Differential Effects of Protein Kinase A on Ras Effector Pathways

Ras mutants with the ability to interact with different effectors have played a critical role in the identification of Ras-dependent signaling pathways. We used two mutants, Ras^S35 and Ras^G37, which differ in their ability to bind Raf-1, to examine Ras-dependent signaling in thyroid epithelial cells. Wistar rat thyroid cells are dependent upon thyrotropin (TSH) for growth. Although TSH-stimulated mitogenesis requires Ras, TSH activates protein kinase A (PKA) and downregulates signaling through Raf and the mitogen-activated protein kinase (MAPK) cascade. Cells expressing Ras^S35, a mutant which binds Raf, or Ras^G37, a mutant which binds RalGDS, exhibited TSH-independent proliferation. Ras^S35 stimulated morphological transformation and anchorage-independent growth. Ras^G37 stimulated proliferation but not transformation as measured by these indices. TSH exerted markedly different effects on the Ras mutants and transiently repressed MAPK phosphorylation in Ras^S35-expressing cells. In contrast, TSH stimulated MAPK phosphorylation and growth in cells expressing Ras^G37. The Ras mutants, in turn, exerted differential effects on TSH signaling. Ras^S35 abolished TSH-stimulated changes in cell morphology and thyroglobulin expression, while Ras^G37 had no effect on these activities. Together, the data indicate that cross talk between Ras and PKA discriminates between distinct Ras effector pathways.