A porcine model of neurofibromatosis type 1 that mimics the human disease
Katherine A. White, … , Dawn E. Quelle, Jill M. Weimer
Katherine A. White, … , Dawn E. Quelle, Jill M. Weimer
Published June 21, 2018
Citation Information: JCI Insight. 2018;3(12):e120402. https://doi.org/10.1172/jci.insight.120402.
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Resource and Technical Advance Neuroscience Oncology

A porcine model of neurofibromatosis type 1 that mimics the human disease

Abstract

Loss of the NF1 tumor suppressor gene causes the autosomal dominant condition, neurofibromatosis type 1 (NF1). Children and adults with NF1 suffer from pathologies including benign and malignant tumors to cognitive deficits, seizures, growth abnormalities, and peripheral neuropathies. NF1 encodes neurofibromin, a Ras-GTPase activating protein, and NF1 mutations result in hyperactivated Ras signaling in patients. Existing NF1 mutant mice mimic individual aspects of NF1, but none comprehensively models the disease. We describe a potentially novel Yucatan miniswine model bearing a heterozygotic mutation in NF1 (exon 42 deletion) orthologous to a mutation found in NF1 patients. NF1+/ex42del miniswine phenocopy the wide range of manifestations seen in NF1 patients, including café au lait spots, neurofibromas, axillary freckling, and neurological defects in learning and memory. Molecular analyses verified reduced neurofibromin expression in swine NF1+/ex42del fibroblasts, as well as hyperactivation of Ras, as measured by increased expression of its downstream effectors, phosphorylated ERK1/2, SIAH, and the checkpoint regulators p53 and p21. Consistent with altered pain signaling in NF1, dysregulation of calcium and sodium channels was observed in dorsal root ganglia expressing mutant NF1. Thus, these NF1+/ex42del miniswine recapitulate the disease and provide a unique, much-needed tool to advance the study and treatment of NF1.

Authors

Katherine A. White, Vicki J. Swier, Jacob T. Cain, Jordan L. Kohlmeyer, David K. Meyerholz, Munir R. Tanas, Johanna Uthoff, Emily Hammond, Hua Li, Frank A. Rohret, Adam Goeken, Chun-Hung Chan, Mariah R. Leidinger, Shaikamjad Umesalma, Margaret R. Wallace, Rebecca D. Dodd, Karin Panzer, Amy H. Tang, Benjamin W. Darbro, Aubin Moutal, Song Cai, Wennan Li, Shreya S. Bellampalli, Rajesh Khanna, Christopher S. Rogers, Jessica C. Sieren, Dawn E. Quelle, Jill M. Weimer

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Figure 1

Generation of NF1+/ex42del-targeted miniswine.

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Generation of NF1+/ex42del-targeted miniswine. (A) Gene targeting scheme...
(A) Gene targeting scheme depicting the deletion of exon 42. Exons 41–43 are shown as gray boxes, and the BlastR cassette is shown in red. Dotted vertical lines indicate the gene-targeting construct boundaries. Arrows indicate PCR primers. NF1 Southern blot probe is indicated by a black line and labeled “probe.” Red arrowhead represents remaining loxP site. Figure is not to scale. (B) Representative PCR genotyping. Lanes 1–7 represent individual miniswine, lane 8 is a no-template control, lane 9 is an NF1+/ex42del with BlastR control, and lane 10 is an NF1+/ex42del BlastR-excised control. PCR primer locations are indicated in A. (C) Representative genomic Southern blot with NF1 (upper panel) and BlastR (lower panel) probes. NcoI/EcoNi-digested DNA from WT NF1 miniswine yields a 3.0 kb product, whereas the same digest of NF1+/ex42del BlastR–excised yields a product of 3.7 kb. NF1+/ex42del with BlastR yields a product of 4.9 kb. Lanes 1–13 represent 13 individual piglets. Lane 14 is an NF1+/ex42del with BlastR control. (D) Control litter presents with no pigmentation. Characteristic café au lait macules (E and F, back rump and head regions), auxiliary/inguinal freckling (G, flank), and cutaneous tumors (H, neck with cross-sectional insert) are evident on NF1+/ex42del miniswine.