ライフサイエンスコーパス: Topo II

1 Topo II 3'-UTR sequence analysis and RNA-protein binding

2 Topo II activity is a suggested predictive marker in can

3 Topo II activity was detected via the numeric release of

4 Topo II also plays a role in maintaining mitotic chromos

5 Topo II can be poisoned by common chemotherapeutics (suc

6 Topo II dysfunction promotes aneuploidy and drives cance

7 Topo II retains high processivity on buckled chromatin (

8 Topo-II localized to the perimeter of mitotic chromosome

9 bited 47% Topo I (camptothecin, 34%) and 20% Topo II (etoposide 24%) at 20 muM.

10 3l inhibited 61% Topo II (etoposide 24%) at 20 muM.

11 But here, we define a Topo II-dependent G2/M checkpoint in a genetically amena

12 gnificantly reduced by coadministration of a Topo-II poison.

13 ent the signatures of inhibition of HDAC and Topo II in both cell-free and whole-cell assays.

14 HDAC and Topo II modify each other's activity in vitro and in viv

15 of combination chemotherapy with Topo I and Topo II inhibitors.

16 , RFC, RFA, DNA ligase I, NDH II, Topo I and Topo II) and cell cycle proteins (Cyclins A, B1, D1, D2,

17 Topoisomerase I (Topo I) and Topo II inhibitors can selectively inhibit Epstein-Barr

18 Examination of the structure of Topo IA and Topo II and modeling of the Toprim domains of the primas

19 juxtaposed, and inserts seen in Topo IA and Topo II.

20 We propose that PICH and Topo II cooperate to prevent chromosome missegregation e

21 Because Topo II gene expression is regulated posttranscriptional

22 2 and metaphase cell cycle delays induced by Topo II poisons have been proposed to be the result of c

23 , and this enhances the growth inhibition by Topo II drugs.

24 ion; by contrast, non-DNA-damaging catalytic Topo II inhibitors such as ICRF-187 and merbarone do not

25 Finally, the catalytic Topo II inhibitor ICRF-187 suppressed VM-26-induced-FasL

26 nd cleavage core of Saccharomyces cerevisiae Topo II (also known as Top2) and a gate-DNA segment.

27 Thus, compromised Topo II function activates a yeast checkpoint system tha

28 Complexes containing Topo II possess HDAC activities, and complexes containin

29 -untranslated region (3'-UTR) in controlling Topo II mRNA accumulation.

30 pport the hypothesis that cell cycle-coupled Topo II gene expression is regulated by interaction of t

31 increased binding correlated with decreased Topo II mRNA levels.

32 enhanced in G(1), correlating with decreased Topo II mRNA levels.

33 ycle and highlights a mechanism of directing Topo II-mediated strand passage via loop extrusion-drive

34 lls demonstrated that, similar to endogenous Topo II mRNA levels, the mRNA levels of reporter genes c

35 Finally, Topo II and Sgo1 are equally important for Ipl1 recruitm

36 nimal PET of animals with L1210 tumors (high Topo-II expressing) showed excellent tumor accumulation

37 f breast cancer cells with topoisomerase II (Topo II) drugs, whereas paclitaxel (Taxol) does not have

38 ents of the life essential topoisomerase II (Topo II) enzyme activity.

39 his study reports that DNA topoisomerase II (Topo II) inhibitors, doxorubicin and etoposide, synergis

40 one deacetylase (HDAC) and topoisomerase II (Topo II) inhibitors, respectively.

41 Topoisomerase II (Topo II) is a conserved enzyme that alters DNA structure

42 Topoisomerase II (Topo II) is essential for mitosis since it resolves sist

43 Topoisomerase II (Topo II) performs topological modifications on double-st

44 Topoisomerase II (Topo II) poisons such as etoposide can induce abortive D

45 potential to interact with topoisomerase II (Topo II) than did the other Ginkgo biloba constituents;

46 nes identified encoded DNA topoisomerase II (Topo II), an enzyme known to have a role in transcriptio

47 itivity to an inhibitor of Topoisomerase II (Topo II), ICRF-193.

48 s not due to inhibition of topoisomerase II (Topo II).

49 de (VP16), an inhibitor of topoisomerase II (Topo II).

50 Topoisomerase II (Topo-II) is an essential enzyme in the DNA replication p

51 and colocalized with topoisomerase IIalpha (Topo II) and scaffold protein II (ScII).

52 Mammalian topoisomerase IIalpha (Topo II) is a highly regulated enzyme essential for many

53 l domain (CTD) of DNA topoisomerase IIalpha (Topo II) provides a novel function at inner centromeres

54 In Topo II knockdown cells, DNA damage triggered by Ginkgo

55 otecan results in a compensatory increase in Topo II alpha levels associated with increasing sensitiv

56 Cs) are potent antitumor agents that inhibit Topo-II.

57 d with that of animals with PC-3 tumors (low Topo-II expressing), and the L1210 tumor uptake was sign

58 During mitosis, Topo II relieves topological stress associated with unwi

59 ited to increase the therapeutic activity of Topo II drugs.

60 trongly stimulates the catalytic activity of Topo II in vitro.

61 n is distinct from the catalytic activity of Topo II.

62 Previously, we found an allele of Topo II, top-2(it7), disrupts homologous chromosome segr

63 ed product enabled quantitative detection of Topo II activity at the single decatenation event level

64 promoting solely the structural function of Topo II.

65 The Ca2+-induced inhibition of Topo II catalytic activity and direct binding of Ca2+ to

66 resent evidence that catalytic inhibition of Topo II, which activates the checkpoint, leads to SUMOyl

67 tially decondensed chromosomes and a loss of Topo II and ScII, but not hCAP-C and histones.

68 ase (Topo) I inhibitors in the modulation of Topo II levels and sensitivity to Topo II-directed drugs

69 the described highly sensitive monitoring of Topo II activity may add considerably to the toolbox of

70 However, the role and regulation of Topo II during meiosis is not well-defined.

71 d in vitro genotoxicity may be the result of Topo II inhibition.

72 l (64)Cu-TSC complexes and the expression of Topo-II activity.

73 ounds is related to the expression levels of Topo-II in tumor tissue.

74 ere compared with the activity and levels of Topo-II, as determined by a commercially available assay

75 mors, which expressed high and low levels of Topo-II, respectively.

76 complexes containing HDAC1 or HDAC2 possess Topo II activities.

77 We conclude that by retarding Topo II-driven decatenation, cohesin mediates sister chr

78 For instance, complex-stabilizing Topo II inhibitors such as etoposide, teniposide, and do

79 firmed by using a biochemical assay to study Topo II enzyme inhibition.

80 The data indicate that SUMOylated Topo II recruits Aurora B to ectopic sites, constituting

81 providing scientific rationale for targeting Topo II to manage acquired resistance to osimertinib.

82 el organisms has excluded genetic proof that Topo II checkpoints exist and are separable from the con

83 Furthermore, we show that Topo II alpha levels decline 5 days after the last dose

84 netic and biochemical evidence suggests that Topo II recruits Ipl1 via the Haspin-histone H3 threonin

85 mRNA levels of reporter genes containing the Topo II 3'-UTR varied during the cell cycle and were max

86 or camptothecin and, to a lesser extent, the Topo II inhibitor etoposide are potent inhibitors of the

87 y checkpoint components are required for the Topo II checkpoint, but checkpoint activation is not the

88 the checkpoint, leads to SUMOylation of the Topo II C-terminal domain (CTD).

89 its levels affected cell sensitivity to the Topo II-targeting drug etoposide.

90 y of tumors to subsequent treatment with the Topo II inhibitor etoposide.

91 lytic activity and direct binding of Ca2+ to Topo II by a fluorescent filter-binding assay supports a

92 ion of FasL promoter activity in response to Topo II inhibitors such as VM-26 mimicked endogenous Fas

93 ulation of Topo II levels and sensitivity to Topo II-directed drugs, athymic mice bearing SW480 human

94 increased susceptibility and sensitivity to Topo II-induced DNA double-strand breaks, thereby reveal

95 Given type-II DNA topoisomerase (Topo II)-catalyzed topology fluctuations, we find that i

96 to investigate effects of DNA topoisomerase (Topo) II inhibitors on FasL promoter activity.

97 lar trigger of the metaphase checkpoint when Topo II is catalytically inhibited.

98 sess mechanisms to delay anaphase onset when Topo II is perturbed, providing additional time for deca

99 n induce abortive DNA strand breaks in which Topo II remains covalently bound to a 5' DNA strand term

100 ate that HDAC1 and HDAC2 are associated with Topo II in vivo under normal physiological conditions.

101 that DNA damage is directly associated with Topo II.