PFT further increased platelet-derived growth factor and did not influence vascular endothelial growth factor in female reproductive tissue. Despite these differences in tissue levels of proteins potentially involved in angiogenesis, in vivo fluorescence-microscopic analysis of freely transplanted ovarian follicles revealed comparable kinetics and an extent of revascularization with almost identical densities of network microvessels in both groups. However, follicles of PFT-treated animals exhibited enlarged diameters and higher volumetric blood flow within the newly formed microvessels. Less-dense basement membranes with unclear laminar structure and only a loose contact of pericytes to endothelial cells were also occasionally found, providing evidence of delayed maturation and impaired diameter control of microvessels. Thus, inhibition of wildtype p53 during physiological angiogenesis does not affect the extent of new vessel formation but may delay the maturation of newly formed microvessels.
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PMID:Inhibition of p53 during physiological angiogenesis in the hamster ovary does not affect extent of new vessel formation but delays vessel maturation. 1585 10

It has been suggested that chemotherapy and radiotherapy could favorably be combined with antiangiogenesis in dual anticancer strategy combinations. Here we investigate the effects of a trimodal strategy consisting of all three therapy approaches administered concurrently. We found that in vitro and in vivo, the antiendothelial and antitumor effects of the triple therapy combination consisting of SU11657 (a multitargeted small molecule inhibitor of vascular endothelial growth factor and platelet-derived growth factor receptor tyrosine kinases), Pemetrexed (a multitargeted folate antimetabolite), and ionizing radiation were superior to all single and dual combinations. The superior effects in human umbilical vein endothelial cells and tumor cells (A431) were evident in cell proliferation, migration, tube formation, clonogenic survival, and apoptosis assays (sub-G1 and caspase-3 assessment). Exploring potential effects on cell survival signaling, we found that radiation and chemotherapy induced endothelial cell Akt phosphorylation, but SU11657 could attenuate this process in vitro and in vivo in A431 human tumor xenografts growing s.c. on BALB/c nu/nu mice. Triple therapy further decreased tumor cell proliferation (Ki-67 index) and vessel count (CD31 staining), and induced greater tumor growth delay versus all other therapy regimens without increasing apparent toxicity. When testing different treatment schedules for the A431 tumor, we found that the regimen with radiotherapy (7.5 Gy single dose), given after the institution of SU11657 treatment, was more effective than radiotherapy preceding SU11657 treatment. Accordingly, we found that SU11657 markedly reduced intratumoral interstitial fluid pressure from 8.8 +/- 2.6 to 4.2 +/- 1.5 mm Hg after 1 day. Likewise, quantitative T2-weighed magnetic resonance imaging measurements showed that SU11657-treated mice had reduced intratumoral edema. Our data indicates that inhibition of Akt signaling by antiangiogenic treatment with SU11657 may result in: (a) normalization of tumor blood vessels that cause prerequisite physiologic conditions for subsequent radio/chemotherapy, and (b) direct resensitization of endothelial cells to radio/chemotherapy. We conclude that trimodal cancer therapy combining antiangiogenesis, chemotherapy, and radiotherapy has beneficial molecular and physiologic effects to emerge as a clinically relevant antitumor strategy.
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PMID:Trimodal cancer treatment: beneficial effects of combined antiangiogenesis, radiation, and chemotherapy. 1586 59

A highly vascular endocrine gland, the corpus luteum (CL) is an excellent model for the study of angiogenic factors. Prokineticins (PK-1 and -2), also termed endocrine-gland-derived vascular endothelial growth factor (VEGF) and BV8 are newly identified proteins described as selective angiogenic mitogens. We previously identified PK binding sites, two closely homologous G protein-coupled receptors (PK-R1 and PK-R2) in human and bovine ovarian cells, but their function remained unknown. In this study we examined the presence and effects of PK in CL-derived endothelial and steroidogenic cell types (LEC and LSC, respectively). PK-1 mRNA was identified in CL and follicles by real-time PCR, using primers specific for the bovine PK-1 sequence (retrieved from Bos taurus whole genome shotgun database). PK were potent angiogenic mitogens for LEC; they enhanced cell proliferation, elevated [3H]thymidine incorporation, MAPK activation, and c-jun/fos mRNA expression. The effects of PK proteins on cell survival were examined by nuclear morphology (4',6-diamidino-2-phenylindole dihydrochloride staining), measurement of DNA fragmentation (terminal dUTP nucleotide end labeling assay), and caspase-3 cleavage. Results obtained by these techniques demonstrated that PK protected LEC from serum starvation-induced apoptosis. Stress conditions such as serum withdrawal, TNF-alpha, and hypoxia markedly increased PK-R2 expression, whereas mRNA levels of PK-R1 remained unchanged. These suggest that the antiapoptotic effect of PK-1 on LEC may be mediated via PK-R2. PK-1 increased VEGF mRNA expression by LSC, implying that it could also indirectly, via VEGF, affect luteal angiogenesis. Together, these findings suggest an important role for PK-1 in luteal function by acting as a mitogen and survival factor in LEC.
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PMID:Prokineticins (endocrine gland-derived vascular endothelial growth factor and BV8) in the bovine ovary: expression and role as mitogens and survival factors for corpus luteum-derived endothelial cells. 1593 29

Pigment epithelium-derived factor (PEDF) has been shown to be the most potent inhibitor of angiogenesis in the mammalian eye, thus suggesting that loss of PEDF is involved in angiogenic eye diseases such as proliferative diabetic retinopathy. Angiogenesis is required for tumor growth and progression as well. We, along with others, have recently found that PEDF could inhibit growth of melanoma and hepatocellular carcinoma in nude mice through its anti-angiogenic effects on tumor endothelial cells. However, the possibility of the direct effect of PEDF on tumor cells has remained. In this study, we investigated the effects of PEDF on growth and vascular endothelial growth factor (VEGF) expression in MG63 human cultured osteosarcoma cells. PEDF decreased viable cell number as well as DNA synthesis in MG63 cells in a dose-dependent manner. Furthermore, PEDF was found to increase caspase-3/7 activity and to subsequently induce apoptotic cell death in MG63 cells. PEDF also inhibited VEGF expression in MG63 cells at both mRNA and protein levels. Our present study provides novel beneficial aspects of PEDF on osteosarcoma cells; one is induction of apoptotic cell death of tumor cells, and the other is the suppression of VEGF expression, which would lead to inhibition of tumor angiogenesis. PEDF therefore might be a promising therapeutic agent for treatment of patients with osteosarcoma.
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PMID:Pigment epithelium-derived factor (PEDF)-induced apoptosis and inhibition of vascular endothelial growth factor (VEGF) expression in MG63 human osteosarcoma cells. 1598 68

Human multiple myeloma is a presently incurable hematologic malignancy, and novel biologically based therapies are urgently needed. GCS-100 is a polysaccharide derived from citrus pectin in clinical development for the treatment of cancer. Here we show that GCS-100 induces apoptosis in various multiple myeloma cell lines, including those resistant to dexamethasone, melphalan, or doxorubicin. Examination of purified patient multiple myeloma cells showed similar results. Specifically, GCS-100 decreases viability of bortezomib/PS-341-resistant multiple myeloma patient cells. Importantly, GCS-100 inhibits multiple myeloma cell growth induced by adhesion to bone marrow stromal cells; overcome the growth advantage conferred by antiapoptotic protein Bcl-2, heat shock protein-27, and nuclear factor-kappaB; and blocks vascular endothelial growth factor-induced migration of multiple myeloma cells. GCS-100-induced apoptosis is associated with activation of caspase-8 and caspase-3 followed by proteolytic cleavage of poly(ADP-ribose) polymerase enzyme. Combined with dexamethasone, GCS-100 induces additive anti-multiple myeloma cytotoxicity associated with mitochondrial apoptotic signaling via release of cytochrome c and Smac followed by activation of caspase-3. Moreover, GCS-100 + dexamethasone-induced apoptosis in multiple myeloma cells is accompanied by a marked inhibition of an antiapoptotic protein Galectin-3, without significant alteration in Bcl-2 expression. Collectively, these findings provide the framework for clinical evaluation of GCS-100, either alone or in combination with dexamethasone, to inhibit tumor growth, overcome drug resistance, and improve outcome for patients with this universally fatal hematologic malignancy.
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PMID:A novel carbohydrate-based therapeutic GCS-100 overcomes bortezomib resistance and enhances dexamethasone-induced apoptosis in multiple myeloma cells. 1616 12

The vasculature of the embryo requires vascular endothelial growth factor (VEGF) during development, but most adult blood vessels lose VEGF dependence. However, some capillaries in the respiratory tract and selected other organs of adult mice regress after VEGF inhibition. The present study sought to identify the sequence of events and the fate of endothelial cells, pericytes, and vascular basement membrane during capillary regression in mouse tracheas after VEGF signaling was blocked with a VEGF-receptor tyrosine kinase inhibitor AG-013736 or soluble receptor construct (VEGF Trap or soluble adenoviral VEGFR-1). Within 1 day, patency was lost and fibrin accumulated in some tracheal capillaries. Apoptotic endothelial cells marked by activated caspase-3 were present in capillaries without blood flow. VEGF inhibition was accompanied by a 19% decrease in tracheal capillaries over 7 days and 30% over 21 days. During this period, desmin/NG2-immunoreactive pericytes moved away from regressing capillaries onto surviving vessels. Empty sleeves of basement membrane, left behind by regressing endothelial cells, persisted for about 2 wk and served as a scaffold for vascular regrowth after treatment ended. The amount of regrowth was limited by the number of surviving basement membrane sleeves. These findings demonstrate that, after inhibition of VEGF signaling, some normal capillaries regress in a systematic sequence of events initiated by a cessation of blood flow and followed by apoptosis of endothelial cells, migration of pericytes away from regressing vessels, and formation of empty basement membrane sleeves that can facilitate capillary regrowth.
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PMID:Cellular changes in normal blood capillaries undergoing regression after inhibition of VEGF signaling. 1640 45

We have identified a novel glycoprotein from Urginea indica bulbs with potent in vivo antitumor activity against growth of an ascites tumor, mouse mammary carcinoma. In this paper we report characterization of a 29 kDa glycoprotein from U. indica and demonstrate the mechanism of antiangiogenic and proapoptotic activity. N-terminal sequence of the high performance liquid chromatography (HPLC) pure glycoprotein showed sequence homology to an extent of 40-50% with known angiogenesis inhibitor and apoptosis-inducing protein from C. elegans and G. gallus respectively. Our results on antiangiogenic property of the glycoprotein include inhibition of in vivo angiogenesis assays, decreased micro vessel density count and CD31 antigen staining in 29 kDa glycoprotein treated mice peritoneum. In vitro inhibition of vascular endothelial growth factor induced proliferation of human umbilical vein endothelial cells (HUVECs) by the glycoprotein further supports its antiangiogenic activity. The mechanism of antiangiogenesis involved inhibition of translocation of nuclear factor kappa B to the nucleus resulting in decreased expression of vascular endothelial growth factor gene as is demonstrated by our results on quantification of vascular endothelial growth factor levels in the glycoprotein treated tumor bearing mice. Our results on activation of Caspase-3 with concomitant translocation of caspase activated DNase to the tumor cell nuclei resulting in DNA fragmentation induced by the glycoprotein in vivo clearly demonstrated a parallel proapoptotic activity of the glycoprotein.
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PMID:Antiangiogenic and proapoptotic activity of a novel glycoprotein from U. indica is mediated by NF-kappaB and Caspase activated DNase in ascites tumor model. 1621 5

To explore the effects of vascular endothelial growth factor (VEGF) on the mechanisms of CML pathogenesis, the effect of VEGF on K562 cell apoptosis induced by As(2)O(3) was analyzed through morphologic observation, DNA fragmentation agarose gel electrophoresis and DNA ploidy flow cytometry analysis, and the effect of VEGF on the expression of bcl-X(L), Bax and caspase-3 in K562 cells was determined by Western blot, meanwhile the expression difference between bcl-X(L) and Bax mRNA in above conditions was detected by RT-PCR. The results showed that after VEGF added, the apoptosis of K562 cells reduced, however, there was no significant changes in cell cycle distribution (P > 0.05). At the same time, following the increasing of the concentration of VEGF, expression of mRNA and protein of bcl-X(L) was up-regulated and the expression of Bax protein was down-regulated in K562 cells, and the activation of pro-caspase-3 into caspase-3 was inhibited or reduced. It is concluded that VEGF may suppress the apoptosis of K562 cells through its influence on the bcl-X(L)/Bax expression ratio in K562 cells.
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PMID:[Anti-apoptosis effect of VEGF on the human chronic myelocytic leukemia cell line K562]. 1627 41

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