Abstract
BackgroundHuman peripheral blood is a promising material for biomedical research. However, various kinds of biological and technological factors result in a large degree of variation in blood gene expression profiles.Methodology/Principal FindingsHuman peripheral blood samples were drawn from healthy volunteers and analysed using the Human Genome U133Plus2 Microarray. We applied a novel approach using the Principle Component Analysis and Eigen-R 2 methods to dissect the overall variation of blood gene expression profiles with respect to the interested biological and technological factors. The results indicated that the predominating sources of the variation could be traced to the individual heterogeneity of the relative proportions of different blood cell types (leukocyte subsets and erythrocytes). The physiological factors like age, gender and BMI were demonstrated to be associated with 5.3% to 9.2% of the total variation in the blood gene expression profiles. We investigated the gene expression profiles of samples from the same donors but with different levels of RNA quality. Although the proportion of variation associated to the RNA Integrity Number was mild (2.1%), the significant impact of RNA quality on the expression of individual genes was observed.ConclusionsBy characterizing the major sources of variation in blood gene expression profiles, such variability can be minimized by modifications to study designs. Increasing sample size, balancing confounding factors between study groups, using rigorous selection criteria for sample quality, and well controlled experimental processes will significantly improve the accuracy and reproducibility of blood transcriptome study.
Highlights
Peripheral blood is a very promising material for biomedical research due to its critical role in immune responses and metabolism
By characterizing the major sources of variation in blood gene expression profiles, such variability can be minimized by modifications to study designs
Before the blood transcriptomic biomarkers can be used for clinical purposes, it is essential to understand the underlying factors that contribute to the sources of variability in blood gene expression profiles
Summary
Peripheral blood is a very promising material for biomedical research due to its critical role in immune responses and metabolism. Previous studies have investigated the blood gene expression profiles of normal individuals [3]. The results demonstrated the significant contributions of genetic and physiological factors, as well as varying proporations of different cellsubsets, in determining the overall gene expression profiles of human blood [7,8,9]. The usefulness of available methods to minimize excess hemoglobin mRNA was evaluated [14] Technological factors such as sample collection, transportation and storage conditions, as well as RNA isolation and amplification techniques, in addition to biological factors, can have a significant impact on the blood gene expression profiles [15,16,17,18,19,20]. Various kinds of biological and technological factors result in a large degree of variation in blood gene expression profiles
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