Sage Journals: Discover world-class research

Abstract

DNA copy number alterations have been discovered to be key genetic events in development and progression of cancer. No clear data of familial and sporadic breast cancer are available. We focused on looking for an independent platform as a tool to identify the chromosomal profile in familial versus sporadic breast cancer patients. A total of 124 breast cancer patients were studied utilizing aCGH. The dataset was analyzed using Gaussian Mixture Models to determine the thresholds in order to assess gene copy number changes and to minimize the impact of noise on further data analyses. The identification of regions of consistent aberration across samples was carried out with statistical approaches and machine learning tools to draw profiles for familial and sporadic groups. Familial and sporadic cases resulted with a chromosome imbalance of 15% [false discovery rate (FDR): q = 718E-5] and 18% (FDR: q = 632E-13), respectively. The differential map evidenced two cytogenetic bands (8p23 and 11q13–11q14) significantly altered in familial versus sporadic cases (FDR: q = 7E-4). The application of a new bioinformatics tool that discovers fuzzy classification rules (IFRAIS) let to individualize association of genes alterations that identify familial or sporadic cases. These results are comparable to those of the other systems used and are consistent from the biological point of view.

Get full access to this article

View all access options for this article.

References

Altinisik

, Karateke

, Coksuer

, Ulutin

, Buyru

2010. Expression of EMSY gene in sporadic ovarian cancer. Mol Biol Rep.

Alves

, Delgado

, Lopes

, Freitas

2004. An artificial immune system for fuzzy-rule induction in data mining. Proc of the 8th International Conference on Parallel Problem Solving. Nature, 3242:1011–1020.

Bolstad

B.M.

, Irizarry

R.A.

, Astrand

, Speed

T.P.

2003. A comparison of normalization methods for high density oligonucleotide array data based on variance and bias. Bioinformatics, 19:185–193.

Bruno

, Tommasi

, Stea

, Quaranta

, Schittulli

, Mastropasqua

et al. 2004. Awareness of breast cancer genetics and interest in predictive genetic testing: a survey of a southern Italian population. Ann Oncol, 15,Suppl 1:I48–I54.

Bussey

K.J.

, Kane

, Sunshine

, Narasimhan

, Nishizuka

, Reinhold

W.C.

et al. 2003. MatchMiner: a tool for batch navigation among gene and gene product identifiers. Genome Biol, 4:R27.

Cai

M.Y.

, Zhang

, He

W.P.

, Yang

G.F.

, Rao

H.L.

, Rao

Z.Y.

et al. 2010. Decreased expression of PinX1 protein is correlated with tumor development and is a new independent poor prognostic factor in ovarian carcinoma. Cancer Sci.

Cooke

S.L.

, Pole

J.C.

, Chin

S.F.

, Ellis

I.O.

, Caldas

, Edwards

P.A.

2008. High-resolution array CGH clarifies events occurring on 8p in carcinogenesis. BMC Cancer, 8:288.

Favia

, Fanelli

, Bagorda

, Di

S.F.

, Reshkin

S.J.

, Suh

P.G.

et al. 2006. NHE3 inhibits PKA-dependent functional expression of CFTR by NHERF2 PDZ interactions. Biochem Biophys Res Commun, 347:452–459.

Hollestelle

, Wasielewski

, Martens

J.W.

, Schutte

2010. Discovering moderate-risk breast cancer susceptibility genes. Curr Opin Genet Dev, 20:268–276.

10.

Horlings

H.M.

, Lai

, Nuyten

D.S.

, Halfwerk

, Kristel

, van Beers

et al. 2010. Integration of DNA copy number alterations and prognostic gene expression signatures in breast cancer patients. Clin Cancer Res, 16:651–663.

11.

Israeli

, Gotlieb

W.H.

, Friedman

, Goldman

, Ben-Baruch

, Aviram-Goldring

et al. 2003. Familial vs sporadic ovarian tumors: characteristic genomic alterations analyzed by CGH. Gynecol Oncol, 90:629–636.

12.

Jonsson

, Naylor

T.L.

, Vallon-Christersson

, Staaf

, Huang

, Ward

M.R.

et al. 2005. Distinct genomic profiles in hereditary breast tumors identified by array-based comparative genomic hybridization. Cancer Res, 65:7612–7621.

13.

Joosse

S.A.

, van Beers

E.H.

, Tielen

I.H.

, Horlings

, Peterse

J.L.

, Hoogerbrugge

et al. 2009. Prediction of BRCA1-association in hereditary non-BRCA1/2 breast carcinomas with array-CGH. Breast Cancer Res Treat, 116:479–489.

14.

Kenemans

, Verstraeten

R.A.

, Verheijen

R.H.

2008. Oncogenic pathways in hereditary and sporadic breast cancer. Maturitas, 61:141–150.

15.

, Wang

, Li

, Timmermans-Wielenga

, Rank

, Wiuf

et al. 2009. DNA copy number aberrations in breast cancer by array comparative genomic hybridization. Genomics Proteomics Bioinformatics, 7:13–24.

16.

Mangia

, Chiarappa

, Tommasi

, Chiriatti

, Petroni

, Schittulli

et al. 2008. Genetic heterogeneity by comparative genomic hybridization in BRCAx breast cancers. Cancer Genet Cytogenet, 182:75–83.

17.

Mcinerney

, Colleran

, Rowan

, Walther

, Barclay

, Spain

et al. 2009. Low penetrance breast cancer predisposition SNPs are site specific. Breast Cancer Res Treat, 117:151–159.

18.

Menolascina

, Chiarappa

, Tommasi

, Paradiso

, Alves

, Delgado

et al. 2007. Induction of fuzzy rules with artificial immune systems in aCGH based ER status breast cancer characterization. GECCO 2007London431.

19.

Menolascina

, Tommasi

, Chiarappa

, Bevilacqua

, Mastronardi

, Paradiso

2008. Data mining techniques in aCGH-based breast cancer subtype profiling. An immune perspective with comparative study. BMC Syst Biol, 70–71.

20.

Nessling

, Richter

, Schwaenen

, Roerig

, Wrobel

, Wessendorf

et al. 2005. Candidate genes in breast cancer revealed by microarray-based comparative genomic hybridization of archived tissue. Cancer Res, 65:439–447.

21.

Niu

, Carter

W.B.

2007. Human epidermal growth factor receptor 2 regulates angiopoietin-2 expression in breast cancer via AKT and mitogen-activated protein kinase pathways. Cancer Res, 67:1487–1493.

22.

Pharoah

P.D.

, Antoniou

, Bobrow

, Zimmern

R.L.

, Easton

D.F.

, Ponder

B.A.

2002. Polygenic susceptibility to breast cancer and implications for prevention. Nat Genet, 31:33–36.

23.

Rosa-Rosa

J.M.

, Pita

, Gonzalez-Neira

, Milne

R.L.

, Fernandez

, Ruivenkamp

et al. 2009. A 7 Mb region within 11q13 may contain a high penetrance gene for breast cancer. Breast Cancer Res Treat, 118:151–159.

24.

Saito

, Morita

, Hirano

2009. High frequency of common DNA copy number abnormalities detected by bacterial artificial chromosome array comparative genomic hybridization in 24 breast cancer cell lines. Hum Cell, 22:1–10.

25.

Schaefer

, Nakashima

2010. Data mining of gene expression data by fuzzy and hybrid fuzzy methods. IEEE Trans Inf Technol Biomed, 14:23–29.

26.

Shen

, Ambrosone

C.B.

, Zhao

2009. Novel genetic variants in microRNA genes and familial breast cancer. Int J Cancer, 124:1178–1182.

27.

Sidorova

, Zavalishina

, Kurchashova

, Korsakova

, Nazhimov

, Frank

et al. 2006. Immunohistochemical detection of tankyrase 2 in human breast tumors and normal renal tissue. Cell Tissue Res, 323:137–145.

28.

Snijders

A.M.

, Segraves

, Blackwood

, Pinkel

, Albertson

D.G.

2004. BAC microarray-based comparative genomic hybridization. Methods Mol Biol, 256:39–56.

29.

Tommasi

, Crapolicchio

, Lacalamita

, Bruno

, Monaco

, Petroni

et al. 2005. BRCA1 mutations and polymorphisms in a hospital-based consecutive series of breast cancer patients from Apulia, Italy. Mutat Res, 578:395–405.

30.

Tommasi

, Pilato

, Pinto

, Monaco

, Bruno

, Campana

et al. 2008. Molecular and in silico analysis of BRCA1 and BRCA2 variants. Mutat Res, 644:64–70.

31.

Tozlu

, Girault

, Vacher

, Vendrell

, Andrieu

, Spyratos

et al. 2006. Identification of novel genes that co-cluster with estrogen receptor alpha in breast tumor biopsy specimens, using a large-scale real-time reverse transcription-PCR approach. Endocr Relat Cancer, 13:1109–1120.

32.

Turnbull

, Ahmed

, Morrison

, Pernet

, Renwick

, Maranian

et al. 2010. Genome-wide association study identifies five new breast cancer susceptibility loci. Nat Genet, 42:504–507.

33.

Wang

, Meza-Zepeda

L.A.

, Kresse

S.H.

, Myklebost

2004. M-CGH: analysing microarray-based CGH experiments. BMC Bioinformatics, 5:74.

34.

Yau

, Fedele

, Roydasgupta

, Fridlyand

, Hubbard

, Gray

J.W.

et al. 2007. Aging impacts transcriptomes but not genomes of hormone-dependent breast cancers. Breast Cancer Res, 9:R59.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.06 MB

Determining and Interpreting New Predictive Rules for Breast Cancer Familial Inheritance

Abstract

Abstract

Get full access to this article

References

Supplementary Material