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Mitogenic signaling of Ras is regulated by differential interaction with Raf isozymes

Oncogene volume 19pages 169–176 (2000)Cite this article

Abstract

In the mitogenic signaling cascade interaction of Ras with Raf represents a critical step for the regulation of cell growth and differentiation. The major effector of Ras, the serine/threonine kinase Raf exists as three isoforms with different tissue distributions. We demonstrate that transient transfection of oncogenic Ha-Ras leads to a preferential activation of endogenous c-Raf-1 in HEK 293 cells as opposed to A-Raf. In vitro binding studies using purified Ras binding domains of Raf as well as in vivo bindings tests with full length molecules reveals significantly lower binding affinities of A-Raf to Ha-Ras as compared to other Raf isoforms. The Ras-binding interface of c-Raf differs from A-Raf by a conservative Arg to Lys exchange at residue 59 or 22 respectively. Mutational analysis reveals that this residue represents a point of isozyme discrimination: c-Raf-R59K binds Ha-Ras weaker than the wildtype, likewise A-Raf-K22R increases its affinity to Ha-Ras in vivo and in vitro. Differential binding affinities are reflected in downstream signaling. Immunecomplex kinase assays reveal that Ha-Ras mediated Raf activation is decreased for c-Raf-R59K and increased for A-Raf-K22R when compared to the respective wildtype forms. Thus our observations introduce a new level of isoform discrimination in Ras/Raf signaling as a functional consequence of a conservative amino acid exchange in the Ras binding domains.

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References

  • Chevray PM and Nathans D . 1992 Proc Natl Acad Sci USA 89: 5789–5793.

  • Cravchik A and Matus A . 1993 Gene 137: 139–143.

  • Beck TW, Huleihel M, Gunnell M, Bonner TI and Rapp UR . 1987 Nucl Acids Res 15: 595–609.

  • Block C, Janknecht R, Herrmann C, Nassar N and Wittinghofer A . 1996 Nature Struct Biol 3: 244–250.

  • Bosch E, Cherwinski H, Peterson D and McMahon M . 1997 Oncogene 15: 1021–1033.

  • Bruder JT, Heidecker G and Rapp UR . 1992 Genes Dev 6: 545–556.

  • Brtva TR, Drugan JK, Gosh S, Terell RS, Campbell-Burk S, Bell RM and Der CJ . 1995 J Biol Chem 270: 9809–9812.

  • Daub M, Jöckel J, Quack T, Weber CK, Schmitz F, Rapp UR, Wittinghofer A and Block C . 1998 Mol Cell Biol 18: 6698–6710.

  • Daum G, Eisenmann-Tappe I, Fries HW, Troppmair J and Rapp UR . 1994 Trends Biochem Sci 19: 474–480.

  • Dickson B and Hafen E . 1994 Curr Opin Genet Dev 4: 64–70.

  • Fabian JR, Vojtek AB, Cooper JA and Morrison DK . 1994 Proc Natl Acad Sci USA 91: 5982–5986.

  • Flory E, Weber CK, Cheng P, Hoffmeyer A, Jassoy C and Rapp UR . 1998 J Virol 72: 2788–2794.

  • Herrmann C, Martin GA and Wittinghofer A . 1995 J Biol Chem 270: 2901–2905.

  • Herrmann C, Horn G Spaargaren M Wittinghofer A . 1996a J Biol Chem 271: 6794–6800.

  • Herrmann C and Nassar N . 1996b Prog Biophys Mol Biol 66: 1–41.

  • Hurley JH, Newton AC, Parker PJ, Blumberg PM and Nishizuka Y . 1997 Protein Sci 6: 477–480.

  • Jaitner BK, Becker J, Linnemann T, Herrmann C, Wittinghofer A and Block C . 1997 J Biol Chem 272: 29927–29933.

  • Jahnknecht R . 1996 Mol Cell Biol 16: 1550–1556.

  • Jahnknecht R, Ernst WH, Pingoud V and Nordheim A . 1993 EMBO J 12: 5097–5104.

  • John J, Frech M and Wittinghofer A . 1988 J Biol Chem 263: 11792–11799.

  • Kerckhoff E and Rapp UR . 1998 Cancer Res 58: 1636–1640.

  • Leevers SJ, Paterson HF and Marshall CJ . 1994 Nature 369: 411–414.

  • Marais R, Light Y, Paterson HF, Mason CS and Marshall CJ . 1997 J Biol Chem 272: 4378–4383.

  • Melnick MB, Perkins LA, Lee M, Ambrosia L and Perrimon N . 1993 Development 118: 127–138.

  • Nassar N, Horn G, Herrmann C, Scherer A, McCormick F and Wittinghofer A . 1995 Nature 375: 554–560.

  • Nassar N, Horn G, Herrmann C, Block C, Janknecht R and Wittinghofer A . 1996 Nature Struct Biol 3: 723–729.

  • Pritchart CA, Bolin L, Slattery R, Murray R and McMahon M . 1996 Curr Biol 6: 614–617.

  • Rapp UR, Cleveland JL, Bonner TI and Storm SM . 1988 In The Oncogene Handbook, Curran TR and Skalka A eds. Elsevier Science Ltd, London

    Google Scholar 

  • Sithanandam G, Kolch W, Duh FM and Rapp UR . 1990 Oncogene 5: 1775–1780.

  • Slupsky JR, Weber CK, Ludwig S and Rapp UR . 1998 In Cell Growth and Oncogenesis, Bannasch P, Kanduc D, Papa S and Tager JM eds. Birkhäuser Verlag Basel, Switzerland

    Google Scholar 

  • Sternberg PW and Alberola-Ila J . 1998 Cell 95: 447–450.

  • Stokoe D, Macdonald SG, Cadwallader K, Symons M and Hancock JF . 1994 Science 264: 1463–1466.

  • Storm SM, Cleveland JL and Rapp UR . 1990 Oncogene 5: 345–351.

  • Wittinghofer A and Nassar N . 1996 Trends Biochem Sci 21: 488–491.

  • Wixler V, Smola U, Schuler M and Rapp UR . 1996 FEBS Lett 385: 131–137.

  • Yan J, Roy S, Apolloni A, Lane A and Hancock JF . 1998 J Biol Chem 273: 24052–24056.

  • Zhang XF, Settleman J, Kyriakis JM, Takeuchi-Suzuki E, Elledge SJ, Marshall MS, Bruder JT, Rapp UR and Avruch J . 1993 Nature 364: 308–313.

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Acknowledgements

We thank R Metz, B Voß and B Bauer for excellent technical assistance, M Hess and G Schulte for their contribution to the figure layout and A Hoffmeyer for critical reading of the manuscript. We are indebted to A Wittinghofer for continuous support and discussion. This work was supported by DFG grants We2023/2-1 to CK Weber and B1411/1-2 to C Block.

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Author notes

  1. Christoph K Weber

    Present address: Abt. Innere Medizin I, Universität Ulm, 89070 Ulm, Germany

  2. Christoph K Weber and Joseph R Slupsky: CK Weber and JR Slupsky contributed equally to this study

Authors and Affiliations

  1. Institut für Medizinische Strahlenkunde und Zellforschung (MSZ), Universität Würzburg, Versbacher Str.5, Würzburg, 97078, Germany

    Christoph K Weber, Joseph R Slupsky, Manuela Schuler & Ulf R Rapp

  2. Abteilung für Strukturelle Biologie, Max-Planck-Institut für Molekulare Physiologie, Dortmund, 44026, Germany

    Christian Herrmann & Christoph Block

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Weber, C., Slupsky, J., Herrmann, C. et al. Mitogenic signaling of Ras is regulated by differential interaction with Raf isozymes. Oncogene 19, 169–176 (2000). https://doi.org/10.1038/sj.onc.1203261

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