Importance of dosage standardization for interpreting transcriptomal signature profiles: Evidence from studies of xenoestrogens

doi:10.1073/pnas.0605341103

Importance of dosage standardization for interpreting transcriptomal signature profiles: Evidence from studies of xenoestrogens

*Department of Tumor Biology and Molecular Profiling Laboratory, Massachusetts General Hospital Center for Cancer Research, Charlestown, MA 02129;
^‡Division of Computational Biology, Harvard Bauer Center for Genomics Research, Cambridge, MA 02138; and
^§Department of Anatomy and Cell Biology, Tufts University School of Medicine, Boston, MA 02111

Contributed by Kurt J. Isselbacher, June 26, 2006

Abstract

To obtain insights into similarities and differences in the biological actions of related drugs or toxic agents, their transcriptomal signature profiles (TSPs) have been examined in a large number of studies. However, many such reports did not provide proper justification for the dosage criteria of each agent. Using a well characterized cell culture model of estrogen-dependent proliferation of MCF7 human breast cancer cells, we demonstrate how different approaches to dosage standardization exert critical influences on TSPs, leading to different and even conflicting conclusions. Using quantitative cellular response (QCR)-based dosage criteria, TSPs were determined by Affymetrix microarray when cells were proliferating at comparable rates in the presence of various estrogens. We observed that TSPs of the xenoestrogens (e.g., genistein or bisphenol A) were clearly different from the TSP of 17β-estradiol; namely, the former strongly enhanced expression of genes involved in mitochondrial oxidative phosphorylation, whereas the latter showed minimal effects. In contrast, TSPs for genistein and 17β-estradiol were indistinguishable by using the marker gene expression-based dosage criteria, conditions in which there was comparable expression of the mRNA transcripts for the estrogen-inducible WISP2 gene. Our findings indicate that determination and interpretation of TSPs in pharmacogenomic and toxicogenomic studies that examine the transcriptomal actions of related agents by microarray require a clear rationale for the dosage standardization method to be used. We suggest that future studies involving TSP analyses use quantitative and objective dosage standardization methods, such as those with quantitative cellular response or marker gene expression-based dosage criteria.

Footnotes

^†To whom correspondence may be addressed. E-mail: tshioda{at}partners.org or kisselbacher{at}partners.org
Author contributions: T.S., C.S., A.M.S., and K.J.I. designed research; T.S., J.C., K.R.C., J.H., and K.L.D. performed research; L.Z., C.S., and A.M.S. contributed new reagents/analytic tools; T.S. and L.Z. analyzed data; and T.S. and K.J.I. wrote the paper.
Conflict of interest: no conflicts declared.
Data deposition: The microarray data presented in this study have been deposited in the Gene Expression Omnibus (GEO) database, www.ncbi.nlm.nih.gov/geo (accession no. GSE5200).
Abbreviations:

E2,

17β-estradiol;

MGE,

marker gene expression;

PAR,

pairwise angle ratio;

PPT,

1,3,5-tris(4-hydroxyphenyl)-4-propyl-1-pyrazole;

QCR,

quantitative cellular response;

TSP,

transcriptomal signature profile
Freely available online through the PNAS open access option.