Restoring calcium homeostasis in Purkinje cells arrests neurodegeneration and neuroinflammation in the ARSACS mouse model
Andrea Del Bondio, Fabiana Longo, Daniele De Ritis, Erica Spirito, Paola Podini, Bernard Brais, Angela Bachi, Angelo Quattrini, Francesca Maltecca
Andrea Del Bondio, Fabiana Longo, Daniele De Ritis, Erica Spirito, Paola Podini, Bernard Brais, Angela Bachi, Angelo Quattrini, Francesca Maltecca
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Research Article Cell biology Neuroscience

Restoring calcium homeostasis in Purkinje cells arrests neurodegeneration and neuroinflammation in the ARSACS mouse model

Abstract

Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) is caused by mutations in SACS gene encoding sacsin, a huge protein highly expressed in cerebellar Purkinje cells (PCs). Patients with ARSACS, as well as mouse models, display early degeneration of PCs, but the underlying mechanisms remain unexplored, with no available treatments. In this work, we demonstrated aberrant calcium (Ca2+) homeostasis and its impact on PC degeneration in ARSACS. Mechanistically, we found pathological elevation in Ca2+-evoked responses in Sacs–/– PCs as the result of defective mitochondria and ER trafficking to distal dendrites and strong downregulation of key Ca2+ buffer proteins. Alteration of cytoskeletal linkers, which we identified as specific sacsin interactors, likely account for faulty organellar trafficking in Sacs–/– cerebellum. Based on this pathogenetic cascade, we treated Sacs–/– mice with Ceftriaxone, a repurposed drug that exerts neuroprotection by limiting neuronal glutamatergic stimulation and, thus, Ca2+ fluxes into PCs. Ceftriaxone treatment significantly improved motor performances of Sacs–/– mice, at both pre- and postsymptomatic stages. We correlated this effect to restored Ca2+ homeostasis, which arrests PC degeneration and attenuates secondary neuroinflammation. These findings disclose key steps in ARSACS pathogenesis and support further optimization of Ceftriaxone in preclinical and clinical settings for the treatment of patients with ARSACS.

Authors

Andrea Del Bondio, Fabiana Longo, Daniele De Ritis, Erica Spirito, Paola Podini, Bernard Brais, Angela Bachi, Angelo Quattrini, Francesca Maltecca

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Figure 5

Transcriptomics analysis supports Ca2+ deregulation and neuroinflammation in Sacs–/– cerebellum.

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Transcriptomics analysis supports Ca2+ deregulation and neuroinflammatio...
(A) Heatmap of cerebellar gene expression profile comparing Sacs–/– and WT mice at 5 months of age; n = 5. (B) g:Profiler enrichment of deregulated genes comparing 5-month-old Sacs–/– and WT cerebellum showing the top 10 categories for each GO: molecular function and biological process. Color bar represents number of genes. (C) qPCR showing levels of Itpr1, Calb1, Casq2, and Car8 mRNA (relative to Hprt1 mRNA) in Sacs–/– and WT cerebellum at 5 months of age. Data are shown as mean ± SEM; n = 5; Welch’s t test. * P < 0.05. (D) WB analysis showing levels of GFAP in Sacs–/– and WT control cerebellum at 5 months of age with relative quantitation (normalized to calnexin). Data are shown as mean ± SEM; n = at least 4; Welch’s t test. ***P < 0.001. (E) qPCR showing levels of Gfap mRNA (relative to Hprt1 mRNA) in Sacs–/– and control cerebellum at 5 months of age. Data are shown as mean ± SEM; n = 5; Welch’s t test. **P < 0.01. (F) Representative images of immunofluorescence analysis showing astrocyte activation (GFAP, in red) in 5-month-old Sacs–/– cerebellum compared with controls. Scale bar: 0.2 mm. Data are shown as mean ± SEM; n = 3; Welch’s t test. **P < 0.01. (G) Representative images of immunofluorescence staining of microglia by Iba1 (in green) highlighting microglial morphological shift in 5-month-old Sacs–/– cerebellum compared with WT controls. Arrows indicate the amoeboid-phagocytic phenotype of microglia. Quantitative analysis of the percentage of Iba1+ cells was normalized to the total nuclei number. Scale bar: 0.2 mm. Data are shown as mean ± SEM; n = 3; Welch’s t test. *P < 0.05.