Reduced growth of Drosophila neurofibromatosis 1 mutants reflects a non-cell-autonomous requirement for GTPase-Activating Protein activity in larval neurons

doi:10.1101/gad.1466806

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Published online before print November 17, 2006, 10.1101/gad.1466806
GENES & DEVELOPMENT 20:3311-3323, 2006
©2006 by Cold Spring Harbor Laboratory Press; ISSN 0890-9369/ $5.00

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Reduced growth of Drosophila neurofibromatosis 1 mutants reflects a non-cell-autonomous requirement for GTPase-Activating Protein activity in larval neurons

James A. Walker¹, Anna V. Tchoudakova¹, Peter T. McKenney, Suzanne Brill, Dongyun Wu, Glenn S. Cowley², Iswar K. Hariharan³, and André Bernards⁴

Massachusetts General Hospital Center for Cancer Research and Harvard Medical School, Charlestown, Massachusetts 02129, USA

Neurofibromatosis type 1 (NF1) is among the most common geneticdisorders of humans and is caused by loss of neurofibromin,a large and highly conserved protein whose only known functionis to serve as a GTPase-Activating Protein (GAP) for Ras. However,most Drosophila NF1 mutant phenotypes, including an overallgrowth deficiency, are not readily modified by manipulatingRas signaling strength, but are rescued by increasing signalingthrough the cAMP-dependent protein kinase A pathway. This hasled to suggestions that NF1 has distinct Ras- and cAMP-relatedfunctions. Here we report that the Drosophila NF1 growth defectreflects a non-cell-autonomous requirement for NF1 in larvalneurons that express the R-Ras ortholog Ras2, that NF1 is aGAP for Ras1 and Ras2, and that a functional NF1-GAP catalyticdomain is both necessary and sufficient for rescue. Moreover,a Drosophila p120RasGAP ortholog, when expressed in the appropriatecells, can substitute for NF1 in growth regulation. Our resultsshow that loss of NF1 can give rise to non-cell-autonomous developmentaldefects, implicate aberrant Ras-mediated signaling in larvalneurons as the primary cause of the NF1 growth deficiency, andargue against the notion that neurofibromin has separable Ras-and cAMP-related functions.

[Keywords: Neurofibromatosis type 1; organismal growth control; non-cell autonomy; Ras signal transduction; Drosophila melanogaster]

Received July 7, 2006; revised version accepted October 10, 2006.

¹ These authors contributed equally to this work.

² Present addresses: Abbott Bioresearch Center, Worcester, MA01605, USA;

³ Department of Molecular and Cell Biology, University of California,Berkeley, CA 94720, USA.

⁴ Corresponding author.

E-MAIL abernard{at}partners.org; FAX (617) 724-9648.

Supplemental material is available at http://www.genesdev.org.

Article published online ahead of print. Article and publicationdate are online at http://www.genesdev.org/cgi/doi/10.1101/gad.1466806

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