摘要:We hypothesized that gene expression profiling may discriminate vanadium from zinc in human bronchial epithelial cells (HBECs). RNA from HBECs exposed to vehicle, V (50 μM), or Zn (50 μM) for 4 hr ( n = 4 paired experiments) was hybridized to Affymetrix Hu133A chips. Using one-class t -test with p < 0.01, we identified 140 and 76 genes with treatment:control ratios ≥ 2.0 or ≤ 0.5 for V and Zn, respectively. We then categorized these genes into functional pathways and compared the number of genes in each pathway between V and Zn using Fisher’s exact test. Three pathways regulating gene transcription, inflammatory response, and cell proliferation distinguished V from Zn. When genes in these three pathways were matched with the 163 genes flagged by the same statistical filtration for V:Zn ratios, 12 genes were identified. The hierarchical clustering analysis showed that these 12 genes discriminated V from Zn and consisted of two clusters. Cluster 1 genes ( ZBTB1 , PML , ZNF44 , SIX1 , BCL6 , ZNF450 ) were down-regulated by V and involved in gene transcription, whereas cluster 2 genes ( IL8 , IL1A , PTGS2 , DTR , TNFAIP3 , CXCL3 ) were up-regulated and linked to inflammatory response and cell proliferation. Also, metallothionein 1 genes ( MT1F , MT1G , MT1K ) were up-regulated by Zn only. Thus, using microarray analysis, we identified a small set of genes that may be used as biomarkers for discriminating V from Zn. The novel genes and pathways identified by the microarray may help us understand the pathogenesis of health effects caused by environmental V and Zn exposure.