UNIPROT:P39060 - FACTA Search

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Query: UNIPROT:P39060 (endostatin)
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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.
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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.
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PMID:Tumor Growth: A Putative Role for Platelets? 1038 96

The discovery of specific endothelial inhibitors such as angiostatin and endostatin not only increases our understanding of the functions of these molecules in the regulation of physiological and pathological angiogenesis, but also provides an important therapeutic strategy for cancer treatment. Recent studies have demonstrated that the angiostatin protein significantly suppresses the growth of a variety of tumors in mice. However, the dosages of angiostatin protein used in these animal studies seem to be too high for clinical trials. In addition, repeated injections and long-term treatment with angiostatin are required to reach its maximal antitumor effect. In this article, I will discuss several alternative approaches that may become feasible to move angiostatin therapy from animal experiments into the clinic. In particular, I will emphasize the therapeutic potentials of angiostatin gene therapy and more potent angiogenesis inhibitors that are related to angiostatin.
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PMID:Therapeutic potentials of angiostatin in the treatment of cancer. 1040 8

Gene therapy transfer of angiostatin and endostatin represents an alternative method of delivering angiogenic polypeptide inhibitors. We examined whether liposomes complexed to plasmids encoding angiostatin or endostatin inhibited angiogenesis and the growth of MDA-MB-435 tumors implanted in the mammary fat pads of nude mice. We determined that plasmids expressing angiostatin (PCI-Angio) or endostatin (PCI-Endo) effectively reduced angiogenesis using an in vivo Matrigel assay. We then investigated the efficacy of these plasmids in reducing the size of tumors implanted in the mammary fat pad of nude mice. Both PCI-Angio and PCI-Endo significantly reduced tumor size when injected intratumorally (P < 0.05). Compared to the untreated control group, the mice treated with PCI-Angio and PCI-Endo exhibited a reduction in tumor size of 36% and 49%, respectively. In addition, we found that i.v. injections of liposomes complexed to PCI-Endo reduced tumor growth in the nude mice by nearly 40% when compared to either empty vector (PCI) or untreated controls (P < 0.05). These findings provide a basis for the further development of nonviral delivery of antiangiogenic genes.
Cancer Res 1999 Jul 15
PMID:Liposomes complexed to plasmids encoding angiostatin and endostatin inhibit breast cancer in nude mice. 1072 14

Circulating elongated forms of the angiogenesis inhibitor and potential anti-cancer drug endostatin were isolated from human blood filtrate. Immunoreactive endostatin was identified by a polyclonal rabbit antiserum raised against an N-terminal epitope of the polypeptide and purified by consecutive chromatographic steps and immunoblotting. N- and C-terminal sequence analyses of the isolated molecules revealed different forms of endostatin starting with V(117)HLRPAR. lacking the last and final three residues of the noncollagenous domain 1 (NC-1) of collagen XVIII, respectively. These polypetides are found to be O-glycosylated at T(125) (residue 9) with a glycan structure of the mucin type consisting of galactose N-acetylgalactosamine and N-acetylneuraminic acid residues. Carbohydrate analyses were performed via the semiquantitative HPLC-electrospray ionization mass spectrometry (ESMS) technique after exoglycosidase hydrolysis. Circulating endostatins are present as sialoglycoprotein (22 000 and 21 841 Da +/- 0.02%) and asialoglycoprotein structures (21 710 and 21 549 Da +/- 0.02%), while the two completely deglycosylated forms are obtained only after enzymatic incubation. The described glycosylated endostatins may represent intermediates in the proteolytic pathway of the NC-1 domain of collagen XVIII resulting in bioactive endostatins. Furthermore, immunoreactive endostatin-related C-terminal fragments of human collagen XV are found in the hemofiltrate. These polypeptides exhibit the N-terminal sequences P(66)HLLPPP. and Y(81)EKPALH. of the collagen XV NC-1 domain. ESMS and immunoblotting analyses reveal three glycosylated polypeptides with a molecular mass ranging from 16 to 21 kDa. Due to the high degree of homology between collagen XV and collagen XVIII as well as their analoqous proteolytic processing, functional similarities of collagen XVIII- and XV-related fragments should be revealed in future experiments.
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PMID:Novel glycosylated forms of human plasma endostatin and circulating endostatin-related fragments of collagen XV. 1044 Nov 14

A number of clinical studies have demonstrated the prognostic significance of angiogenesis and angiogenic growth factors in solid tumours; however, very little is known about the relevance of these parameters in haematological malignancies. We evaluated circulating levels of angiogenic growth factors and endostatin in 36 non-Hodgkin's lymphoma (NHL) patients. Baseline vascular endothelial growth factor (VEGF) levels of patients in complete remission (CR) after a median follow-up of 21 months were significantly lower than those of patients with progressive disease (P = 0.016). Event-free survival (EFS) rate was significantly higher in patients who had baseline VEGF and basic-fibroblast growth factor (b.FGF) levels below the median values of 147 and 19.5 pg/ml (P = 0.018 and 0.039 by log-rank test, respectively). Conversely, the levels of endostatin, angiogenin and leptin were not different in CR patients compared to relapsed patients and did not correlate with EFS. Our data suggest that b-FGF and, particularly, VEGF might be considered prognostic factors in NHL staging and management.
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PMID:Angiogenic growth factors and endostatin in non-Hodgkin's lymphoma. 1084 4

Carboxyamido-triazole (CAI) is an anti-invasive, antimetastatic, antiangiogenic agent in clinical development for cancer treatment. It has been postulated that food might enhance the oral absorption of micronized CAI based on an apparent discrepancy in steady state maximum concentrations when taken without regard to meals vs. fasting. The purpose of this study was to determine if a standardized meal affects the absorption and pharmacokinetics of this agent. Twelve patients with refractory cancers and good end organ function were randomized to receive two doses of CAI (250 mg/m2) with and without a standardized high fat meal. One cohort of 6 patients received these doses at 9 AM, and the remaining 6 patients received CAI at 9 PM. Blood was obtained prior to each dose, and serially thereafter. A series of pharmacokinetic (PK) models were fit to the concentration-time data. PK parameters were ultimately calculated using a model which allows simultaneous estimation of parameters from both test doses using nonlinear least squares analysis with ADAPT II. This model estimates independent absorption rate constants and relative fraction absorbed for each condition. AUC0-t was determined using the trapezoidal method, extrapolated to infinity, and used to calculate the relative bioavailability. No significant differences in PK parameters were noted between the morning and evening cohorts. However, the relative bioavailability, as measured by AUC0-infinity, of CAI was significantly increased when administered with a high fat meal compared to fasting (138.9 vs. 52.2 micrograms * hr/ml; p = 0.0005). The magnitude of the increase in relative bioavailability of CAI taken with food could have profound implications for patients who may inadvertently take this medication shortly after eating.
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PMID:Pharmacokinetics and relative bioavailability of carboxyamido-triazole with respect to food and time of administration: use of a single model for simultaneous determination of changing parameters. 1048 80

We conducted a Phase II clinical trial of the antiproliferative, antimetastatic, and antiangiogenic agent carboxyamido-triazole (CAI), using pharmacokinetic assessment to guide drug dosing. Fifteen patients who had stage D2 androgen-independent prostate cancer with soft tissue metastases were enrolled. Because CAI previously had been shown to decrease prostate-specific antigen secretion in vitro, this marker was not used to assess disease status. The dose of CAI used in this study was calculated so that plasma steady-state maximum concentrations between 2.0 and 5.0 microg/ml would be maintained. Following the initial dosage adjustment, 93% (14 of 15) of patients were within the predicted range. Fourteen of 15 patients were evaluable for response. All of the 14 evaluable patients demonstrated progressive disease at approximately 2 months. Twelve patients progressed by computed tomography and or bone scan at 2 months, whereas two patients demonstrated clinical progression at 1.5 and 2 months. One patient was removed from study at 6 weeks due to grade II peripheral neuropathy lasting >1 month. Although no clinical responses were noted, a 27.7% decrease in serum vascular endothelial growth factor concentration was observed. CAI does not possess clinical activity in patients with androgen-independent prostate cancer and soft tissue metastases. Pharmacokinetically guided dosing, although found to be feasible using a Bayesian approach, was not found to be of practical benefit. Although plasma CAI concentrations were maintained within the designated range, grade III toxicity requiring drug discontinuation was still observed.
Clin Cancer Res 1999 Sep
PMID:A pharmacokinetically guided Phase II study of carboxyamido-triazole in androgen-independent prostate cancer. 1049

Thanks to progress in zinc research, it is now possible to describe in more detail how zinc ions (Zn++) and nitrogen monoxide (NO), together with glutathione (GSH) and its oxidized form, GSSG, help to regulate immune responses to antigens. NO appears to be able to liberate Zn++ from metallothionein (MT), an intracellular storage molecule for metal ions such as zinc (Zn++) and copper (Cu++). Both Zn++ and Cu++ show a concentration-dependent inactivation of a protease essential for the proliferation of the AIDS virus HIV-1, while zinc can help prevent diabetes complications through its intracellular activation of the enzyme sorbitol dehydrogenase (SDH). A Zn++ deficiency can lead to a premature transition from efficient Th1-dependent cellular antiviral immune functions to Th2-dependent humoral immune functions. Deficiencies of Zn++, NO and/or GSH shift the Th1/Th2 balance towards Th2, as do deficiencies of any of the essential nutrients (ENs) - a group that includes methionine, cysteine, arginine, vitamins A, B, C and E, zinc and selenium (Se) - because these are necessary for the synthesis and maintenance of sufficient amounts of GSH, MT and NO. Via the Th1/Th2 balance, Zn++, NO, MT and GSH collectively determine the progress and outcome of many diseases. Disregulation of the Th1/Th2 balance is responsible for autoimmune disorders such as diabetes mellitus. Under Th2, levels of interleukin-4 (II-4), II-6, II-10, leukotriene B4 (LTB4) and prostaglandin E2 (PGE2) are raised, while levels of II-2, Zn++, NO and other substances are lowered. This makes things easier for viruses like HIV-1 which multiply in Th2 cells but rarely, if ever, in Th1 cells. AIDS viruses (HIVs) enter immune cells with the aid of the CD4 cell surface receptor in combination with a number of co-receptors which include CCR3, CCR5 and CXCR4. Remarkably, the cell surface receptor for LTB4 (BLTR) also seems to act as a co-receptor for CD4, which helps HIVs to infect immune cells. The Th2 cytokine II-4 increases the number of CXCR4 and BLTR co-receptors, as a result of which, under Th2, the HIV strains that infect immune cells are precisely those that are best able to accelerate the AIDS disease process. The II-4 released under Th2 therefore not only promotes the production of more HIVs and the rate at which they infect immune cells, it also stimulates selection for the more virulent strains. Zn++ inhibit LTB4 production and numbers of LTB4 receptors (BLTRs) in a concentration-dependent way. Zn++ help cells to keep their LTB4 'doors' shut against the more virulent strains of HIV. Moreover, a sufficiency of Zn++ and NO prevents a shift of the Th1/Th2 balance towards Th2 and thereby slows the proliferation of HIV, which it also does by inactivating the HIV protease. Research makes it look likely that deficiencies of ENs such as zinc promote the proliferation of Th2 cells at the expense of Th1 cells. Zinc deficiency also promotes cancer. Under the influence of Th1 cells, zinc inhibits the growth of tumours by activating the endogenous tumour-suppressor endostatin, which inhibits angiogenesis. The modern Western diet, with its excess of refined products such as sugar, alcohol and fats, often contains, per calorie, a deficiency of ENs such as zinc, selenium and vitamins A, B, C and E, which results in disturbed immune functions, a shifted Th1/Th2 balance, chronic (viral) infections, obesity, atherosclerosis, autoimmunity, allergies and cancer. In view of this, an optimization of dietary composition would seem to give the best chance of beating (viral) epidemics and common (chronic) diseases at a realistic price.
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PMID:Modern diets and diseases: NO-zinc balance. Under Th1, zinc and nitrogen monoxide (NO) collectively protect against viruses, AIDS, autoimmunity, diabetes, allergies, asthma, infectious diseases, atherosclerosis and cancer. 1049 17

This is a brief outline of just a few promising strategies which clinical cancer research may be expected to concentrate upon in the course of the forthcoming decades. As far as treatment is concerned, radiotherapists are investing considerable effort in the development of three-dimensional conformal techniques, the superior precision of which may permit higher (and probably more effective) target doses without unacceptable normal tissue damage. For medical oncology, some of the newer angiogenesis inhibitors have shown great experimental potential and clinical trials with proteins such as angiostatin and endostatin are being planned for the near future. Simultaneously, increasing numbers of large clinical studies are testing what various micronutrients can (or cannot) do for prevention. Their importance has been suggested by a long series of epidemiologic observations but direct clinical proof is still very scantly. In only one of the 4 intervention studies mentioned in the text, was the result as expected. Antiestrogens may well have brought breast cancer prevention much nearer as a clinical proposition. Prostate cancer intervention studies have only just begun, but even their rationale is backed by data in experimental animals.
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PMID:[Waiting for the break through: a few tentative scenarios for cancer prevention and treatment in the coming decades]. 1050 Apr 73

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