Hyperactivation of p21 super(ras) and the Hematopoietic-specific Rho GTPase, Rac2, Cooperate to Alter the Proliferation of Neurofibromin-deficient Mast Cells In Vivo and In Vitro

Mutations in the NF1 tumor suppressor gene cause neurofibromatosis type I (NF1), a disease characterized by the formation of cutaneous neurofibromas infiltrated with a high density of degranulating mast cells. A hallmark of cell lines generated from NF1 patients or Nf1-deficient mice is their propen...

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Veröffentlicht in:	The Journal of experimental medicine 2001-07, Vol.194 (1), p.57-70
Hauptverfasser:	Ingram, DA, Hiatt, K, King, A J, Fisher, L, Shivakumar, R, Derstine, C, Wenning, MJ, Diaz, B, Travers, J B, Hood, A, Marshall, M, Williams, DA, Clapp, D W
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Schlagworte:	neurofibromin NF1 gene Rac2 protein Rho protein
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container_title	The Journal of experimental medicine
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creator	Ingram, DA Hiatt, K King, A J Fisher, L Shivakumar, R Derstine, C Wenning, MJ Diaz, B Travers, J B Hood, A Marshall, M Williams, DA Clapp, D W
description	Mutations in the NF1 tumor suppressor gene cause neurofibromatosis type I (NF1), a disease characterized by the formation of cutaneous neurofibromas infiltrated with a high density of degranulating mast cells. A hallmark of cell lines generated from NF1 patients or Nf1-deficient mice is their propensity to hyperproliferate. Neurofibromin, the protein encoded by NF1, negatively regulates p21 super(ras) activity by accelerating the conversion of Ras-GTP to Ras-GDP. However, identification of alterations in specific p21 super(ras) effector pathways that control proliferation in NF1-deficient cells is incomplete and critical for understanding disease pathogenesis. Recent studies have suggested that the proliferative effects of p21 super(ras) may depend on signaling outputs from the small Rho GTPases, Rac and Rho, but the physiologic importance of these interactions in an animal disease model has not been established. Using a genetic intercross between Nf1 super(+/) - and Rac2 super(-/) - mice, we now provide genetic evidence to support a biochemical model where hyperactivation of the extracellular signal-regulated kinase (ERK) via the hematopoietic-specific Rho GTPase, Rac2, directly contributes to the hyperproliferation of Nf1-deficient mast cells in vitro and in vivo. Further, we demonstrate that Rac2 functions as mediator of cross-talk between phosphoinositide 3-kinase (PI-3K) and the classical p21 super(ras)-Raf-Mek-ERK pathway to confer a distinct proliferative advantage to Nf1 super(+/) - mast cells. Thus, these studies identify Rac2 as a novel mediator of cross-talk between PI-3K and the p21 super(ras)-ERK pathway which functions to alter the cellular phenotype of a cell lineage involved in the pathologic complications of a common genetic disease.
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Using a genetic intercross between Nf1 super(+/) - and Rac2 super(-/) - mice, we now provide genetic evidence to support a biochemical model where hyperactivation of the extracellular signal-regulated kinase (ERK) via the hematopoietic-specific Rho GTPase, Rac2, directly contributes to the hyperproliferation of Nf1-deficient mast cells in vitro and in vivo. Further, we demonstrate that Rac2 functions as mediator of cross-talk between phosphoinositide 3-kinase (PI-3K) and the classical p21 super(ras)-Raf-Mek-ERK pathway to confer a distinct proliferative advantage to Nf1 super(+/) - mast cells. 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title	Hyperactivation of p21 super(ras) and the Hematopoietic-specific Rho GTPase, Rac2, Cooperate to Alter the Proliferation of Neurofibromin-deficient Mast Cells In Vivo and In Vitro
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