Valosin-containing protein and neurofibromin interact to regulate dendritic spine density
Hsiao-Fang Wang, … , Ming-Jen Lee, Yi-Ping Hsueh
Hsiao-Fang Wang, … , Ming-Jen Lee, Yi-Ping Hsueh
Published November 21, 2011
Citation Information: J Clin Invest. 2011;121(12):4820-4837. https://doi.org/10.1172/JCI45677.
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Research Article

Valosin-containing protein and neurofibromin interact to regulate dendritic spine density

Abstract

Inclusion body myopathy with Paget disease of bone and frontotemporal dementia (IBMPFD) is an autosomal dominant disorder characterized by progressive myopathy that is often accompanied by bone weakening and/or frontotemporal dementia. Although it is known to be caused by mutations in the gene encoding valosin-containing protein (VCP), the underlying disease mechanism remains elusive. Like IBMPFD, neurofibromatosis type 1 (NF1) is an autosomal dominant disorder. Neurofibromin, the protein encoded by the NF1 gene, has been shown to regulate synaptogenesis. Here, we show that neurofibromin and VCP interact and work together to control the density of dendritic spines. Certain mutations identified in IBMPFD and NF1 patients reduced the interaction between VCP and neurofibromin and impaired spinogenesis. The functions of neurofibromin and VCP in spinogenesis were shown to correlate with the learning disability and dementia phenotypes seen in patients with IBMPFD. Consistent with the previous finding that treatment with a statin rescues behavioral defects in Nf1+/– mice and providing further support for our hypothesis that there is crosstalk between neurofibromin and VCP, statin exposure neutralized the effect of VCP knockdown on spinogenesis in cultured hippocampal neurons. The data presented here demonstrate that there is a link between IBMPFD and NF1 and indicate a role for VCP in synapse formation.

Authors

Hsiao-Fang Wang, Yu-Tzu Shih, Chiung-Ya Chen, Hsu-Wen Chao, Ming-Jen Lee, Yi-Ping Hsueh

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Figure 8

VCP acts downstream of neurofibromin in the regulation of dendritic spine density.

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VCP acts downstream of neurofibromin in the regulation of dendritic spin...
(A and B) Cultured cortical neurons isolated from Nf1+/– mice and WT littermates were cotransfected with GFP-actin and Myc-tagged WT VCP or R95G mutant or vector control at 12 DIV. The density of dendritic spines was determined at 18 DIV by staining using GFP and Myc antibodies. (A) Mean values plus SEM of protrusion density. **P < 0.01, ***P < 0.001. (B) Cumulative probability of protrusion density. In total, 19–26 neurons and 31–82 dendrites were analyzed. P < 0.01, WT R95G versus WT WT and Nf1+/– control versus WT control; P < 0.001, Nf1+/– WT versus Nf1+/– control and versus Nf1+/– R95G. (C) Subcellular distribution of VCP in Nf1+/– brain. Subcellular fractions of WT and Nf1+/– brains were isolated by a series of centrifugations (95) and analyzed by immunoblotting. Synaptophysin (SVP38) was used as a loading control of LP2. H, total homogenate; P1, crude nuclei, unbroken cells, and debris; S1, supernatant of P1; P3, light membrane fraction (including ER and Golgi body); S3, soluble cytosolic fraction; LP1, lysed synaptosomal membrane; LP2, crude synaptic vesicles; LS2, soluble synaptic cytosol. The signals were quantified using Gel-Pro Analyzer (Media Cybernetics). The intensity ratios of WT to Nf1+/– of each fraction are shown.