ライフサイエンスコーパス: gliosarcoma

1 ase to characterize the genomic landscape of gliosarcoma.

2 estricted to the mesenchymal tumor area of a gliosarcoma.

3 e to treat glioblastoma multiforme (GBM) and gliosarcoma.

4 e days after intracranial implantation of 9L gliosarcoma.

5 eukocyte populations infiltrating the rat 9L gliosarcoma.

6 oplastic cells additionally expressed FAP in gliosarcoma.

7 e sarcoma alone, and 9 were more distinct to gliosarcoma.

8 1 patients who were enrolled, 13 of them had gliosarcoma.

9 n in glial and mesenchymal tumor areas of 13 gliosarcomas.

10 of 125IUdR in rats bearing intracerebral 9L gliosarcomas.

11 ions derived from normal animals and from 9L gliosarcomas.

12 described in glioblastomas and especially in gliosarcomas.

13 n neoplasms (4 of 12, 33%; 1 glioblastoma, 1 gliosarcoma, 1 astrocytoma, 1 unspecified type) and schw

14 In rats with 9L gliosarcoma, [(18)F]9 and [(18)F]28 provided high tumor

15 2.1% +/- 0.3 (standard error of mean) for 9L gliosarcoma, 3.1% +/- 0.4 for DU4475 mammary adenocarcin

16 Of the 19 common genes in gliosarcoma, 6 were also common in both GBM and soft tis

17 Rat gliosarcoma 9L cells stably expressing ETR (ETR+) were u

18 opoietic lineage (bladder carcinoma BC47 and gliosarcoma 9L).

19 mes extravasate in tumors such as the rat 9L gliosarcoma and accumulate in perivascular areas.

20 the clinical relevance of FAP expression in gliosarcoma and glioblastoma and how it correlates with

21 barrier in both the 9L (6-fold improvement) gliosarcoma and invasive F98 (28-fold improvement) gliom

22 om p-boronophenylalanine (BPA) in the 9L rat gliosarcoma and the F98 rat glioma brain tumor models.

23 ate its therapeutic outcome on the rodent 9L gliosarcoma and the human U87 glioblastoma models.

24 We analyzed genomic alterations in gliosarcomas and compared them to GBM (n = 1,449) and so

25 cal resection, and histology (glioblastoma v gliosarcoma) and then randomly assigned to arm A (BCNU p

26 within glioma cells, collagen deposition in gliosarcoma, and irregularity and disruption of myelinat

27 patients with glioblastoma, three (17%) with gliosarcoma, and one (6%) with anaplastic ependymoma.

28 and mesenchymal tumor areas, suggesting that gliosarcomas are genetically monoclonal, and mesenchymal

29 toma and a particularly strong expression in gliosarcoma attributed to traits of predominant mesenchy

30 increased tumor capillary permeability in 9L gliosarcoma-bearing rats with no significant increase in

31 Despite their unique histologic features, gliosarcomas belong to the group of glioblastomas and ar

32 phenylalanine-fructose (BPA-F) in the rat 9L gliosarcoma brain tumor model.

33 Recently, we showed that the rat 9L gliosarcoma cell line, which does not express BEHAB/brev

34 immunization of rats with IL-4 transduced 9L gliosarcoma cells (9L-IL-4) induced a potent antitumor i

35 The 9L gliosarcoma cells assays showed that 4b is mainly a subs

36 The kinetics of viral infection of rat 9L gliosarcoma cells by the replication-conditional HSV-1 v

37 Amino acid transport assays using 9L gliosarcoma cells demonstrated that both compounds are s

38 We have found that vaccination with rat 9L gliosarcoma cells expressing interleukin 4 (9LmIL4) indu

39 es for amino acid transport and enter 9L rat gliosarcoma cells in vitro at least in part by system A

40 es the cytotoxic events induced by CPA in 9L gliosarcoma cells retrovirally transduced with CYP2B6, o

41 Rat 9L gliosarcoma cells stably expressing either basal or elev

42 Here, we transformed rat 9L gliosarcoma cells to express cel-miR-67, a miRNA that la

43 9L gliosarcoma cells transduced with the CPA-activating enz

44 9L gliosarcoma cells were implanted in both hemispheres in

45 The 9L gliosarcoma cells were implanted in the brain of eight r

46 inant retroviruses were used to transduce 9L gliosarcoma cells with the genes encoding P450 2B6 and N

47 Three days after implantation of 9L gliosarcoma cells, 125IUdR was administered intrathecall

48 transport assays performed in vitro using 9L gliosarcoma cells, both [18F]16 and [18F]17 were substra

49 In rats implanted intracranially with 9L gliosarcoma cells, the retention of radioactivity in tum

50 a concentration of 10 muM against rat 9L-SF gliosarcoma cells.

51 ated the antitumor effect of ErPC3 in 9L rat gliosarcoma cells.

52 of glioblastoma, anaplastic astrocytoma, and gliosarcoma cells.

53 cytotoxicity in a population of infected 9L gliosarcoma cells.

54 ecal (i.t.) implantation of 5 x 10(5) 9L rat gliosarcoma cells.

55 A- or IFA-metabolizing human CYP genes to 9L gliosarcoma cells: 2B6, 2C8, 2C9, 2C18 (Met385 and Thr38

56 MCF7 (breast), DU145 (prostate), and SF539 (gliosarcoma) cells were exposed to a total radiation dos

57 Active Cy annexin was used to image a 9L gliosarcoma, constitutively expressing green fluorescent

58 Gliosarcoma contains molecular features that overlap GBM

59 83), anaplastic glioma (U-87MG and U-138MG), gliosarcoma (D-32GS), or normal human astrocytes demonst

60 Nineteen common genes were identified in gliosarcoma, defined as those altered in > 5% of samples

61 differing degrees of angiogenesis-9L rodent gliosarcoma, DU4475 human mammary adenocarcinoma, HT1080

62 lioblastoma multiforme, gliomatosis cerebri, gliosarcoma, ependymoma, and subependymoma, for their po

63 Although gliosarcomas express higher levels of FAP than do gliobl

64 6; anaplastic oligodendroglioma [AO], n = 2; gliosarcoma [GS], n = 1; and metastatic adenocarcinoma,

65 Cell assays in rat 9L gliosarcoma, human U87 DeltaEGFR glioblastoma, and human

66 FDG) in which the uptake of each agent in 9L gliosarcoma (implanted intracerebrally in Fisher 344 rat

67 ion of 123IUdR/125IUdR into intracerebral 9L gliosarcomas in rats results in selective uptake of the

68 mas (intratumoral injection), or intrathecal gliosarcomas (intrathecal injection).

69 cer (*IUdR by intravesical injection), brain gliosarcomas (intratumoral injection), or intrathecal gl

70 Gliosarcoma is a rare glioblastoma variant characterized

71 Gliosarcoma is an aggressive brain tumor with histologic

72 esenchymal components in a small fraction of gliosarcomas may be derived from glial cells with additi

73 l fibroblasts) as well as in tumor cells (9L gliosarcoma, MCF7 adenocarcinoma, and HT-1080 fibrosarco

74 sted in vivo by treating an intracranial 9 L gliosarcoma model in F344 rats.

75 tial for this disease in a 9L rat orthotopic gliosarcoma model using a combination of noninvasive ima

76 umor mass and increased survival in a rat 9L gliosarcoma model, whereas individual monotherapies were

77 Gliosarcoma mutations with potential therapeutic indicat

78 Methods: Patients diagnosed with gliosarcoma or glioblastoma without sarcomatous differen

79 Sequencing data was obtained from 35 gliosarcoma patients from Genomics Evidence Neoplasia In

80 Experiments were performed with the 9L gliosarcoma rat model using a needle oxygen electrode to

81 b locally in the brain in an intracranial 9L gliosarcoma rat model.

82 nsgenic SF/HGF expression by intracranial 9L gliosarcomas reduced tumor cell sensitivity to gamma irr

83 i.p. injection of BPA in the 9L gliosarcoma resulted in a tumor-to-brain (T:Br) boron-10

84 s 3- and 6-h i.v. infusions of BPA in the 9L gliosarcoma resulted in similar high boron-10 concentrat

85 Co-implantation of NanoMesh and 9L gliosarcoma resulted in statistically significant long-t

86 A gliosarcoma rodent model was established to determine th

87 Like human gliomas, the rat 9L gliosarcoma secretes the immunosuppressive transforming

88 experiments with cannulated rats bearing 9L gliosarcoma showed a preferential localization of the TA

89 FAP expression is much more abundant in the gliosarcoma subgroup of glioblastomas.

90 chemistry revealed significantly more FAP in gliosarcomas than in glioblastomas without sarcomatous d

91 In the 9L gliosarcoma, this ratio was 2.9:1 after i.p. administrat

92 ischer rats implanted intracranially with 9L gliosarcoma tumor cells were also performed.

93 2-h i.v. infusion of BPA in rats with the 9L gliosarcoma, tumor boron-10 concentrations were 2.7 time

94 ow-derived dendritic cells (DCs) into rat 9L gliosarcoma tumors and into 9L tumors induced to undergo

95 rats and mice orthotopically implanted with gliosarcoma tumors or glioma stem-like cells, respective

96 In rats bearing 9L gliosarcoma tumors, 4b displayed high tumor to brain rat

97 Further analyses of 64 cases of gliosarcoma using quantitative PCR showed amplification

98 eligible adults with newly diagnosed GBM or gliosarcoma were enrolled.

99 Forty-eight male rats bearing a 9L gliosarcoma were randomized in untreated and treated (so

100 Using a model of gliosarcoma with stably green fluorescence protein-expre

101 of orthotopic glioma (SF188/V+ glioma and 9L gliosarcoma) with a model of radiation necrosis in rats,

102 not always achieved, as shown here, when 9L gliosarcoma xenografts were treated over a range of dose