UMLS:C0017638 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The bradykinin analog, RMP-7, was investigated for its ability to selectively increase uptake of molecular tracers in RG2 glial tumors. When infused in low doses (0.1 microgram/kg/min) through the intracarotid artery ipsilateral to RG2 gliomas in rats, RMP-7 significantly increased the permeability of tumor capillaries to methotrexate and to four other tracers of varying molecular weights, compared to intracarotid infusion of vehicle alone. Tracers used to examine permeability included radiolabeled alpha-aminoisobutyric acid (M(r) 103 D), sucrose (M(r) 342 D), methotrexate (M(r) 454.5 D), inulin (M(r) 5000 D), and dextran (M(r) 70,000 D). Permeability was expressed as the unidirectional transfer constant, Ki (microliters/gm/min). The permeability (Ki) of tumors in the RMP-7 group compared to the vehicle control group was as follows: alpha-aminoisobutyric acid, 35.3 +/- 9.11 versus 12.7 +/- 4.56 (p < 0.001); sucrose, 16.5 +/- 3.83 versus 9.28 +/- 3.12 (p < 0.05); methotrexate, 26.3 +/- 10.3 versus 8.98 +/- 6.78 (p < 0.005); inulin, 13.5 +/- 3.23 versus 6.55 +/- 4.32 (p < 0.005); dextran, 15.2 +/- 3.42 versus 1.47 +/- 1.24 (p < 0.001). The permeability of RG2 gliomas to high-molecular-weight dextran (70,000 D) was 10.3-fold higher in the RMP-7 group than in the vehicle control group. Intracarotid infusion of RMP-7 did not significantly increase the blood volume in tumor or brain tissue. The permeability of normal brain capillaries was unaffected by intracarotid infusion of 0.1 microgram/kg/min RMP-7 relative to that achieved in tumor. These data support the idea that intracarotid infusion of RMP-7 will be a useful technique for selective delivery of antitumor compounds to brain tumors.
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PMID:Intracarotid infusion of RMP-7, a bradykinin analog: a method for selective drug delivery to brain tumors. 793 23

The effect and mechanism of the blood-brain barrier-permeabilizing agent, RMP-7, was investigated in a series of studies employing a rat RG2 glioma model. Changes in uptake of carboplatin into brain tumor and various nontumor brain tissue regions was determined using a sophisticated image analysis system. This system permitted quantitative autoradiography to be analyzed simultaneously with overlayed histological images from the same coronal brain section. A wide range of intracarotid doses of RMP-7 (0.01 to 9.0 micrograms/kg) was shown to significantly increase the permeability of carboplatin into tumor tissue and surrounding brain tissue (up to twofold) in a dose-dependent manner. Additionally, substantially greater permeability effects were seen in the tumor compared to healthy brain. Moreover, a clear topographic profile was observed in nontumor brain tissue, with progressively less uptake observed with increasing distance from the tumor. The fact that RMP-7 increased the uptake of carboplatin into ipsilateral brain tissue outside the tumor mass has potential implications for treating human glioma patients, for it is commonly recognized that tumor cells typically migrate from the tumor mass into surrounding brain tissue thereby escaping conventional attempts to destroy the malignant cells. To help elucidate the mechanism of RMP-7's permeability effects, the uptake of carboplatin was also determined under conditions where either the bradykinin B2 receptor antagonist, HOE140, or the B1 antagonist, [desArg10]HOE140, was coadministered with RMP-7. Results indicate that RMP-7's effects are mediated specifically through bradykinin B2 receptors. Furthermore, neither bradykinin antagonist alone affected the uptake of carboplatin into the leaky tumor region, suggesting that abnormal elevations in endogenous bradykinin activity are not likely responsible for the characteristic leaky nature of the tumor vascular barrier. The combined results from these studies therefore offer new insight into the characteristics of the vascular barriers in normal and tumor brain tissue and further elucidate the novel permeability effects of RMP-7. Together, they support its potential use as an adjunctive therapy for the selective delivery of chemotherapeutic drugs to brain tumors and possibly other neurodegenerative conditions.
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PMID:Unlocking the blood-brain barrier: a role for RMP-7 in brain tumor therapy. 881 55

The novel bradykinin (BK) analog, RMP-7, was characterized in a series of in vitro tests to establish its selectivity as a B2 agonist. It was then used to study bradykinin's role in permeabilizing the blood brain barrier (BBB) and blood brain-tumor barrier (BTB), using an RG2 rat glioma model. These studies demonstrated that: (1) B2 receptor stimulation permeabilizes both the BBB and BTB in a dose-related fashion with greater effects observed in brain tumor-associated tissue, (2) the increased permeability is sensitive, rapid and transient, and (3) tachyphylaxis occurs with continuous agonist administration, suggesting autoregulation of the system's effects. These data therefore support the existence of a sophisticated, responsive and tightly regulated BK system whose activity modulates the permeability of the BBB.
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PMID:Permeability of the blood brain barrier by the bradykinin agonist, RMP-7: evidence for a sensitive, auto-regulated, receptor-mediated system. 885 61

The effect of intracarotid infusion of the bradykinin analog, RMP-7, on blood-to-tumor and blood-to-brain transport of three cytokines were investigated. Wistar rats with RG2 gliomas were utilized and a unidirectional transfer constant, Ki, was determined using quantitative autoradiography. Interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), and interleukin-2 (IL-2) were labeled with 125Iodine for quantitative transport studies using autoradiography. Radiolabeled cytokines were injected as an intravenous bolus. Intracarotid infusion of RMP-7 (0.1 microgram kg-1 min-1) increased the selective transport to tumors of IFN-gamma by 3.97-fold (p < 0.005), of TNF-alpha by 5.30-fold (p < 0.005), and of IL-2 by 4.34-fold (p < 0.005), compared to intracarotid saline infusion. To determine whether the increased IFN-gamma or TNF-alpha transport to tumors with RMP-7 could enhance expression of intercellular adhesion molecule 1 (ICAM-1) in tumors, ICAM-1 expression in RG2 glioma was evaluated by immunohistochemistry. Both IFN-gamma and TNF-alpha increased ICAM-1 expression of RG2 cells in vitro. In vivo, intracarotid infusion of IFN-gamma combined with RMP-7 significantly enhanced ICAM-1 expression in intracerebral RG2 gliomas compared to infusion of IFN-gamma without RMP-7. Expression of ICAM-1 was not enhanced by TNF-alpha combined with RMP-7. Intracarotid infusion of RMP-7 is a novel method of cytokines delivery to brain tumors.
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PMID:Enhanced cytokines delivery and intercellular adhesion molecule 1 (ICAM-1) expression in glioma by intracarotid infusion of bradykinin analog, RMP-7. 932 27

Herpes simplex virus thymidine kinase (HSV-tk) gene therapy for brain tumors depends on ganciclovir (GCV) and its transport across the blood-brain tumor barrier (BBTB). We examined whether RMP-7, the bradykinin analog and potent BBTB permeabilizer, could enhance the efficacy of GCV treatment of brain tumors by increasing the BBTB delivery of GCV. In vitro, a significant bystander cytocidal effect of GCV was shown in mixed HSV-tk-transduced (HSV-tk+) and control vector-transduced (HSV-tk-) C6 glioma cultures. A dose-dependent cytotoxic effect of GCV on untransformed C6 cells was also shown. In vivo, rats with 100% HSV-tk+ or 100% HSV-tk- intracerebral C6 gliomas were treated for 7 days with intravenous infusions of GCV alone or with GCV and RMP-7 (2.5 microg/kg/day). The growth of HSV-tk+ and HSV-tk- gliomas decreased with increasing doses of GCV. A high dosage (100 mg of GCV/kg/day) eradicated all HSV-tk- and HSV-tk+ tumors. An intermediate dosage (5 mg of GCV/kg/day) reduced the growth of HSV-tk- gliomas by 42% if given alone, and by 88% in combination with RMP-7. A low dosage (0.5 mg of GCV/kg/day) in combination with RMP-7 enhanced the regression of HSV-tk+ gliomas by 87% compared with GCV alone. Low-dose GCV was ineffective in HSV-tk- tumors. RMP-7 increased [3H] GCV tumoral uptake by 2.6- and 1.7-fold in the tumor center and periphery, respectively. We conclude that RMP-7 could be an important adjunctive treatment for suicide gene therapy of brain tumors, while an RMP-7/GCV combination may also have a significant antitumor effect in untransfected gliomas.
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PMID:Intravenous RMP-7 increases delivery of ganciclovir into rat brain tumors and enhances the effects of herpes simplex virus thymidine kinase gene therapy. 960 10

RMP-7, a nine amino acid peptide bradykinin agonist, increases the delivery of hydrophilic compounds across the blood-tumour barrier. In this dose ranging study, 14 patients with progressing malignant glioma (9 glioblastoma multiforme, 4 anaplastic astrocytoma, 1 anaplastic oligodendroglioma; age range 31-68 years, baseline Karnofsky range 60-90%, 5 having had prior chemotherapy) were treated with intravenous RMP-7 and carboplatin to assess the safety, tolerability, and side-effect profile of increasing doses of this combination. Carboplatin dosing was by target area under the curve (AUC) according to the Calvert protocol. Patients were allocated to one of five treatment regimes: cohort A (n = 2) received 50 ng/kg RMP-7 and target AUC 5 mg/ml/min carboplatin; cohort B (n = 3) 100 ng/kg RMP-7 + AUC 5; cohort C (n = 2) 100 ng/kg RMP-7 + AUC 7; cohort D (n = 2) 200 ng/kg RMP-7 + AUC 7; cohort E (n = 5) 300 ng/kg RMP-7 + AUC 7. Treatment was given once every 4 weeks with magnetic resonance imaging scans every 2 months. Patients received 37 cycles in total (median 2, range 1-7). The drug combination, as a cancer treatment, was tolerated in all groups. Effects possibly related to RMP-7 included flushing, nausea, headache and mild increase in heart rate, all transient. 3 patients in cohort E experienced grade 3/4 neutropenia and thrombocytopenia. These toxicities are consistent with known effects of carboplatin at this dose range. In cohort E (n = 5) 1 patient improved and another remained stable for > or = 6 months. In summary, the dose was escalated to the maximum dose of RMP-7 given to volunteers without additional related side-effects. The side-effects of the combination were consistent with giving the two drugs alone and would merit further study for efficacy.
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PMID:A phase I study of intravenous RMP-7 with carboplatin in patients with progression of malignant glioma. 989 73

Cereport (RMP-7) is a selective bradykinin B2 receptor agonist which increases the permeability of the 'blood-brain tumour barrier' (BBTB) to increase delivery of chemotherapeutic agents to brain tumours. A series of experiments was performed in an RG2 rodent model of glioma to evaluate and refine intravenous (i.v.) parameters to optimize Cereport's clinical utility. The first experiment demonstrated that while carboplatin levels were increased by twofold when given as a bolus during the Cereport infusion, no increase in carboplatin levels were seen when Cereport and carboplatin were simultaneously co-infused for 15 min. A subsequent experiment established that a major factor responsible for the lack of an effect with the co-infusion paradigm was tachyphylaxis to Cereport during the 15 min infusion, for a progressively diminished response to Cereport occurred over that time frame, as plasma levels of carboplatin were rising. A final experiment adjusted the timing of the Cereport and carboplatin infusions so that higher plasma carboplatin levels were achieved prior to initiating the Cereport infusion. Significant uptake effects were achieved when the carboplatin infusion preceded the Cereport infusion by 10 min (i.e. 5 min overlap in the delivery of the two agents). Collectively, these data provide the first systematic evaluation of dosing parameters involving receptor-mediated changes in BBTB permeability and provide new information regarding the pharmacodynamics and potential clinical use of Cereport.
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PMID:Enhanced delivery of carboplatin into brain tumours with intravenous Cereport (RMP-7): dramatic differences and insight gained from dosing parameters. 1036 3

The selective bradykinin analogue, RMP-7, transiently increases the permeability of the blood brain barrier and the delivery of hydrophilic agents into brain tumours. In 87 recurrent glioma patients (WHO Grade III/IV, median age 46, Karnofsky 70%) clinical and Magnetic Resonance Imaging (MRI) responses to i.v. cycles (q 28 days) of RMP-7 (300 ng/kg given as a 10 min infusion) and carboplatin (AUC 4-9) were assessed. 45 of these patients were chemotherapy naive (CN-RMP) and 42 had received one prior course of chemotherapy (CP-RMP). Neurological impairment, performance status and steroid use were measured prior to dosing at each cycle and tumour volume by 3-D MRI at the end of cycles 2, 4, 6, 9 and 12. Clinical evaluation of response demonstrated that 61% of CN-RMP patients were either stable or improved whilst this was 39% for CP-RMP patients, of which 37% and 8% improved respectively. Radiological evaluation showed 79% of CN-RMP patients were either stable, partial or complete responses and 24% for CP-RMP patients, of which 32% and 5% were CR or PR respectively. The median duration of response was 30.3 weeks in CN-RMP patients and 19.6 weeks in the CP-RMP group. Lack of response was associated with substantial baseline tumour volume. Drug toxicity was as previously reported for carboplatin. 11 patients had treatment-associated transient focal seizures. These results indicate that RMP-7 and carboplatin have significant activity in recurrent malignant glioma following radiotherapy.
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PMID:Phase II studies of RMP-7 and carboplatin in the treatment of recurrent high grade glioma. RMP-7 European Study Group. 1061 97

Cereport (RMP-7) enhances delivery of chemotherapeutics into brain tumors by increasing the permeability of the glioma vasculature (i.e. , the blood-brain tumor barrier; BBTB). Its effect on brain tumors has consistently been more robust than that on normal brain. The present experiments tested the hypothesis that the ability of Cereport to increase the permeability of infiltrating glioma colonies increases as the glioma colonies develop, in situ. In an initial preliminary experiment, the significant and selective effects of Cereport in tumor tissue and brain surrounding tumor were verified using [(14)C]carboplatin as a marker, 8 days after implantation of 50,000 RG2 cells. A second preliminary experiment established that the number of tumor cells initially seeded influences the growth rate of the tumor mass. Tumors seeded with 50,000 cells were larger than those seeded with 25,000 cells 3, 5, and 8 days after implantation. Next, the hypothesis that the extent of tumor growth increases Cereport's effects on the BBTB was tested by measuring the concentration of radiolabeled carboplatin in the tumor when 50,000 cells were implanted 3, 8, or 13 days prior to the experiment. While a reliable, approximately twofold increase in carboplatin concentration was seen in the 8- and 13-day-old tumors, no significant effect of Cereport was observed in the tumors that developed only 3 days, in situ. Finally, another test of the hypothesis was made by comparing Cereport's effects on 8-day-old tumors initially seeded with either 50,000 or 25,000 cells (the latter producing a smaller, more slowly developing, tumor mass). Again, significantly higher carboplatin concentrations were seen with Cereport in the 50,000 cell tumors (greater than two-fold increase), compared to the smaller, more slowly developing, 25,000 cell tumors (<30% increase). The tumor and its vasculature were characterized in additional rats implanted with RG2 cells using CD-31, laminin, and bradykinin B(2) receptor immunocytochemistry. Intense B(2) receptor staining was observed on cells within the parenchyma of normal brain and tumor but not on the vasculature of tumor or brain. An extensive network of CD-31 and laminin staining was seen within and around the tumors in all groups, indicating relatively rapid and robust changes in vascularity in response to the gliomas. However, no consistent difference in vascularity between groups was observed to account for the uptake differences seen with Cereport. Collectively, these data offer initial preclinical empirical support for the hypothesis that Cereport's effects on tumor permeability increase as the tumor grows, which we further hypothesize is likely related to features of vascular development within the tumor independent of numbers or general morphology of vessels. If a similar phenomenon is shown to occur with infiltrating colonies from spontaneously forming gliomas in humans or from newly emerging metastases in brain, these data could impact the design and conduct of future trials using approaches intended to enhance delivery of chemotherapeutics through increased permeability of the tumor vascular barrier.
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PMID:Evidence that Cereport's ability to increase permeability of rat gliomas is dependent upon extent of tumor growth: implications for treating newly emerging tumor colonies. 1068 90

A number of different viral vectors have been used for gene therapy of tumors, with many more under construction, ultimately designed to improve tumor targeting and transduction efficiency. It has become apparent that insufficient viral delivery can be a key limitation to treatment efficacy. We have studied the in vivo mass distribution of a herpes simplex virus type 1 (HSV) vector, hrR3, by radiolabeling it with 111In-oxine. The virus was administered to intracerebral 9L glioma bearing Fisher (F-344) rats by intracarotid and intratumoral injection. The blood half-life of the virus was 1 min (fast component, 10% contribution) and 180 min (slow component, 90% contribution). Approximately 20% of activity had been excreted by 24 h. With intracarotid injection, the total amount of virus that accumulated in tumor was 0.10+/-0.07% of the injected dose (ID)/g at 1 h and 0.19+/-0.01% ID/g at 24 h. By comparison, co-injection of RMP-7, a synthetic bradykinin analog, with the virus, resulted in slightly increased tumor delivery of 0.17+/-0.10% ID/g (P 0.05) at 1 h. The 1 h organ distribution after intra-arterial injection (%ID/organ) was as follows: liver 273+/-2.86%, lung 2.10+/-0.68% and kidney 1.78+/-1.60% with lesser amounts in other organs. When virus was injected directly into the tumor, 71% of virus remained in tumor at 24 h (590+/-212 %ID/g, consistent with the small tumor mass containing most of the virus) with the following distribution regions: tumor > border zone > normal brain (99:40: 1). These studies are the first quantitative mass distribution studies of HSV vectors in an experimental brain tumor model. Localization and quantitation of viral accumulation in vivo will enable detailed analysis of viral and organ interactions critical for advancing the therapeutic use of vectors.
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PMID:Quantitation of HSV mass distribution in a rodent brain tumor model. 1108 73

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