Abstract
Although Raf-1 is a critical Ras effector target, how Ras mediates Raf-1 activation remains unresolved. Raf-1 residues 55-131 define a Ras-binding domain essential for Raf-1 activation. Therefore, our identification of a second Ras-binding site in the Raf-1 cysteine-rich domain (residues 139-184) was unexpected and suggested a more complex role for Ras in Raf-1 activation. Both Ras recognition domains preferentially associate with Ras-GTP. Therefore, mutations that impair Ras activity by perturbing regions that distinguish Ras-GDP from Ras-GTP (switch I and II) may disrupt interactions with either Raf-1-binding domain. We observed that mutations of Ras that impaired Ras transformation by perturbing its switch I (T35A and E37G) or switch II (G60A and Y64W) domain preferentially diminished binding to Raf-1-(55-131) or the Raf-1 cysteine-rich domain, respectively. Thus, these Ras-binding domains recognize distinct Ras-GTP determinants, and both may be essential for Ras transforming activity. Finally, since Ha-Ras T35A and E37G mutations prevent Ras interaction with full-length Raf-1, we suggest that Raf-Cys is a cryptic binding site that is unmasked upon Ras interaction with Raf-1-(55-131).
Highlights
Ras proteins are molecular switches controlled by GDP/GTP cycling [1]
Activated mitogen-activated protein kinase (MAPK) translocate to the nucleus where they regulate the activities of Elk-1 and other nuclear transcription factors [6]
It is clear that Ras-Raf-1 interaction alone is not sufficient, and subsequent Ras-independent events are required for full Raf-1 kinase activation
Summary
Ras proteins are molecular switches controlled by GDP/GTP cycling [1]. These proteins are transiently activated in response to ligand-stimulated receptor tyrosine kinases [2, 3]. Mutations that impair Ras activity by perturbing regions that distinguish Ras-GDP from Ras-GTP (switch I and II) may disrupt interactions with either Raf-1-binding domain.
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