Nf1+/- mice have increased neointima formation via hyperactivation of a Gleevec sensitive molecular pathway

doi:10.1093/hmg/ddn134

Human Molecular Genetics Advance Access originally published online on April 28, 2008
Human Molecular Genetics 2008 17(15):2336-2344; doi:10.1093/hmg/ddn134

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Nf1+/– mice have increased neointima formation via hyperactivation of a Gleevec sensitive molecular pathway

Elisabeth A. Lasater¹^,2^,3, Waylan K. Bessler¹^,2, Laura E. Mead¹^,2, Whitney E. Horn¹^,2, D. Wade Clapp¹^,2^,4, Simon J. Conway¹^,2^,3, David A. Ingram¹^,2^,3^,* and Fang Li¹^,2

¹ Department of Pediatrics ² Herman B Wells Center for Pediatric Research ³ Department of Biochemistry and Molecular Biology ⁴ Department of Microbiology and Immunology, Indiana University School of Medicine, Indianapolis, IN 46202, USA

^* To whom correspondence should be addressed at: Herman B Wells Center for Pediatric Research, Indiana University School of Medicine, 1044 W. Walnut St R4/470, Indianapolis, IN 46202, USA. Tel: +1 3172788245; Fax: +1 3172748679; Email: dingram{at}iupui.edu

Received February 20, 2008; Accepted April 21, 2008

Neurofibromatosis type I (NF1) is a genetic disorder causedby mutations in the NF1 tumor suppressor gene. Neurofibrominis encoded by NF1 and functions as a negative regulator of Rasactivity. Somatic mutations in the residual normal NF1 allelewithin cancers of NF1 patients is consistent with NF1 functioningas a tumor-suppressor. However, the prevalent non-malignantmanifestations of NF1, including learning and bone disordersemphasize the importance of dissecting the cellular and biochemicaleffects of NF1 haploinsufficiency in multiple cell lineages.One of the least studied complications of NF1 involves cardiovasculardisorders, including arterial occlusions that result in cerebraland visceral infarcts. NF1 vasculopathy is characterized byvascular smooth muscle cell (VSMC) accumulation in the intimaarea of vessels resulting in lumen occlusion. We recently showedthat Nf1 haploinsufficiency increases VSMC proliferation andmigration via hyperactivation of the Ras-Erk pathway, whichis a signaling axis directly linked to neointima formation indiverse animal models of vasculopathy. Given this observation,we tested whether heterozygosity of Nf1 would lead to vaso-occlusivedisease in genetically engineered mice in vivo. Strikingly,Nf1+/– mice have increased neointima formation, excessivevessel wall cell proliferation and Erk activation after vascularinjury in vivo. Further, this effect is directly dependent ona Gleevec sensitive molecular pathway. Therefore, these studiesestablish an Nf1 model of vasculopathy, which mirrors featuresof human NF1 vaso-occlusive disease, identifies a potentialtherapeutic target and provides a platform to further dissectthe effect of Nf1 haploinsufficiency in cardiovascular disease.

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