Ralf Amstutz scite author profile

Ralf Amstutz

5Publications

103Citation Statements Received

132Citation Statements Given

How they've been cited

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108

121

Affiliations

University Children's Hospital Zurich, University of Zurich

Publications

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Phosphorylation Regulates Transcriptional Activity of PAX3/FKHR and Reveals Novel Therapeutic Possibilities

Amstutz¹,

Wachtel²,

Troxler

et al. 2008

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Inhibition of constitutive active signaling pathways, which are a characteristic phenomenon for many tumors, can be an effective therapeutic strategy. In contrast, oncogenic transcription factors, often activated by mutational events, are in general less amenable to small-molecule inhibition despite their obvious importance as therapeutic targets. One example of this is alveolar rhabdomyosarcoma (aRMS), in which specific translocations lead to the formation of the chimeric transcription factor PAX3/FKHR. Here, we found unexpectedly that the transcriptional activity of PAX3/FKHR can be inhibited by the kinase inhibitor PKC412. This occurs via specific phosphorylation sites in the PAX3 domain, phosphorylation of which is required for efficient DNA-binding and subsequent transcriptional activity. Consequently, we show that PKC412 exerts a potent antitumorigenic potential for aRMS treatment both in vitro and in vivo. Our study suggests that posttranscriptional modifications of oncogenic transcription factors can be explored as a promising avenue for targeted cancer therapy. [Cancer Res 2008;68(10):3767-76]

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p21 Downregulation is an important component of PAX3/FKHR oncogenicity and its reactivation by HDAC inhibitors enhances combination treatment

et al. 2010

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A number of drugs developed against cancer-specific molecular targets have been shown to offer survival benefits alone or in combination with standard treatments, especially for those cases where tumor pathogenesis is dominated by a single molecular abnormality. One example for such a tumor type is alveolar rhabdomyosarcoma (aRMS) which is characterized by a specific translocation creating the oncogenic PAX3/FKHR transcription factor, believed to be the molecular basis of the disease.Recently, we were able to demonstrate that the small molecule inhibitor PKC412 (midostaurin) exhibits strong antitumor activity against aRMS by reducing the transcriptional activity of PAX3/FKHR.Here, we screened for combination strategies that are superior to PKC412-only treatment and found that the combination of PKC412 with histone deacetylase (HDAC) inhibitors like valproic acid (VPA) synergistically induced apoptosis resulting in suppressed aRMS tumor growth in vivo.We provide evidence that the antitumor effect upon combination treatment is achieved by VPAinduced reactivation of p21 which is downregulated in aRMS cells via destabilization of the transcriptional regulator EGR1 by PAX3/FKHR. Our study highlights a possible mechanism behind the increased efficacy and indicates that different arms of PAX3/FKHR oncogenicity can be exploited therapeutically by the specific combination of drugs to increase their therapeutic potential.

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Tissue Expression and Actin Binding of a Novel N‐Terminal Utrophin Isoform

Zuellig

Bornhäuser

Amstutz

et al. 2011

BioMed Research International

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Utrophin and dystrophin present two large proteins that link the intracellular actin cytoskeleton to the extracellular matrix via the C-terminal-associated protein complex. Here we describe a novel short N-terminal isoform of utrophin and its protein product in various rat tissues (N-utro, 62 kDa, amino acids 1–539, comprising the actin-binding domain plus the first two spectrin repeats). Using different N-terminal recombinant utrophin fragments, we show that actin binding exhibits pronounced negative cooperativity (affinity constants K1 = ∼5 × 106 and K2 = ∼1 × 105 M−1) and is Ca2+-insensitive. Expression of the different fragments in COS7 cells and in myotubes indicates that the actin-binding domain alone binds exlusively to actin filaments. The recombinant N-utro analogue binds in vitro to actin and in the cells associates to the membranes. The results indicate that N-utro may be responsible for the anchoring of the cortical actin cytoskeleton to the membranes in muscle and other tissues.

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Rational combination treatment targets different aspects of PAX3/FKHR oncogenicity

Hecker¹,

Amstutz²,

Niggli³

et al. 2009

Klin Padiatr

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Abstract C113: p21 downregulation is an important component of PAX3/FKHR oncogenicity and its reactivation by histone deacetylase inhibitors enhances combination treatment

Hecker

Amstutz

Wachtel

et al. 2009

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A number of drugs developed against cancer-specific molecular targets have been shown to offer survival benefits alone or in combination with standard treatments, especially for those cases where tumor pathogenesis is dominated by a single molecular abnormality. One example for such a tumor type is alveolar rhabdomyosarcoma (aRMS) which is characterized by a specific translocation creating the oncogenic PAX3/FKHR transcription factor, believed to be the main molecular basis of the disease. Recently, we were able to demonstrate that the small molecule inhibitor PKC412 exhibits strong antitumor activity against aRMS by reducing the transcriptional activity of PAX3/FKHR. In the present study, we screened for combination strategies that are superior to PKC412 treatment alone. Interestingly, we found that the combination of PKC412 with histone deacetylase (HDAC) inhibitors like valproic acid (VPA) synergistically induced apoptosis resulting in suppressed aRMS tumor growth in vivo. We provide evidence that the enhanced antitumor effect upon combination treatment is achieved by VPA-induced reactivation of p21 which is downregulated in aRMS tumor cells via destabilization of its transcriptional regulator EGR1 by PAX3/FKHR. This identifies downregulation of p21 as a crucial event in PAX3/FKHR oncogenicity. Our study not only highlights a possible mechanism behind the increased efficacy of combination treatment but also indicates that different levels of PAX3/FKHR oncogenicity can be exploited therapeutically by a specific combination of anticancer drugs to increase their therapeutic potential. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):C113.

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Ralf Amstutz

Phosphorylation Regulates Transcriptional Activity of PAX3/FKHR and Reveals Novel Therapeutic Possibilities

p21 Downregulation is an important component of PAX3/FKHR oncogenicity and its reactivation by HDAC inhibitors enhances combination treatment

Tissue Expression and Actin Binding of a Novel N‐Terminal Utrophin Isoform

Rational combination treatment targets different aspects of PAX3/FKHR oncogenicity

Abstract C113: p21 downregulation is an important component of PAX3/FKHR oncogenicity and its reactivation by histone deacetylase inhibitors enhances combination treatment

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