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

Endostatin, a carboxyl-terminal fragment of collagen XVIII, has been shown to regress tumors in mice. In this study, we have analyzed the mechanism of endostatin action on endothelial cells and nonendothelial cells. Endostatin treatment of cow pulmonary artery endothelial cells caused apoptosis, as demonstrated by three methods, annexin V-fluorescein isothiocyanate staining, caspase 3, and terminal deoxynucleotidyl transferase-mediated dUTP nick-end-labeling assay. Moreover, addition of endostatin led to a marked reduction of the Bcl-2 and Bcl-XL anti-apoptotic protein, whereas Bax protein levels were unaffected. These effects were not seen in several nonendothelial cells. Collectively, these findings provide important mechanistic insight into endostatin action.
 ...
PMID:Endostatin induces endothelial cell apoptosis. 1020 87

Tumors require ongoing angiogenesis to support their growth. Inhibition of angiogenesis by production of angiostatic factors should be a viable approach for cancer gene therapy. Endostatin, a potent angiostatic factor, was expressed in mouse muscle and secreted into the bloodstream for up to 2 weeks after a single intramuscular administration of the endostatin gene. The biological activity of the expressed endostatin was demonstrated by its ability to inhibit systemic angiogenesis. Moreover, the sustained production of endostatin by intramuscular gene therapy inhibited both the growth of primary tumors and the development of metastatic lesions. These results demonstrate the potential utility of intramuscular delivery of an antiangiogenic gene for treatment of disseminated cancers.
 ...
PMID:Systemic inhibition of tumor growth and tumor metastases by intramuscular administration of the endostatin gene. 1020 81

Solid tumors depend on angiogenesis for their growth. In a transgenic mouse model of pancreatic islet cell carcinogenesis (RIP1-Tag2), an angiogenic switch occurs in premalignant lesions, and angiogenesis persists during progression to expansive solid tumors and invasive carcinomas. RIP1-Tag2 mice were treated so as to compare the effects of four angiogenesis inhibitors at three distinct stages of disease progression. AGM-1470, angiostatin, BB-94, and endostatin each produced distinct efficacy profiles in trials aimed at preventing the angiogenic switch in premalignant lesions, intervening in the rapid expansion of small tumors, or inducing the regression of large end-stage cancers. Thus, anti-angiogenic drugs may prove most efficacious when they are targeted to specific stages of cancer.
 ...
PMID:Effects of angiogenesis inhibitors on multistage carcinogenesis in mice. 1022 14

Endostatin, a 20 kDa C-terminal fragment of collagen XVIII, is a specific inhibitor of endothelial cell proliferation and angiogenesis. In the present study, we have expressed human endostatin in a yeast expression system (10 mg/L). The recombinant protein was expressed in a soluble form and purified to homogeneity. It specifically inhibited the proliferation and migration of endothelial cells. In addition, we report for the first time that endostatin caused G1 arrest of endothelial cells. Also, we show that endostatin treatment resulted in apoptosis of HUVE and HMVE cells and that all of these effects do not occur in nonendothelial cells. Collectively, these findings demonstrate the expression of a biologically active form of human endostatin in yeast and provide important mechanistic insight into endostatin action on endothelial cells.
 ...
PMID:Cloning, expression, and in vitro activity of human endostatin. 1032 90

Endostatin is a potent angiogenesis inhibitor. In order to isolate sufficient quantities of soluble protein for in vivo studies in mice, we expressed murine endostatin in Pichia pastoris. Analysis of the expressed protein by mass spectrometry indicated that the protein was truncated. N-terminal sequence analysis determined that the N-terminus was intact, suggesting that the C-terminal lysine was missing. In Saccharomyces cerevisiae, Kex1p can cleave lysine and arginine residues from the C-terminus of peptides and proteins. We hypothesized that the KEX1 homologue in P. pastoris is responsible for the loss of the C-terminal lysine of endostatin. To test this hypothesis, we cloned and disrupted the P. pastoris KEX1 gene. Although the overall amino acid identity between the P. pastoris and the S. cerevisae Kex1p is only 36%, the amino acid residues involved in the catalytic activity or close to the active residues are highly conserved. Disruption of the KEX1 reading frame allowed expression of murine and human endostatin with the C-terminal lysine. The KEX1 disruption strain may be a useful tool for the expression of other proteins with a C-terminal basic amino acid. Addition of a lysine to the C-terminus of recombinant proteins may protect the C-terminus from degradation by other carboxypeptidases.
 ...
PMID:Disruption of the KEX1 gene in Pichia pastoris allows expression of full-length murine and human endostatin. 1034 19

Recombinant humanized antivascular endothelial growth factor (rhuMAbVEGF) is a monoclonal IgG1 antibody that is being developed as an antiangiogenic agent for use in treating a variety of solid tumors. Preclinical safety studies included an immunohistochemical tissue cross-reactivity study, in vitro hemolytic potential and blood compatibility studies, and multiple dose toxicity studies. Toxicity studies were conducted in cynomolgus monkey because rhuMAbVEGF is pharmacologically active in this species and does not bind rat or mouse vascular endothelial growth factor (VEGF). Following twice weekly administration of rhuMAbVEGF for 4 or 13 wk, young adult cynomolgus monkeys exhibited physeal dysplasia characterized by a dose-related increase in hypertrophied chondrocytes, subchondral bony plate formation, and inhibition of vascular invasion of the growth plate. In addition, decreased ovarian and uterine weights and an absence of corpora lutea were observed in females receiving 10 and 50 mg/kg/dose in the 13-wk study. Both the physeal and ovarian changes were reversible with cessation of treatment. No other treatment-related effects were observed following rhuMAbVEGF administration at doses up to 50 mg/kg. These findings indicate that VEGF is required for longitudinal bone growth and corpora lutea formation and that rhuMAbVEGF can reversibly inhibit physiologic neovascularization at these sites.
 ...
PMID:Preclinical safety evaluation of rhuMAbVEGF, an antiangiogenic humanized monoclonal antibody. 1036 78

The effect of photothermal vascular targeting, alone and in combination with antiangiogenic therapy, was evaluated using tumors produced in mice by transplantation of KB cells. Tumor growth inhibition and regression followed vascular damage produced by pulsed dye laser (PDL) radiation. Administration of the antiangiogenic agent all-trans-retinoic acid (RA) was associated with smaller average tumor volumes in the presence and absence of PDL irradiation, but this effect was not statistically significant. The ability of PDL photothermal vascular targeting to cause regression of tumors without harming normal tissue may be a consequence of preferential damage to supplying vessels at the tumor periphery.
 ...
PMID:Tumor growth inhibition and regression induced by photothermal vascular targeting and angiogenesis inhibitor retinoic acid. 1037 92

The first time a nation made research a national priority was probably in 15th Century Portugal. While the Spanish built large galleons to ferry gold from the New World to Madrid, the Portuguese built small caravels to return with something more valuable: information. A National Navigational Institute was established in Sagres, where Prince Henry collated the raw data being delivered by the caravels: latitude, longitude, ocean depths, coastal landmarks, and current. Slowly, the caravels moved down the western coast of Africa, overcame the nautical and psychological obstacle of rounding the Horn, and slowly pushed up the Eastern coast. Each new voyage built on the incremental knowledge gleaned from the last and the certain knowledge of the ultimate goal. When Vasco DiGama reached India, the price of pepper in Venice plunged. A new route to the spice trade had been established, a route which did not require the payment of costly tributes at regular intervals along the land route, and a wealthy Empire which would last two centuries was established. The National Institutes of Health represent this nation's commitment to the importance of basic research. In the history of all mankind there has never been a greater, more consistent, and publically funded investment to understand the biology of human disease. Like the caravels, research laboratories and clinical trials have steadily moved forward with incremental progress toward a clearly visualized goal-the prevention and treatment of human disease. In the area of cancer research, we have clearly rounded the horn. The understanding of cancer at a basic level has now brought new targets for cancer treatment into sharper focus. We now understand cancer as a genetic disease. No longer do our therapies target a single cancer feature, uncontrolled growth. Instead, new vaccines like MART-1, gp100, p53 and ras peptides are targeting the cancer cell's ability to evade immune surveillance. Anti-angiogenesis agents like endostatin, Col-3, and angiostatin promise to inhibit the tumor's ability to make new blood vessels and convert cancer to a static, chronic disease. One advantage to these new angiogenesis inhibitors is their action against normal endothelial cells, rather than targeting the cancer itself. For this reason, the genetic plasticity of tumor cells, and their ability to develop drug resistance, is no longer relevant. The Clinton administration has recently announced its intention to add $4.7 billion to cancer research, essentially reaffirming the nation's initial investment of the National Cancer Act. The commitment could not have been better timed. When grants are funded at the 20th percentile, peer review does not work well. And when managed care makes clinical research nearly impossible, we erode the purpose of basic research and undermine the essence of our mission: the prevention and cure of human disease. The Administration's investment will prove to be wise. With the knowledge at hand, and the ability to translate this knowledge into new diagnostic, preventive and treatment approaches, we can begin to realistically vision cancer cures. A new era is at hand.
 ...
PMID:Investment in Research as a National Priority. 1038 87

Tumors do not grow without inducing a new vessel formation. The postulation of Dr. Folkman in 1971-that tumor growth is angiogenesis-dependent-has been widely accepted, more than two decades later. The question now becomes, "Is it possible to treat cancer by attacking its blood supply?" Many pharmaceutical companies directed their research to antiangiogenic therapy in the past years. Despite increasing knowledge of tumor-induced angiogenesis, the mechanism as to how antiangiogenic agents inhibit new vessel formation remains unknown. Even the mechanisms of two of the most potent preclinical antiangiogenic drugs, angiostatin and endostatin, are still unknown. Many factors are involved in new vessel formation and experimental models are not sophisticated enough to take into account all factors that play a role in spontaneously occurring tumors. Translational research from the clinic to the laboratory is warranted for the discovery of new potent antiangiogenic agents. Our translational angiogenesis research started two years ago, when we hypothesized that circulating concentrations of vascular endothelial growth factor (VEGF), an important angiogenic factor, if initially elevated, would decrease during therapy in cancer patients. Until then, several investigators tried to correlate serum concentrations of VEGF with the prognosis of cancer patients. Fascinatingly, we found a specific pattern of VEGF concentrations that correlated exactly with the platelet counts of these patients during therapy. No relationship with tumor burden was detected, indicating that circulating levels of VEGF are not influenced by tumor cells, but are mainly dependent on platelet contents. In addition, it was shown by others that thrombin activation of platelets causes VEGF release.What then is the role of circulating VEGF carried by platelets? VEGF has been shown to induce permeability, has mitogenic and chemotactic activity on endothelial cells, and also has procoagulatory activity. Platelets play a critical role in wound healing and, if they are activated, they release upon activation, in addition to VEGF, other growth factors that are involved in angiogenesis (e.g., platelet-derived endothelial cell growth factor, thrombospondin, and platelet factor 4). On the other hand, in the clinic it was found that platelet counts have prognostic significance for cancer patients and that coagulation abnormalities are regularly found in cancer patients. In preclinical studies the tumor-platelet interactions have been studied extensively and a relationship between metastasis formation and platelet-tumor interaction has been reported. We are currently investigating whether a specific tumor endothelium-platelet interaction can contribute to tumor-induced angiogenesis.Although these translational studies have no direct impact on clinical cancer therapy, oncologists should be aware of a potential role for platelets in cancer growth. For example, bone marrow-supportive agents, currently used in high-dose chemotherapy, contribute to platelet production and thereby may influence response to therapy. At this time we investigate in our hospital the pretreatment platelet counts in cancer patients, and we are studying how bone marrow-supportive agents during chemotherapy affect these counts in relation to the response to therapy. We would be pleased to learn of your observations.
 ...
PMID:Tumor Growth: A Putative Role for Platelets? 1038 96

Endostatin is a carboxyl-terminal proteolytic fragment of collagen XVIII and a potent inhibitor of angiogenesis. The mechanism of action is unknown, but the crystal structure of endostatin predicts a prominent heparan sulfate binding site, suggesting that endostatin competitively inhibits heparin-binding angiogenic factors, such as basic fibroblast growth factor (FGF-2). The goal of the study was to map endostatin binding sites in intact human tissues and to determine whether this binding is heparan sulfate dependent. In situ binding was performed with recombinant epitope-tagged murine endostatin. Endostatin predominantly binds to blood vessels of different calibers in a saturable fashion. In addition, binding to some epithelial basement membranes is seen. The localization pattern is similar to that reported for collagen XVIII, endostatin's parent molecule. In breast carcinomas, endostatin co-localizes largely with FGF-2. In a surprising contrast to FGF-2, endostatin binding is resistant to treatment with heparitinase, demonstrating that binding is not mediated by heparan sulfate proteoglycans. Furthermore, FGF-2 and heparin do not compete for endostatin binding, providing additional evidence for the discreteness of endostatin and FGF-binding sites.
 ...
PMID:Endostatin binds to blood vessels in situ independent of heparan sulfate and does not compete for fibroblast growth factor-2 binding. 1039 39


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>