Overexpresson of RIIβ, Regulatory Subunit of Protein Kinase A in Human Colon Carcinoma Cell Induces Growth Arrest and Phenotypic Changes that are Abolished by Site‐Directed Mutation of RIIβ

Abstract

LS‐174T human colon carcinoma cells that contain approximately equal amounts of cAMP‐dependent protein kinase (PKA) isozymes, PKA‐I and PKA‐II, were infected with retroviral vectors coding for regulatory (R) and catalytic (C) subunits of human PKA. In cells overexpressing RII_α, RII_β, and RII_β‐P (a RII_β, mutant at the autophosphorylation site), PKA‐II levels increased whilc PKA‐I levels decreased. PKA‐I was almost completely eliminated in cells over expressing RII_β or RII_β‐P. In contrast, over expression of either RI_α, or C_α had little or no effect on PKA isozyme levels. Although all infectants expressed high levels of PKA subunit mRNAs in accordance with gene introduction, the R subunit protein expression was reflected in PKA isozyme levels rather than in subunit mRNA levels. Only RII_β infectants demonstrated marked growth inhibition in monolayer culture, reduced thymidine incorporation into DNA, and inability to grow in semisolid medium or in serum‐free medium. Conversely, all other infectants displayed growth properties similar to uninfected parental cells. The growth‐retardation properties of RIT, infetants were reflected in their altered phenotypic appearances. Our findings that the mutant RII_β P could not mimic the growth‐inhibitory effect of RII_β P suggest the functional importance of the autophosphurylation site in RII_β, Our results suggest a role for RII_β in the suppression of neoplastic cell growth, and thus abnormal expression of R subunit isoforms of PKA may be involved in neoplastic transformation.