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Gene expression patterns of breast cancer phenotype revealed by molecular profiling

This study examines the gene expression patterns in breast cancer to identify molecular profiles that can accurately predict the effectiveness of treatment. The research uses DNA microarrays and consensus clustering to analyze the global expression patterns and identify potential biomarkers and therapeutic targets. The study also explores multi-gene biomarker selection and robust pattern-based diagnosis models. The findings have implications for personalized treatment and the development of specific therapies for breast cancer.

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Gene expression patterns of breast cancer phenotype revealed by molecular profiling

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  1. Gene expression patterns of breast cancer phenotype revealed by molecular profiling Gabriela Alexe, IBM Research DIMACS Workshop on Detecting and Processing Regularities in High Throughput Biological Data June 20 - 22, 2005

  2. Peter L Hammer Sorin Alexe David E Axelrod Endre Boros Gyan Bhanot Jorge Lepre Gustavo Stolovitzky Ram Ramaswamy Lillian Chiang Babu Vengatharagavan Arnold J Levine Michael Reiss

  3. Outline • Motivation • Finding relevant molecular profiles for breast cancer • Consensus clustering • Multi-gene biomarker selection • Robust pattern-based diagnosis models • Future work

  4. Breast cancer incidence • most commonly diagnosed cancer after nonmelanoma skin cancer • second leading cause of cancer deaths after lung cancer. • US 2005: estimated 213,000 new BCA cases will be diagnosed, and 41,000 deaths / 1.2 million worldwide • 1/8 chance to develop BCA • 1/33 chance of death • 5-10% hereditary

  5. Breast cancer: extensive heterogeneous disease • both genetic (5-10% BRCA1/2) and non-genetic • highly variable with regard to pathological and clinical features at molecular level • pathological and molecular heterogeneity among • different breast cancers • different areas within individual neoplasms • personalized treatment: genuine need to identify parameters that might accurately predict the effectiveness of treatment

  6. Stages of breast cancer

  7. Histology Hormone receptor status ER +/-, PR+/-, HER2neu+/- DNA Cytometry 2/3 aneuploid (less DNA) / diploid Image Cytometry S-phase Genetic mutations • Similar histopathological appearance BCA may have divergent clinical and prognostical course • Major need to develop specific and alternative therapies

  8. Molecular profiling of BCA Measurement of global expression patterns towards identification of individual genes that mediate particular aspects of cellular physiology DNA microarrays • systematic method to study the mRNA variation between cancer/healthy cells • identification of clinically relevant tumor entities and subclasses • prognostic biomarkers / pathways/ potential therapeutic targets

  9. Molecular profiling of BCA Perou et al. Nature 2000 Molecular portraits of human breast tumours genome-www.stanford.edu/breast_cancer identified multiple tumor classes which differ in expression of the ER Luminal A Luminal B ERBB+ Basal Normal

  10. Biomedical data Sorlie et al., PNAS 2003 Breast cancer data (Stanford & Norway) cDNA gene expression data 122 breast cancer samples 552 “intrinsic genes” Hierarchical clustering 5 major subgroups of samples / genes Used same techniques to validate findings on external datasets (van’t Veer, West)

  11. Biomedical problem Sources of noise - data measurements: experimental noise, 7% missing data - data analysis techniques: hierarchical clustering sensitive to data perturbations - selection of biomarkers: dependent on chip / data analysis technique Goal Robust approach to assess molecular profiles

  12. Methods: Preprocessing data • Stochastic kNN imputation method similar to kNN imputation (Troyanskaya et al, 2001) • Dynamic programming: ensemble of imputations 530 genes, 118 samples

  13. Consensus clustering • Assesses the stability of hierarchical clustering across multiple perturbations of the data by simulated stratified re-sampling of 80% of the cases (Monti et al., 2003) • Implemented in GenePattern ttp://www.broad.mit.edu/cancer/software/genepattern/ • Consensus (core) clusters: maximal bicliques in agreement matrix (incremental polynomial alg, 2004)

  14. Agreement matrix

  15. Finding multi-gene biomarkersLogical Analysis of Data, Hammer 1988 • Discretization (noise reduction) • Pattern extraction (efficient algorithms, 2004) • Model construction (weighted voting) • Validation • Additional information (prominent classes, important features) • Applied to various biomedical datasets

  16. Patterns, Models, Classifiers Positive Patterns Negative Patterns Model

  17. P N

  18. Examples of patterns

  19. Multi-gene biomarkers Combinations of genes highly predictive of phenotype, not identified in Sorlie et al. Luminal A: 10 Luminal B: 9 ERBB+: 9 Basal: 12 Normal: 12 E.g.,

  20. Extensive multi-gene biomarker annotations BIOCARTA, KEGG, DAVID, GENMAPP, GOMINER, PANTHER, I-HOP

  21. Pattern-based diagnosis model Classification Prediction

  22. Validation Classification accuracy of pattern models through leave-one-out cross validation experiments

  23. Conclusions and Future work • Provide a robust classification which has significant overlap with previous analyses • Clusters Luminal B and ERBB+ unreliable – need further analyses • Sample reproducibility • Validate on novel external BCA gene expression datasets

  24. Thank you for your attention

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