Steve Cleverley scite author profile

The transcription factor, Nuclear Factor of Activated T cells (NFAT) is a major target for p21ras and calcium signalling pathways in the IL‐2 gene and is induced by p21ras signals acting in synergy with calcium/calcineurin signals. One p21ras effector pathway involves the MAP kinase ERK‐2, and we have examined its role in NFAT regulation. Expression of dominant negative MAPKK‐1 prevents NFAT induction. Constitutively active MAPKK‐1 fully activates ERK‐2 and the transcription factor Elk‐1, but does not substitute for activated p21ras and synergize with calcium/calcineurin signals to induce NFAT. Expression of dominant negative N17Rac also prevents TCR and p21ras activation of NFAT, but without interfering with the ERK‐2 pathway. The transcriptional activity of the NFAT binding site is mediated by a complex comprising a member of the NFAT group and AP‐1 family proteins. The induction of AP‐1 by p21ras also requires Rac‐1 function. Activated Rac‐1 could mimic activated p21ras to induce AP‐1 but not to induce NFAT. Moreover, the combination of activated MAPKK‐1 and Rac‐1 could not substitute for activated p21ras and synergize with calcium signals to induce NFAT. Thus, p21ras regulation of NFAT in T cells requires the activity of multiple effector pathways including those regulated by MAPKK‐1/ERK‐2 and Rac‐1.

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Deletion of the Virion Host Shutoff Protein (vhs) from Herpes Simplex Virus (HSV) Relieves the Viral Block to Dendritic Cell Activation: Potential of vhs⁻HSV Vectors for Dendritic Cell-Mediated Immunotherapy

Samady

Costigliola

MacCormac

et al. 2003

J Virol

110

100

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The Gtpase Rho Controls a P53-Dependent Survival Checkpoint during Thymopoiesis

Costello

Cleverley

Galandrini

et al. 2000

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During the early stages of thymopoiesis, cell survival is controlled by cytokines that regulate the expression of antiapoptotic proteins such as Bcl-2. At the pre-T cell stage, a critical checkpoint for β chain selection is monitored by the tumor suppressor p53: pre-T cells can survive and differentiate when p53 is removed genetically or when its proapoptotic function is inactivated physiologically as a consequence of signaling through the pre-T cell receptor complex. Previous work has shown that the guanine nucleotide binding protein Rho controls cell survival in T cell progenitors. Here we define the survival pathways controlled by Rho in pre-T cells and show that this GTPase is a pivotal regulator of the p53-mediated checkpoint operating at the time of β selection: loss of Rho function results in apoptosis in pre-T cells, but this cell death is prevented by loss of p53. The prevention of cell death by loss of p53 restored numbers of early T cell progenitors but did not fully restore thymic cellularity. Further analysis revealed that loss of Rho function caused survival defects in CD4/8 double-positive thymocytes that is independent of p53 but can be prevented by ectopic expression of Bcl-2. These studies highlight that the GTPase Rho is a crucial component of survival signaling pathways in at least two different thymocyte subpopulations: Rho controls the p53 survival checkpoint in pre-T cells and is also crucial for a p53 independent survival signaling pathway in CD4/8 double positives.

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Inhibition of Rho at different stages of thymocyte development gives different perspectives on Rho function

1999

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Development of thymocytes can be staged according to the levels of expression of the cell-surface markers CD4, CD8, CD44, CD25 and CD2. Thymocyte development is regulated by a complex signalling network [1], one component of which is the GTPase Rho. The bacterial enzyme C3 transferase from Clostridium botulinum selectively ADP-ribosylates Rho in its effector-binding domain and thereby abolishes its biological function [2,3]. To explore the function of Rho in thymocyte development, we previously used the proximal promoter of the gene encoding the Src-family kinase p56lck to make transgenic mice that selectively express C3 transferase in the thymus [4,6]. In these mice, which lack Rho function from the earliest thymocyte stages, thymocyte numbers are reduced by approximately 50- to 100-fold. Here, we describe transgenic mice that express C3 transferase under the control of the locus control region (LCR) of the CD2 gene; this regulatory element drives expression at a later stage of thymocyte development than the lck proximal promoter [7]. In these mice, thymocyte numbers were also reduced by 50- to 100-fold, but unlike the lck-C3 mice, in which the reduction predominantly results from defects in cell survival of CD25(+) thymocyte progenitors, the CD2-C3 transgenic mice had a pre-T-cell differentiation block at the CD25(+) stage after rearrangement of the T-cell receptor (TCR) beta chains. Analysis of CD2-C3 mice demonstrated that Rho acts as an intracellular switch for TCR beta selection, the critical thymic-differentiation checkpoint. These results show that Rho-mediated survival signals for CD25(+) pre-T cells are generated by the extracellular signals that act on earlier thymocyte precursors and also that temporal cell-type-specific elimination of Rho can reveal different functions of this GTPase in vivo.

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Loss of Rho function in the thymus is accompanied by the development of thymic lymphoma

et al. 2000

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Steve Cleverley

Multiple p21ras effector pathways regulate nuclear factor of activated T cells.

Deletion of the Virion Host Shutoff Protein (vhs) from Herpes Simplex Virus (HSV) Relieves the Viral Block to Dendritic Cell Activation: Potential of vhs⁻HSV Vectors for Dendritic Cell-Mediated Immunotherapy

The Gtpase Rho Controls a P53-Dependent Survival Checkpoint during Thymopoiesis

Inhibition of Rho at different stages of thymocyte development gives different perspectives on Rho function

Loss of Rho function in the thymus is accompanied by the development of thymic lymphoma

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Steve Cleverley

Multiple p21ras effector pathways regulate nuclear factor of activated T cells.

Deletion of the Virion Host Shutoff Protein (vhs) from Herpes Simplex Virus (HSV) Relieves the Viral Block to Dendritic Cell Activation: Potential of vhs−HSV Vectors for Dendritic Cell-Mediated Immunotherapy

The Gtpase Rho Controls a P53-Dependent Survival Checkpoint during Thymopoiesis

Inhibition of Rho at different stages of thymocyte development gives different perspectives on Rho function

Loss of Rho function in the thymus is accompanied by the development of thymic lymphoma

Contact Info

Product

Resources

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Deletion of the Virion Host Shutoff Protein (vhs) from Herpes Simplex Virus (HSV) Relieves the Viral Block to Dendritic Cell Activation: Potential of vhs⁻HSV Vectors for Dendritic Cell-Mediated Immunotherapy