PLoS ONE (Jan 2012)

Comparison of microarray platforms for measuring differential microRNA expression in paired normal/cancer colon tissues.

  • Maurizio Callari,
  • Matteo Dugo,
  • Valeria Musella,
  • Edoardo Marchesi,
  • Giovanna Chiorino,
  • Maurizia Mello Grand,
  • Marco Alessandro Pierotti,
  • Maria Grazia Daidone,
  • Silvana Canevari,
  • Loris De Cecco

DOI
https://doi.org/10.1371/journal.pone.0045105
Journal volume & issue
Vol. 7, no. 9
p. e45105

Abstract

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BackgroundMicroarray technology applied to microRNA (miRNA) profiling is a promising tool in many research fields; nevertheless, independent studies characterizing the same pathology have often reported poorly overlapping results. miRNA analysis methods have only recently been systematically compared but only in few cases using clinical samples.Methodology/principal findingsWe investigated the inter-platform reproducibility of four miRNA microarray platforms (Agilent, Exiqon, Illumina, and Miltenyi), comparing nine paired tumor/normal colon tissues. The most concordant and selected discordant miRNAs were further studied by quantitative RT-PCR. Globally, a poor overlap among differentially expressed miRNAs identified by each platform was found. Nevertheless, for eight miRNAs high agreement in differential expression among the four platforms and comparability to qRT-PCR was observed. Furthermore, most of the miRNA sets identified by each platform are coherently enriched in data from the other platforms and the great majority of colon cancer associated miRNA sets derived from the literature were validated in our data, independently from the platform. Computational integration of miRNA and gene expression profiles suggested that anti-correlated predicted target genes of differentially expressed miRNAs are commonly enriched in cancer-related pathways and in genes involved in glycolysis and nutrient transport.ConclusionsTechnical and analytical challenges in measuring miRNAs still remain and further research is required in order to increase consistency between different microarray-based methodologies. However, a better inter-platform agreement was found by looking at miRNA sets instead of single miRNAs and through a miRNAs - gene expression integration approach.