Eigengenes as biological signatures Dr. Habil Zare, PhD PI of Oncinfo Lab Assistant Professor, Department of Computer Science Texas State University 5 February 2016
Outline -Large-scale gene network analysis reveals the role of extracellular matrix pathway and homeobox genes in acute myeloid leukemia. -Similar approaches are useful in identifying low-risk breast cancer cases.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb AML Diagram by A. Rad Acute myeloid leukemia (AML) is an aggressive type of blood cancer, which can cause death within months after diagnosis. Cancer here
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb MDS Diagram by Cazzola Myelodysplastic syndromes (MDS) is less aggressive than AML but it can transform to AML with a risk probability of 30%.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Hypothesis Network analysis can reveal the biological differences between AML and MDS.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Overview of the methodology
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Expression data
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Expression data -Discovery dataset: Microarray gene expression data of 202 AML-NK and 164 MDS cases from MILE study. -Validation dataset: RNA-seq data of 52 AML-NK and 22 MDS cases from BCCA.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Identifying gene modules
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Identifying gene modules - We analyzed 9,166 differentially expressed genes in AML vs. MDS. - We considered a module as a set of highly correlated genes in AML, and identified 33 such modules.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Computing eigengenes
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Computing eigengenes -An eigengene summarizes a module. It is a weighted sum (linear combination) of expression of all genes in the corresponding module. -We applied PCA on each module separately to compute its corresponding eigengene.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Computing eigengenes Eigengenes are differentially expressed in AML compared to MDS.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb The Bayesian network
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Bayesian network The Bayesian network shows the probabilistic dependencies between the modules and the disease type.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb The disease associated modules The children of the “Disease” node are enriched in genes associated with AML.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb The decision tree
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb ECM and HOXA&B eigengenes were automatically selected from the set of children of the Disease node to build a predictive model. The decision tree Average expression of 113 genes Average expression of 42 genes
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Validation in an independent dataset
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb We inferred the expression of eigengenes in 52 AML and 22 MDS cases from BCCA dataset. Qualitative validation MILE BCCA
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Some of the eigengenes showed expression patterns similar to MILE dataset. Qualitative validation MILE BCCA
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb With the same thresholds, the tree classifies cases from both datasets. Quantitative validation
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb We trained our model on MILE microarray dataset, and validated its performance on BCCA RNA-seq dataset. Although the platforms differ, performances are comparable indicating the robustness of our approach. Quantitative validation
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Validation using epigenetics Among all genes in ECM pathway, MMP9 has the highest weight in the eigengene.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Validation using epigenetics These 3 genes from matrix metalloproteinase (MMP) family are methylated in AML, which can explain their relatively lower expression.
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Validation at the protein level Is the expression of MMP9 protein product different in AML compared to MDS? Work in progress…
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Because an eigengene is based on the average expression of several genes, our approach is robust with respect to noise in expression profiles. Robustness to noise
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Even when 30% entries of the expression profile are replaced with noise, the accuracy drops only by 2%. Robustness to noise {
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Two modules were automatically selected: -A cell cycle associated module with 319 genes. -A mysterious module with 26 genes, 24 in 9q34. Breast cancer risk factors METABRIC discovery dataset METABRIC validation dataset MILLER dataset
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb Using a similar approach, we could identify low-risk ER+ breast cancer cases with precision > 88% in 3 datasets. Breast cancer risk assessment
Dr. Habil Zare, PhD The PI Computational Biologist Dr. Amir Forpushani, PhD Postdoc, Computational Biologist Rupesh Agrihari Grad student, Computer Science Acknowledgments Oncinfo Lab Members 31 Dr. Aly Karsan, MD Hematopathologist Rod Docking Grad student, BCCA & UBC In collaboration with British Columbia Cancer Agency
Eigengenes as biological signature, Dr. Habil Zare, Oncinfo Lab Texas State University, 5 Feb We can apply a similar approach on fish RNA-seq data. 1.Identify gene modules using all available expression data including normal samples. 2.Compute the eigengenes for each module. 3.Investigate which eigengenes are associated with experiment conditions like dosage or wavelength. 4.Perform overrepresentation analysis on the corresponding modules to determine the most relevant biological processes. Future work Eigengene 5 Dosage
References: Cazzola, Mario. "IDH1 and IDH2 mutations in myeloid neoplasms–Novel paradigms and clinical implications." Haematologica (2010): Haferlach, Torsten, et al. "Clinical utility of microarray-based gene expression profiling in the diagnosis and subclassification of leukemia: report from the International Microarray Innovations in Leukemia Study Group." Journal of Clinical Oncology (2010): Langfelder, Peter, and Steve Horvath. "WGCNA: an R package for weighted correlation network analysis." BMC bioinformatics 9.1 (2008): 1. Curtis, Christina, et al. "The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups." Nature (2012): Miller, Lance D., et al. "An expression signature for p53 status in human breast cancer predicts mutation status, transcriptional effects, and patient survival." Proceedings of the National Academy of Sciences of the United States of America (2005): Instaling BioLinux using VM, Dr. Habil Zare 27 Oct