Signal Transduction Targets for Pharmacological Intervention in Type I Neurofibromatosis

Abstract

This New Investigator Award has the objective of the identification of new pharmacological approaches to NF1 treatment. We will proceed through the following aims and hypotheses: 1. Role of the Ras/MAP kinase pathway in neurofibromin-deficient cells. Our hypothesis is that activation of the Ras 1 MAP kinase signaling system plays a critical role in the phenotypes of human neurofibrosarcomas. The experiments use 2 novel pharmacological approaches to inhibit the Ras/MAP kinase pathway: 3-allylfarnesol A NOVEL INHIBITOR OF PROTEIN FARNESYLATION and PD184352 A NEW-GENERATION INHIBITOR OF MEK1. We assay a variety of end-points in the cells, including the level of Ras-GTP loading, activation status of ERK MAP kinases, transcriptional reporter assays of Ras I MAP kinase-responsive genes, and rates of cellular proliferation. 2. Role of Rac/Rho family small GTPases in neurofibromin-deficient cells. We will examine the hypothesis that Rac/Rho small GTPases contribute to the NF1 phenotype by use of novel, selective inhibitors of protein geranylgeranylation, such as 3-allylgeranylgeraniol. These experiments should validate the use of two new classes of pharmacological inhibitors of the Ras I MAP kinase pathway in fibroblast systems that have aberrant Ras activation due to neurofibromin-deficiency. This project will thus lead to the identification of relatively non-toxic and mechanistically specific drugs, which could then be investigated in future clinical trials for chemoprevention of tumors and chemotherapy of malignancies in NF1 patients.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 2001

Accession Number

ADA400525

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