Research article

Regulatory subunits of PKA define an axis of cellular proliferation/differentiation in ovarian cancer cells

Chris Cheadle^1,2*†, Maria Nesterova^1†, Tonya Watkins², Kathleen C Barnes³, John C Hall⁴, Antony Rosen⁴, Kevin G Becker⁵ and Yoon S Cho-Chung¹

• * Corresponding author: Chris Cheadle ccheadl1@jhmi.edu

• † Equal contributors

Author Affiliations

¹ Cellular Biochemistry Section, National Cancer Institute, Bethesda, USA

² Lowe Family Genomics Core, Johns Hopkins University, Baltimore, USA

³ Division of Allergy and Clinical Immunology, Johns Hopkins University, Baltimore, USA

⁴ Division of Rheumatology, The Johns Hopkins University, Baltimore, USA

⁵ Gene Expression and Genomics Unit, National Institute on Aging, Baltimore, USA

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BMC Medical Genomics 2008, 1:43 doi:10.1186/1755-8794-1-43

Published: 26 September 2008

Abstract

Background

The regulatory subunit of cAMP-dependent protein kinase (PKA) exists in two isoforms, RI and RII, which distinguish the PKA isozymes, type I (PKA-I) and type II (PKA-II). Evidence obtained from a variety of different experimental approaches has shown that the relative levels of type I and type II PKA in cells can play a major role in determining the balance between cell growth and differentiation. In order to characterize the effect of PKA type I and type II regulatory subunits on gene transcription at a global level, the PKA regulatory subunit genes for RIα and RIIβ were stably transfected into cells of the ovarian cancer cell line (OVCAR8).

Results

RIα transfected cells exhibit hyper-proliferative growth and RIIβ transfected cells revert to a relatively quiescent state. Profiling by microarray revealed equally profound changes in gene expression between RIα, RIIβ, and parental OVCAR cells. Genes specifically up-regulated in RIα cells were highly enriched for pathways involved in cell growth while genes up-regulated in RIIβ cells were enriched for pathways involved in differentiation. A large group of genes (~3600) was regulated along an axis of proliferation/differentiation between RIα, parental, and RIIβ cells. RIα/wt and RIIβ/wt gene regulation was shown by two separate and distinct gene set analytical methods to be strongly cross-correlated with a generic model of cellular differentiation.

Conclusion

Overexpression of PKA regulatory subunits in an ovarian cancer cell line dramatically influences the cell phenotype. The proliferation phenotype is strongly correlated with recently identified clinical biomarkers predictive of poor prognosis in ovarian cancer suggesting a possible pivotal role for PKA regulation in disease progression.