ライフサイエンスコーパス: Wilms' tumour

1 tructures resembling those observed in human Wilms tumour.

2 e cancers at higher rates than patients with Wilms tumour.

3 was to identify new predisposition genes for Wilms tumour.

4 nal development result in the development of Wilms tumour.

5 these defects define a distinct subclass of Wilms tumours.

6 te abnormally, possibly mimicking aspects of Wilms' tumour.

7 of blastemal cells in human fetal kidney and Wilms' tumours.

8 of childhood renal malignancies known as non-Wilms' tumours.

9 A hypermethylation in 21 of 39 (54%) primary Wilms' tumours.

10 3 (methyltransferase-like 3), METTL14, WTAP (Wilms tumour 1-associated protein) and KIAA1429.

11 Here, we show that Wilms' tumour 1 (WT1), a developmental master regulator

12 lling complex, is required for expression of Wilms' tumour 1 (Wt1), fetal EPDC activation and subsequ

13 One such gene is Wilms' tumour 1 (WT1), which plays multiple roles in dev

14 xpression of the epicardial master regulator Wilms' tumour 1 (WT1).

15 Mutations of the Wilms' tumour-1 (WT1) gene in humans can lead to childho

16 process of PGP midline convergence, we used Wilms' tumour 1a (wt1a) as a marker to label kidney prim

17 s have been found in the ENL YEATS domain in Wilms tumour(2,3), the most common type of paediatric ki

18 ts with renal tumours are diagnosed with non-Wilms tumour, a broad heterogeneous group of tumours tha

19 ressor gene, mutation of which is a cause of Wilms' tumour, a childhood renal nephroblastoma.

20 ing FBXW7 mutations in four individuals with Wilms tumour and a de-novo non-synonymous FBXW7 mutation

21 mary tumours) at CASP8, SLIT2 and RASSF1A in Wilms' tumour and at RASSF1A, TIMP3, DAPK, SLIT2, MT1G a

22 ma, brain tumours, adrenocortical carcinoma, Wilms' tumour and phyllodes tumour.

23 de novo promoter methylation is frequent in Wilms' tumour and RCC, and these data enable methylation

24 enetic gene silencing in the pathogenesis of Wilms' tumour and renal cell carcinoma (RCC), we determi

25 K, MGMT, NORE1A, p14ARF and RARB2 in primary Wilms' tumours and CASP8, CDH1, CDH13, CRBP1, DAPK, MGMT

26 uppressor gene, WT1, is mutated in 10-15% of Wilms' tumours and encodes zinc-finger proteins with div

27 des a zinc-finger protein that is mutated in Wilms' tumours and highly expressed in a wide variety of

28 presentation, imaging, and pathology of non-Wilms' tumours and this second part provides an updated

29 Thus, 40 Wilms' tumours and up to 49 adult RCC were analysed by m

30 phoma, malignant CNS tumours, neuroblastoma, Wilms' tumours, and bone and soft tissue sarcomas.

31 involved in the management of patients with Wilms' tumour are increasingly focusing their efforts on

32 Children with stage II-III intermediate-risk Wilms' tumours assessed after delayed nephrectomy were r

33 ecessary for the initiation of some familial Wilms' tumours but subsequently the maintenance of the n

34 arrant further exploration include targeting Wilms tumour cancer genes with a non-redundant role in n

35 edisposition genes, account for about 10% of Wilms tumour cases.

36 s for Wilms tumour development by regulating Wilms tumour cell proliferation.

37 xperiments showed that they are required for Wilms tumour cell proliferation.

38 -interfering RNAs leads to reduced DNMT3A in Wilms' tumour cells and human embryonal kidney-derived c

39 Finally, we show that depletion of WT1 in Wilms' tumour cells can lead to reactivation of gene exp

40 lso demonstrated at hypermethylated genes in Wilms' tumour cells, including a region of long-range ep

41 Only a third of the familial Wilms tumour clusters we analysed were attributable to k

42 onstrate that organoid cultures derived from Wilms tumours consist of multiple different cell types,

43 of entities with outcomes that diverged from Wilms tumour, corroborated with immunohistochemistry and

44 Wilms' tumours demonstrated a high incidence of methylat

45 trast to RASSF1A, only a minority (10.3%) of Wilms' tumours demonstrated p16 promoter methylation.

46 WT1 is a suppressor for Wilms tumour development and an oncogene for diverse mal

47 a gain-of-function and act as oncogenes for Wilms tumour development by regulating Wilms tumour cell

48 al overgrowth and causes a predisposition to Wilms' tumour development.

49 Wilms' tumours display biallelic AWT1 expression, indica

50 kitt's lymphoma, CNS tumours, neuroblastoma, Wilms' tumour, Ewing's sarcoma, osteosarcoma, and rhabdo

51 ntify inactivating CTR9 mutations in 3 of 35 Wilms tumour families, through exome and Sanger sequenci

52 sis of the upcoming COG favourable-histology Wilms tumour (FHWT) study.

53 le loss was not detected in nine informative Wilms' tumours (five with RASSF1A methylation).

54 Non-Wilms' tumours form a small heterogeneous group of clini

55 Four Wilms' tumours from a family showing strong evidence of

56 and suggests that hnRNP-U may be a candidate Wilms' tumour gene at 1q44.

57 The Wilms' Tumour gene WT1 has important functions during de

58 The genetic changes that underpin Wilms tumour have been defined by studies of familial ca

59 Patients with Wilms tumour have benefited from the results of decades

60 Childhood ALL and Wilms' tumour have long-term effects on interpersonal fu

61 e we report the whole-exome sequencing of 44 Wilms tumours, identifying missense mutations in the mic

62 Each mutation segregates with Wilms tumour in the family and a second mutational event

63 evelopmental disorders and susceptibility to Wilms' tumour in children.

64 Most patients with Wilms' tumour in Europe and North America can be cured w

65 sed lymphocyte DNA from 890 individuals with Wilms tumour, including 91 affected individuals from 49

66 Wilms tumour is a childhood kidney cancer.

67 Wilms tumour is an embryonal tumour of childhood that cl

68 on genes and 20 genes somatically mutated in Wilms tumour is limited, consisting of only four genes.

69 Wilms tumour is the most common childhood kidney cancer.

70 Wilms tumour is the most common childhood renal cancer a

71 Wilms tumour is the most common renal malignancy of chil

72 Wilms' tumour is the most common childhood kidney tumour

73 fferent subtypes of kidney cancer, including Wilms tumours, malignant rhabdoid tumours, renal cell ca

74 dscape of cancer genes that are operative in Wilms tumour, many of which are intricately linked to th

75 ne and somatic genetic changes that underlie Wilms tumour may translate into better patient outcomes.

76 mportant regulators of MYCN, LIN28 and other Wilms tumour oncogenes.

77 ing 91 affected individuals from 49 familial Wilms tumour pedigrees.

78 our tissues, including the first analysis of Wilms' tumour precursor lesions, nephrogenic rests.

79 able to known genes, indicating that further Wilms tumour predisposition factors await discovery.

80 These data establish CTR9 as a Wilms tumour predisposition gene and suggest it acts as

81 While several Wilms tumour predisposition genes have been identified,

82 The four new Wilms tumour predisposition genes identified-TRIM28, FBX

83 cesses and, together with the other 17 known Wilms tumour predisposition genes, account for about 10%

84 rative chemotherapy regimen for stage II-III Wilms' tumour pretreated with chemotherapy was to includ

85 sible for the development of the majority of Wilms tumours remain largely unknown.

86 hylation results were also available for the Wilms' tumour samples.

87 We recommend that all individuals with Wilms tumour should be offered genetic testing and parti

88 ting and particularly, those with epithelial Wilms tumour should be offered TRIM28 genetic testing.

89 aemia, lymphoma, CNS tumours, neuroblastoma, Wilms tumour, soft-tissue sarcomas, and bone cancer) by

90 The Wilms' tumour suppressor gene WT1 is essential for the n

91 (DDS) is caused by dominant mutations of the Wilms' tumour suppressor gene, WT1, and characterized by

92 The Wilms' tumour suppressor gene, WT1, encodes a zinc-finge

93 The Wilms' tumour suppressor gene, WT1, is mutated in 10-15%

94 One highly conserved feature of the Wilms' tumour suppressor gene, WT1, is the potential, fo

95 erozygosity (LOH) indicate the presence of a Wilms' tumour suppressor gene.

96 ggests that PTH-B1 is a candidate for the 7p Wilms' tumour suppressor gene.

97 The Wilms' tumour suppressor protein WT1 contains a transcri

98 The Wilms' tumour suppressor protein WT1 plays a central rol

99 all these cell types frequently express the Wilms' tumour suppressor Wt1, which transcriptionally co

100 The Wilms' tumour suppressor, WT1, is a zinc finger protein

101 vivors odds ratio 10.83 [95% CI 3.87-30.82], Wilms' tumour survivors 4.85 [1.43-16.47]), which was as

102 A familial Wilms' tumour susceptibility gene, known as FWT1, has re

103 Here we identify recurrent mutations within Wilms tumours that involve the highly conserved YEATS do

104 nd, if mutated, can lead to the formation of Wilms' tumour, the most common paediatric kidney cancer.

105 at LOH on chromosome 17q is rare in sporadic Wilms' tumour, the results suggest that FWT1 is not a tu

106 hood acute lymphoblastic leukaemia (ALL) and Wilms' tumour to address previous methods limitations.

107 tumorigenesis, we have analysed 40 sporadic Wilms tumours using a panel of 10 microsatellite polymor

108 However, the alleles lost in this Wilms' tumour were those segregating with the disease in

109 stage II-III, histological intermediate-risk Wilms' tumour when a newly defined high-risk blastemal s

110 treatment of stage II-III intermediate risk Wilms' tumour when the histological response to preopera

111 IN were identified in three individuals with Wilms tumour, which is highly unlikely to have occurred

112 assessed 102 survivors of childhood ALL and Wilms' tumour, who had been free from relapse for 5 year

113 However, one in ten children with Wilms tumour will die of their disease despite modern tr

114 recently established cell lines from primary Wilms tumours with different WT1 mutations.

115 We studied 18 cases of Wilms' tumour with favourable histological findings.

116 ociation with the rare epithelial subtype of Wilms tumour, with 14 of 16 tumours being epithelial or

117 Wilms tumour (WT) is a childhood embryonal tumour that i

118 Cytogenetic analysis of Wilms tumours (WT) have shown that abnormalities involvi

119 Wilms' tumour (WT) has a diverse and complex molecular a

120 Wilms' tumour (WT) is one of the most common solid tumou