Identification of the functional components of the Ras signaling pathway regulating pituitary cell-specific gene expression.

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Mol Cell Biol. 1994 March; 14(3): 1553-1565

Identification of the functional components of the Ras signaling pathway regulating pituitary cell-specific gene expression.

K E Conrad, J M Oberwetter, R Vaillancourt, G L Johnson and A Gutierrez-Hartmann

Department of Medicine, University of Colorado Health Services Center, Denver 80262.

ABSTRACT

Ras, a small GTP-binding protein, is required for functionalreceptor tyrosine kinase signaling. Ultimately, Ras alters theactivity of specific nuclear transcription factors and regulatesnovel patterns of gene expression. Using a rat prolactin promoterconstruct in transient transfection experiments, we show thatboth oncogenic Ras and activated forms of Raf-1 kinase selectivelystimulated the cellular rat prolactin promoter in GH4 rat pituitarycells. We also show that the Ras signal is completely blockedby an expression vector encoding a dominant-negative Raf kinase.Additionally, using a molecular genetic approach, we determinedthat inhibitory forms of p42 mitogen-activated protein kinaseand an Ets-2 transcription factor interfere with both the Rasand the Raf activation of the rat prolactin promoter. Thesefindings define a functional requirement for these signalingconstituents in the activation of the prolactin gene, a cell-specificgene which marks the lactotroph pituitary cell type. Further,this analysis allowed us to order the components in the Rassignaling pathway as it impinges on regulation of prolactingene transcription as Ras-->Raf kinase-->mitogen-activatedprotein kinase-->Ets. In contrast, we show that intact c-Junexpression inhibited the Ras-induced activation of the prolactinpromoter, defining it as a negative regulator of this pathway,whereas c-Jun was able to enhance the Ras activation of an AP-1-drivenpromoter in GH4 cells. These data show that c-Jun is not thenuclear mediator of the Ras signal for the highly specialized,pituitary cell-specific prolactin cellular promoter. Thus, wehave defined a model system which provides an ideal paradigmfor studying Ras/Raf signaling pathways and their effects onneuroendocrine cell-specific gene regulation.

Mol Cell Biol. 1994 March; 14(3): 1553-1565

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