Abstract
A key challenge in the data analysis of biological high-throughput experiments is to handle the often low number of samples in the experiments compared to the number of biomolecules that are simultaneously measured. Combining experimental data using independent technologies to illuminate the same biological trends, as well as complementing each other in a larger perspective, is one natural way to overcome this challenge. In this work we investigated if integrating proteomics and transcriptomics data from a brain cancer animal model using gene set based analysis methodology, could enhance the biological interpretation of the data relative to more traditional analysis of the two datasets individually. The brain cancer model used is based on serial passaging of transplanted human brain tumor material (glioblastoma - GBM) through several generations in rats. These serial transplantations lead over time to genotypic and phenotypic changes in the tumors and represent a medically relevant model with a rare access to samples and where consequent analyses of individual datasets have revealed relatively few significant findings on their own. We found that the integrated analysis both performed better in terms of significance measure of its findings compared to individual analyses, as well as providing independent verification of the individual results. Thus a better context for overall biological interpretation of the data can be achieved.
Highlights
The rapid progress in technology development for assessing information from multiple angles about genes, proteins and metabolites, has resulted in a growing expectation of a large potential for new discoveries in the understanding of cellular molecular activities
There are several Gene Ontology (GO) terms/trends found overlapping between the individual proteomics and transcriptomics results, they seem to be highlighting some general terms for the angiogenic tumors
For the invasive phenotype there is more consistency in GO terms overlapping between proteomics and microarray results and the highlighted consensus trends of Table 1, than for the angiogenic type
Summary
The rapid progress in technology development for assessing information from multiple angles about genes, proteins and metabolites, has resulted in a growing expectation of a large potential for new discoveries in the understanding of cellular molecular activities. A natural extension is the combination of several types of data to reveal more information about biological processes at the molecular level To reap from this expected potential of discoveries, several fundamental challenges have to be faced. High throughput datasets have by nature a large imbalance between number of samplings and number of variables measured, leading to challenges regarding interpretation and confidence estimates of analysis results. The interpretation of several datasets assessing samples from different angles in combination requires a new theoretical model which can assess biological questions and significance of predicted answers. In this work we present a combined analysis approach for interpreting high throughput microarray and proteomics datasets on two different tumor phenotypes obtained by serial transplantations of human GBMs in the CNS of rats [1,2]
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