The significance of the treatment-induced effects at two time points, 2h (left panel)and 24h (right panel), on global gene expression assessed by AffymetrixU133+2 arrays (A) and IlluminaRef8 beadarrays (B) in two individuals, respectively, was determined by the Cyber-t test using three biological replicates in BMP-2 (top), DEX (middle) and PGE₂ (bottom) treated versus control samples, respectively. The results from the statistical tests are combined with the magnitude of the change in gene expression following perturbation and visualized in Volcano plots with significance (−log10 P value) versus fold change (log2) on the y – and x-axes, respectively. Lines indicate genes whose expression levels were significantly (FDR adjusted P<0.05) changed more than 2-fold.

(A) The rs646967 SNP located upstream of the MYO6 gene was shown to be strongly associated with MYO6 expression in DEX-treated cells (top left) with no effect in BMP-2 (top middle), PGE-2 (top right) or untreated samples (data not shown). Expression scores from Illumina Ref8 BeadArrays for each individual are averaged from two biological replicates and shown as red circles and the regression line from linear regression model is indicated with blue dashes. (B) The treatment-specific effect of cis-regulation of MYO6 expression was validated by sequencing-based allelic expression test in four samples heterozygous for both the rs646967 cis-eSNP and for the intragenic rs12606 marker. Normalized rs12606 heterozygote allele ratios of RNA samples from DEX (24h), BMP-2 (2h) and PGE₂ (24h) treated cells were compared within and between samples and data are presented as mean ± SD of three technical replicates. Significant P-value is obtained from t-test comparing |Δ het ratio| in DEX versus BMP-2 and PGE₂ samples. (C) The cis-eQTL analysis of the MYO6 region was expanded by the inclusion of imputed untyped HapMapII SNPs. The P-values from the linear regression analysis represented as −log₁₀(P-value) are shown as vertical bars with a horizontal line indicating a cutoff of P = 10⁻⁴. The rs584677 SNP, marked with an arrow, located ∼160kb upstream of the transcription start site showed the most significant association with MYO6 expression.

(A) DEX-specific cis-regulation of the Tenascin-C (TNC) gene located on chromosome 9 was identified in genome-wide allelic expression (AE) tests by assessing differences in RNA allele ratios at heterozygous sites normalized to genomic DNA allele ratios (Δhet ratio) across the transcripts. The Δhet ratio from AE tests are shown as vertical bars for untreated (black, 1^st track), BMP-2 (black, 2^nd track), PGE₂ (black, 3^rd track) and DEX (red) treated samples. The direction of effect (+/−) is based on phased genotype data in the shown individual and marked deviations from equal expression (Δhet ratio = 0) are observed only in DEX treated (red) sample, which predominantly occur in same allele based on statistical phasing. The relatively overexpressed chromosome in this individual harbors the allele expected to be overexpressed based on population eQTL data (see panel C). (B) The DEX-specific cis-effect of the TNC locus was validated by sequencing-based AE test in samples heterozygous for the rs13321 exonic marker. Normalized heterozygote allele ratios of RNA samples from DEX (24h), BMP-2 (2h) and PGE₂ (24h) treated cells were compared within and between samples and data are presented as mean ± SD of three technical replicates. In 6/8 DEX-treated samples (red), normalized allele ratio deviated greater than 2SD from genomic DNA heterozygote ratio. Significant P-value (P = 2.6×10⁻³) was obtained from t-test comparing normalized allele ratio in DEX versus BMP-2 (blue) and PGE₂ (green) samples. Sequencing-based AE test was then repeated in five DEX-treated samples at the earlier time point (2h) but no deviation from genomic DNA heterozygote ratio was shown. Significant P-value (P = 7.1×10⁻⁵) was obtained from t-test comparing normalized allele ratio in DEX 24h (red) versus 2h (blue) samples. (C) cis-eQTL analysis of the TNC locus was performed using genes expression scores IlluminaRef8 array (N = 101). The P-values from the linear regression analysis represented as −log₁₀(P-value) are shown as vertical bars with a horizontal line indicating a cutoff of P = 0.05. The top SNP rs7850103 (P = 2.3×10⁻⁷) is marked in the figure. (D) SNPs (n = 6) in the TNC candidate region were associated with response to inhaled corticosteroid treatment in 170 children with mild-to-moderate persistent asthma. The P-values from the linear regression analysis represented as −log₁₀(P-value) are shown as vertical bars with a horizontal line indicating a cutoff of P = 0.05. (E) The HapMap PhaseII CEU LD blocks are shown as a diamond-shaped plot using log odds (LOD) measures.

Top 3000 cis-eQTLs per treatment (FDR<1%) are visualized in a Venn diagram showing the different levels of sharing across treatment.

(A) Treatment specific changes in AE within an individual (left panel). A total of 224,944 expressed three SNP windows measured in both DEX samples and in three other conditions were available across four individuals. The x-axis shows magnitude of AE (|Δhet ratio|) in reference DEX window correlated against magnitude of AE observed in independent DEX measurement on y-axis, against AE observed in BMP-2 treatment, against PBS or PGE2. The Pearson correlation (R) for each pair-wise comparison is shown and demonstrates that treatment contributes slightly to differential cis-regulation observed by the genome-wide AE test. (B) Interindividual, treatment independent variation in allelic expression (upper right panel). A total of 27,836 identical informative three SNP windows were measured between individuals upon DEX treatment. The Pearson R is considerably lower than for within sample comparisons indicating that most of the AE variation between individuals is driven by determinants shared between these cells and independent of treatment. (C) Interindividual, treatment dependent variation in AE (right panel). A total of 159,926 identical informative three SNP windows were available for correlating DEX treatment to any of the three other treatments between individuals. Correlations between individuals across treatments are not significantly different from within treatment correlation between individuals shown in (B), indicating that the treatment specific effects observed within individual (A) are sufficiently weak to be globally unnoticeable due to much stronger correlation of AE to interindividual differences.