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YUEMIN DING Neuro-oncology Group Department of Molecular Neuroscience

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Presentation on theme: "YUEMIN DING Neuro-oncology Group Department of Molecular Neuroscience"— Presentation transcript:

1 GENETIC STUDIES OF C-MYC ONCONGENE AND ROR1 GENE OVEREXPRESSION IN EPENDYMOMAS
YUEMIN DING Neuro-oncology Group Department of Molecular Neuroscience Institute of Neurology Queen Square, London Supervisor: Dr Tracy Warr

2

3 BACKGROUND Ependymomas are glial tumors that arise from the ependymal lining of the ventricular system of the CNS. They represent the third most frequent brain tumor in children. (Hamilton RL et al. 1997) The genetic events that contribute to the pathogenesis of paediatric ependymoma are poorly defined. (Ward S et al. 2001)

4 BACKGROUND Previous finding of our group
The expression of >12,000 genes in a set of 11 ependymoma samples were determined using oligonucleotide micrarrays analysis. Oncogene c-myc and gene ROR1 were identified to be highly expressed in the tumour samples. Previous experiments failed to show extra copies of c- myc gene in ependymomas by comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH).

5 BACKGROUND c-myc oncogene CHR # 8 c-Myc Cellular processes apoptosis
Cell growth proliferation differentiation

6 BACKGROUND c-Myc c-Myc c-Myc c-Myc c-Myc ! c-Myc c-Myc c-Myc c-Myc c-Myc — c-myc has emerged as a central oncogenic switch in many human cancers. (Stella Pelengaris 2002)

7 Mechanisms lead to gene overexpression Chromosome duplication
BACKGROUND Mechanisms lead to gene overexpression Chromosome duplication Gene amplification Point mutation Regulators dysfunction

8 overexpression of normal product
gene amplification point mutation chromosome duplication A - T C - G G - C T - A

9 overexpression of normal product
Loss of function mutation

10 BACKGROUND Previous finding of our group
The expression of >12,000 genes in a set of 11 ependymoma samples were determined using oligonucleotide micrarrays analysis. Oncogene c-myc and gene ROR1 were identified to be highly expressed in the tumour samples. Previous experiments failed to show extra copies of c- myc gene in ependymomas by comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH).

11 HYPOTHESIS The regulator upstream in the c-Myc pathway was abnormal or dysfunctional, eg. loss of function mutation in MM-1.

12 BACKGROUND Receptor tyrosine kinase-like orphan receptor 1 (ROR1)
FRZ: frizzled module Wnt pathway Oncogene WNT5A

13 HYPOTHESIS ROR1 plays a role in the pathogenesis of ependymomas partially mediated through Wnt-ROR pathway.

14 AIMS To investigate the mutation status of the MM-1 gene, which may play a role in the development of ependymomas by deregulating c-myc expression. To identify the association between the genetic changes of the ROR1 gene and the pathogenesis of ependymomas via Wnt pathway.

15 MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis
Ependymoma case information (sourse: cell culture) Key to table: IN1: Institute of Neurology assigned number Age2: Age in years at diagnosis Sex3: M = male; F = female Grade4: SE = subependymoma; E = ependymoma; AE = Anaplastic ependymoma P/R5: P = primary sample; R = recurrent sample Survival6: survival in months from date of diagnosis Gains7 and losses7: detected by CGH MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis DNA sequencing

16 MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis DNA sequencing

17 MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis DNA sequencing

18 MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis
1 2 3 4 MATERIALS AND METHODS Tumour specimens PCR/RT-PCR SSCP analysis DNA sequencing

19 Amplify target gene by PCR technique Detect mutations by SSCP analysis
Protocol Search the Genomic Database and design the primers Extract DNA from frozen cell cultures of ependymoma samples Amplify target gene by PCR technique Detect mutations by SSCP analysis Direct DNA sequencing

20 Expression level of c-Myc SSCP analysis of MM-1 DNA sequencing of MM-1
RESULTS Fig 1 RT-PCR studies of c-myc. cDNAs were synthesized from RNA of the tumour samples and the normal brain (CC). β-actin was used as the internal control. DNA marker used is the 100bp ladder. c-myc was overexpressed in tumour samples compared with the CC. A B Fig. 2 Representative results of SSCP analysis of MM-1. Lanes 1–10, samples of ependymomas. A, MM-1 exon 4-5; B, MM-1 exon 6. Arrowhead highlights abnormal migrating SSCP bands. MM-1 Expression level of c-Myc SSCP analysis of MM-1 DNA sequencing of MM-1

21 RESULTS ROR1 Expression level of ROR1 SSCP analysis of ROR1 DNA sequencing of ROR1

22 RESULTS Fig. 3 RT-PCR analysis of ROR1. cDNAs were synthesized from RNA of the tumour samples and the normal brain (CC). β-actin was used as the internal control. DNA marker used is the 100bp ladder. Note ROR1 was overexpressed in tumour samples compared with CC.

23 A B Fig. 4 Representative results of SSCP analysis of ROR1. Lanes 1–11, samples of ependymomas. A, ROR1 exon 7; B, ROR1 exon 8. Arrowhead highlights abnormal migrating SSCP bands.

24 3008 For 3008 Rev 2941 For 2941 Rev A B Fig. 5 Sequence confirmation of mutations identified by SSCP analysis (ROR1 gene). Black arrows indicate the heterozygous C → T mutation in exon 7 of the ependymoma samples, which were confirmed in both sequencing reactions. (A, sample IN3008; B, sample IN2941)

25 A B C 1258 For 1258 Rev 2443 Rev 2443 For 2682 For 2682 Rev Fig. 6 Sequence confirmation of mutations identified by SSCP analysis (ROR1 gene). Black arrows indicate the heterozygous (A and B) or homozygous (C) A → G mutation in exon 8 of the ependymoma samples, which were confirmed in both sequencing reactions. (A, sample IN1258; B, sample IN2443; C, IN2682)

26 RESULTS Table 1 Sequence changes in the ROR1 gene

27 NM_ [1p32_p31] 937 aa 348: T→T 451: V→V Immunoglobulin domain (72 – 133) FRZ domain (160 – 297) Kringle domain (313 – 391) Phabdovirus spike glycoprotein (411 – 457) Protein kinase domain (473 – 746) Fig. 4.2 The structures of ROR1 and SNP location. The silent mutation on codon 348 was located at Kringle domain and the other mutation on codon 451 was at Phabdovirus spike glycoprotein.

28 CONCLUSION We failed to detect mutations in MM-1 in ependymomas by DNA sequencing. But it didn’t preclude the possibility that mutations in MM-1 abolished its suppressor function, which lead to c-Myc overexpression, because loss of function mutations may have been missed in the present sequencing analysis. Two silent mutations were found in ROR1 but they present little relevance in the Wnt pathway in ependymomas. Association of these mutations in ROR1 to cancer risk require further studies.

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