VCP activator reverses nuclear proteostasis defects and enhances TDP-43 aggregate clearance in multisystem proteinopathy models
Jessica M. Phan, … , Carolyn N. Mann, Edward B. Lee
Jessica M. Phan, … , Carolyn N. Mann, Edward B. Lee
Published May 24, 2024
Citation Information: J Clin Invest. 2024;134(14):e169039. https://doi.org/10.1172/JCI169039.
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VCP activator reverses nuclear proteostasis defects and enhances TDP-43 aggregate clearance in multisystem proteinopathy models

Abstract

Pathogenic variants in valosin-containing protein (VCP) cause multisystem proteinopathy (MSP), a disease characterized by multiple clinical phenotypes including inclusion body myopathy, Paget’s disease of the bone, and frontotemporal dementia (FTD). How such diverse phenotypes are driven by pathogenic VCP variants is not known. We found that these diseases exhibit a common pathologic feature: ubiquitinated intranuclear inclusions affecting myocytes, osteoclasts, and neurons. Moreover, knock-in cell lines harboring MSP variants show a reduction in nuclear VCP. Given that MSP is associated with neuronal intranuclear inclusions comprised of TDP-43 protein, we developed a cellular model whereby proteostatic stress results in the formation of insoluble intranuclear TDP-43 aggregates. Consistent with a loss of nuclear VCP function, cells harboring MSP variants or cells treated with VCP inhibitor exhibited decreased clearance of insoluble intranuclear TDP-43 aggregates. Moreover, we identified 4 compounds that activate VCP primarily by increasing D2 ATPase activity, where pharmacologic VCP activation appears to enhance clearance of insoluble intranuclear TDP-43 aggregate. Our findings suggest that VCP function is important for nuclear protein homeostasis, that impaired nuclear proteostasis may contribute to MSP, and that VCP activation may be a potential therapeutic by virtue of enhancing the clearance of intranuclear protein aggregates.

Authors

Jessica M. Phan, Benjamin C. Creekmore, Aivi T. Nguyen, Darya D. Bershadskaya, Nabil F. Darwich, Carolyn N. Mann, Edward B. Lee

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Figure 1

Ubiquitinated intranuclear inclusions in FTLD-TDP, IBM, and Paget’s disease of bone, and reduced nuclear VCP localization in CRISPR-edited cells harboring pathogenic VCP variants.

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Ubiquitinated intranuclear inclusions in FTLD-TDP, IBM, and Paget’s dise...
(A) IHC stains of FTLD-TDP type D neocortical brain tissue for phosphorylated TDP-43 (1D3) or ubiquitin. Scale bar: 10 μm. (B) Electron microscopy and IHC stain for ubiquitin of IBM muscle. Scale bars: electron microscopy 2 μm; IHC 10 μm. (C) IHC stains for ubiquitin of Paget’s disease of bone, normal control bone, giant cell tumor of the bone, or fracture callus. Arrowheads point to ubiquitin-positive intranuclear inclusions and arrows point to osteoclasts without intranuclear inclusions. Scale bars: 10 μm. (D) Immunofluorescence staining for VCP (green) and DAPI (blue) of WT HeLa cell lines versus CRISPR/Cas9 knock-in HeLa cell lines harboring A232E or R155H VCP pathogenic variants. Scale bar: 15 μm. (E) Ratio of nuclear-to-cytoplasmic VCP immunofluorescence intensity (n = 325 cells across 3 cell lines from 3 independent experiments denoted with blue triangles, gray circles, or orange squares. Solid shapes represent mean average of each biological replicate and transparent shapes represent individual data points; data shown as individual data points with overall beta ± SE. LME, **** P < 0.0001). (F) Immunoblot of total (T) or nuclear (N) VCP, HSP90 (cytoplasmic marker), Nup98 (nuclear marker) protein in WT, A232E, or R155H cell lines. (G) Quantification of nuclear to total VCP protein expression of A232E or R155H normalized to WT. (H) Quantification of total VCP protein expression of A232E or R155H normalized to WT (For G and H: n = 3 experiments; results are expressed as β ± SEM; LME, *P < 0.05, **P < 0.01, ****P ≤ 0.0001).