NF1+/ex42del miniswine model the cellular disruptions and behavioral presentations of NF1‐associated cognitive and motor impairment

Vicki J. Swier; Katherine A. White; Pedro L. Negrão de Assis; Tyler B. Johnson; Hannah G. Leppert; Mitchell J. Rechtzigel; David K. Meyerholz; Rebecca D. Dodd; Dawn E. Quelle; Rajesh Khanna; Christopher S. Rogers; Jill M. Weimer

doi:10.1111/cts.13858

Clinical and Translational Science (Jun 2024)

NF1+/ex42del miniswine model the cellular disruptions and behavioral presentations of NF1‐associated cognitive and motor impairment

Vicki J. Swier,
Katherine A. White,
Pedro L. Negrão de Assis,
Tyler B. Johnson,
Hannah G. Leppert,
Mitchell J. Rechtzigel,
David K. Meyerholz,
Rebecca D. Dodd,
Dawn E. Quelle,
Rajesh Khanna,
Christopher S. Rogers,
Jill M. Weimer

Affiliations

Vicki J. Swier: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
Katherine A. White: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
Pedro L. Negrão de Assis: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
Tyler B. Johnson: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
Hannah G. Leppert: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
Mitchell J. Rechtzigel: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA
David K. Meyerholz: Department of Pathology University of Iowa Iowa City Iowa USA
Rebecca D. Dodd: Department of Internal Medicine University of Iowa Iowa City Iowa USA
Dawn E. Quelle: Department of Neuroscience and Pharmacology University of Iowa Iowa City Iowa USA
Rajesh Khanna: Department of Pharmacology and Therapeutics, College of Medicine University of Florida Gainesville Florida USA
Christopher S. Rogers: Exemplar Genetics Coralville Iowa USA
Jill M. Weimer: Pediatrics and Rare Diseases Group Sanford Research Sioux Falls South Dakota USA

DOI: https://doi.org/10.1111/cts.13858
Journal volume & issue: Vol. 17, no. 6
pp. n/a – n/a

Abstract

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Abstract Cognitive or motor impairment is common among individuals with neurofibromatosis type 1 (NF1), an autosomal dominant tumor‐predisposition disorder. As many as 70% of children with NF1 report difficulties with spatial/working memory, attention, executive function, and fine motor movements. In contrast to the utilization of various Nf1 mouse models, here we employ an NF1+/ex42del miniswine model to evaluate the mechanisms and characteristics of these presentations, taking advantage of a large animal species more like human anatomy and physiology. The prefrontal lobe, anterior cingulate, and hippocampus from NF1+/ex42del and wild‐type miniswine were examined longitudinally, revealing abnormalities in mature oligodendrocytes and astrocytes, and microglial activation over time. Imbalances in GABA: Glutamate ratios and GAD67 expression were observed in the hippocampus and motor cortex, supporting the role of disruption in inhibitory neurotransmission in NF1 cognitive impairment and motor dysfunction. Moreover, NF1+/ex42del miniswine demonstrated slower and shorter steps, indicative of a balance‐preserving response commonly observed in NF1 patients, and progressive memory and learning impairments. Collectively, our findings affirm the effectiveness of NF1+/ex42del miniswine as a valuable resource for assessing cognitive and motor impairments associated with NF1, investigating the involvement of specific neural circuits and glia in these processes, and evaluating potential therapeutic interventions.

Published in Clinical and Translational Science

ISSN: 1752-8054 (Print); 1752-8062 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Therapeutics. Pharmacology; Medicine: Public aspects of medicine
Website: https://ascpt.onlinelibrary.wiley.com/journal/17528062

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