Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P10415 (Bcl-2)
 33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelial monocyte activating polypeptide II (EMAP-II) is a tumor-derived cytokine with potent effects on endothelial cells in vitro and in vivo including upregulation of tissue factor and the sensitization of human melanoma to systemic TNF treatment via its effects on the tumor vasculature. We investigated the effects of EMAP-II on tumor growth, angiogenesis, vasculogenesis, and apoptosis. EMAP-II inhibited endothelial cell proliferation, vasculogenesis, and neovessel formation. In vivo growth of human melanoma lines expressing high amounts of EMAP-II demonstrated slower growth, smaller tumors, and increased amounts of tumor necrosis than those expressing lower amounts of EMAP-II. EMAP-II induced endothelial-cell-specific apoptosis via a pathway that includes upregulation of the Fas-associated death domain and downregulation of Bcl-2. EMAP-II appears to have important effects on angiogenesis and may play a role in regulating tumor vascular growth.
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PMID:Endothelial monocyte activating polypeptide II induces endothelial cell apoptosis and may inhibit tumor angiogenesis. 1087 16

Therapeutic radiation is widely used in cancer treatments. The success of radiation therapy depends not only on the radiosensitivity of tumor cells but also on the radiosensitivity of endothelial cells lining the tumor vasculature. Vascular endothelial growth factor (VEGF) plays a critical role in protecting endothelial cells against a number of antitumor agents including ionizing radiation. Strategies designed to overcome the survival advantage afforded to endothelial cells by VEGF might aid in enhancing the efficacy of radiation therapy. In this report we examined the signaling cascade(s) involved in VEGF-mediated protection of endothelial cells against gamma-irradiation. gamma-Irradiation-induced apoptosis of human dermal microvascular endothelial cells (HDMECs) was predominantly mediated through the p38 MAPK pathway as an inhibitor of p38 MAPK (PD169316), and dominant negative mutants of p38 MAPK could significantly enhance HDMEC survival against gamma-irradiation. Inhibition of the PI3K and MAPK pathways markedly up-regulated gamma-irradiation-mediated p38 MAPK activation resulting in enhanced HDMEC apoptosis. In contrast, VEGF-treated HDMECs were protected from gamma-irradiation-induced apoptosis predominantly through the PI3K/Akt pathway. Bcl-2 expression was markedly elevated in VEGF-treated HDMECs, and it was significantly inhibited by the PI3K inhibitor LY294002. HDMECs exposed to irradiation showed a significant decrease in Bcl-2 expression. In contrast, VEGF-stimulated HDMECs, when irradiated, maintained higher levels of Bcl-2 expression. Taken together our results suggest that gamma-irradiation induces endothelial cell apoptosis predominantly via the activation of p38 MAPK, and VEGF protects endothelial cells against gamma-irradiation predominantly via the PI3K-Akt-Bcl-2 signaling pathway.
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PMID:p38 MAPK mediates gamma-irradiation-induced endothelial cell apoptosis, and vascular endothelial growth factor protects endothelial cells through the phosphoinositide 3-kinase-Akt-Bcl-2 pathway. 1529 52

Expression of the proto-oncogene Bcl-2 is associated with tumor progression. Bcl-2's broad expression in tumors, coupled with its role in resistance to chemotherapy and radiation therapy-induced apoptosis, makes it a rational target for anticancer therapy. Antisense Bcl-2 oligodeoxynucleotide (ODN) reagents have been shown to be effective in reducing Bcl-2 expression in a number of systems. We investigated whether treating human prostate cancer cells with antisense Bcl-2 ODN (G3139, oblimersen sodium, Genasense) before irradiation would render them more susceptible to radiation effects. Two prostate cancer cell lines expressing Bcl-2 at different levels (PC-3-Bcl-2 and PC-3-Neo) were subjected to antisense Bcl-2 ODN, reverse control (CTL), or mock treatment. Antisense Bcl-2 ODN alone produced no cytotoxic effects and was associated with G(1) cell cycle arrest. The combination of antisense Bcl-2 ODN with irradiation sensitized both cell lines to the killing effects of radiation. Both PC-3-Bcl-2 and PC-3-Neo xenografts in mice treated with the combination of antisense Bcl-2 ODN and irradiation were more than three times smaller by volume compared with xenografts in mice treated with reverse CTL alone, antisense Bcl-2 ODN alone, irradiation alone, or reverse CTL plus radiotherapy (P = 0.0001). Specifically, PC-3-Bcl-2 xenograft tumors treated with antisense Bcl-2 ODN and irradiation had increased rates of apoptosis and decreased rates of angiogenesis and proliferation. PC-3-Neo xenograft tumors had decreased proliferation only. This is the first study which shows that therapy directed at Bcl-2 affects tumor vasculature. Together, these findings warrant further study of this novel combination of Bcl-2 reduction and radiation therapy, as well as Bcl-2 reduction and angiogenic therapy.
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PMID:Knock-down of Bcl-2 by antisense oligodeoxynucleotides induces radiosensitization and inhibition of angiogenesis in human PC-3 prostate tumor xenografts. 1723 70

Physiological and pathological turnover of basement membranes liberates biologically active cryptic molecules. Several collagen-derived fragments possess anti-angiogenic activity. Arresten is the 26-kDa non-collagenous domain of type IV collagen alpha1 chain. It functions as an efficient inhibitor of angiogenesis and tumor growth in mouse models, but its anti-angiogenic mechanism is not completely known. Here we show that arresten significantly increases apoptosis of endothelial cells in vitro by decreasing the amount of anti-apoptotic molecules of the Bcl-family; Bcl-2 and Bcl-xL. Although the pro-apoptotic effect of arresten is endothelial cell specific in vitro, in mouse tumors arresten induced apoptosis both in endothelial and tumor cells. The tumor cell apoptosis is likely an indirect effect due to the inhibition of blood vessel growth into the tumor. The active site of arresten was localized by deletion mutagenesis within the C-terminal half of the molecule. We have previously shown that arresten binds to alpha1beta1 integrin on human umbilical vein endothelial cells. However, the microvascular endothelial cells (MLECs) are more important in the context of tumor vasculature. We show here that arresten binds also to the microvascular endothelial cells via alpha1beta1 integrin. Furthermore, it has no effect on Matrigel neovascularization or the viability of integrin alpha1 null MLECs. Tumors implanted on integrin alpha1 deficient mice show no integrin alpha1 expression in the host-derived vascular endothelium, and thus arresten does not inhibit the tumor growth. Collectively, this data sheds more light into the anti-angiogenic mechanism of arresten.
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PMID:Characterization of the anti-angiogenic properties of arresten, an alpha1beta1 integrin-dependent collagen-derived tumor suppressor. 1877 95

Nucleolin is specifically transported to the surface of proliferating endothelial cells in vitro and in vivo. In contrast to its well defined functions in the nucleus and cytoplasm, the function of cell surface nucleolin is poorly defined. We have previously identified the nucleolin-binding antibody NCL3 that specifically binds to cell surface nucleolin on angiogenic blood vessels in vivo and is internalized into the cell. Here, we show that NCL3 inhibits endothelial tube formation in vitro as well as angiogenesis in the matrigel plaque assay and subcutaneous tumor models in vivo. Intriguingly, the specific targeting of proliferating endothelial cells by NCL3 in subcutaneous tumor models leads to the normalization of the tumor vasculature and as a result to an increase in tumor oxygenation. Treatment of endothelial cells with anti-nucleolin antibody NCL3 leads to a decrease of mRNA levels of the anti-apoptotic molecule Bcl-2 and as a consequence induces endothelial cell apoptosis as evidenced by PARP cleavage. These data reveal a novel mode of action for anti-angiogenic therapy and identify cell surface nucleolin as a novel target for combinatorial chemotherapy.
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PMID:Cell surface nucleolin antagonist causes endothelial cell apoptosis and normalization of tumor vasculature. 1922 98

For malignant growth, solid cancers must stimulate the formation of new blood vessels by producing vascular endothelial growth factor (VEGF-A), which is required for the survival of tumor-associated vessels. Novel anticancer agents that block VEGF-A signaling trigger endothelial cell (EC) apoptosis and vascular regression preferentially within tumors, but how the ECs die is not understood. In this study, we demonstrate that VEGF-A deprivation, provoked either by drug-induced tumor shrinkage or direct VEGF-A blockade, up-regulates the proapoptotic BH3 (Bcl-2 homology 3)-only Bcl-2 family member Bim in ECs. Importantly, the tumor growth inhibitory activity of a VEGF-A antagonist required Bim-induced apoptosis of ECs. These findings thus reveal the mechanism by which VEGF-A blockade induces EC apoptosis and impairs tumor growth. They also indicate that drugs mimicking BH3-only proteins may be exploited to kill tumor cells not only directly but also indirectly by ablating the tumor vasculature.
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PMID:Destruction of tumor vasculature and abated tumor growth upon VEGF blockade is driven by proapoptotic protein Bim in endothelial cells. 2164 95

The present study embodies a detailed investigation of the chemoenhancement property of a synthetic organoselenium compound, 2-[5-selenocyanato-pentyl]-7-amino benzo[de]isoquinoline-1,3-dione (ANOS) in tumor bearing Swiss albino mice. The results accumulated from this study illustrated that the administration of ANOS significantly potentiated the therapeutic efficacy of cyclophosphamide by reducing the tumor burden and chemotherapy induced toxicity in the host. Ability of ANOS in inducing apoptosis and inhibiting angiogenesis was thought to be the crucial effecter for enhancing the therapeutic efficacy of cyclophosphamide. Fluorescence microscopic study revealed that ANOS was capable of penetrating tumor cells and distributed in the subcellular compartments. We showed that ANOS-induced apoptosis, as evidenced by the TUNEL assay and cleavage of poly(ADP-ribose) polymerase (PARP), involved ROS production and DNA damage in tumor cells. ROS production subsequently activated p53 phosphorylation at Ser-15. This in turn activated cytochrome c (cyt c) release from mitochondria via Bcl-2 and Bax. Finally activation of caspase 3 led to PARP cleavage and apoptosis. These results suggested that p53 dependent mitochondrial pathway was playing an important role in ANOS induced apoptosis of tumor cells. Administration of ANOS also resulted in significant improvement of tumor vasculature and sprouting of the peritoneal cavity along with the normalization of MMP-9 level in serum and ascites fluid of tumor bearing mice. This potential antiangiogenic activity of ANOS also facilitated the therapeutic efficacy of the combination therapy. Furthermore, ANOS significantly suppressed cyclophosphamide-induced liver, hematopoietic and genetic damages. A concomitant decrease in drug-induced toxicity by ANOS might also have enhanced the efficacy of cyclophosphamide by improving the intrinsic defense machineries of the host.
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PMID:2-[5-Selenocyanato-pentyl]-6-amino-benzo[de]isoquinoline-1,3-dione inhibits angiogenesis, induces p53 dependent mitochondrial apoptosis and enhances therapeutic efficacy of cyclophosphamide. 2503 69

Limited clinical benefit has been demonstrated for chimeric antigen receptor (CAR) therapy of solid tumors, but coengineering strategies to generate so-called fourth-generation (4G) CAR-T cells are advancing toward overcoming barriers in the tumor microenvironment (TME) for improved responses. In large part due to technical challenges, there are relatively few preclinical CAR therapy studies in immunocompetent, syngeneic tumor-bearing mice. Here, we describe optimized methods for the efficient retroviral transduction and expansion of murine T lymphocytes of a predominantly central memory T cell (TCM cell) phenotype. We present a bicistronic retroviral vector encoding both a tumor vasculature-targeted CAR and murine interleukin-15 (mIL-15), conferring enhanced effector functions, engraftment, tumor control, and TME reprogramming, including NK cell activation and reduced presence of M2 macrophages. The 4G-CAR-T cells coexpressing mIL-15 were further characterized by up-regulation of the antiapoptotic marker Bcl-2 and lower cell-surface expression of the inhibitory receptor PD-1. Overall, this work introduces robust tools for the development and evaluation of 4G-CAR-T cells in immunocompetent mice, an important step toward the acceleration of effective therapies reaching the clinic.
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PMID:Optimized gene engineering of murine CAR-T cells reveals the beneficial effects of IL-15 coexpression. 3315 38