A Variant of the Hspa8 Synaptic Chaperone Modifies Disease in a SOD1 Mouse Model of Amyotrophic Lateral Sclerosis

Overview

Journal Exp Neurol

Specialty Neurology

Date 2024 Oct 25

PMID 39454934

Authors

Taishi Takeda

Yoon-Ra Her

Jeong-Ki Kim

Narendra N Jha

Umrao R Monani

Affiliations

Soon will be listed here.

Abstract

Amyotrophic lateral sclerosis (ALS) is a relatively common and invariably fatal, paralyzing motor neuron disease for which there are few treatment options. ALS is frequently associated with ubiquitin-positive motor neuronal aggregates, a pathology suggestive of perturbed proteostasis. Indeed, cellular chaperones, which are involved in protein trafficking and degradation often underlie familial ALS. Spinal muscular atrophy (SMA) is a second, common paralytic condition resulting from motor neuron loss and muscle atrophy. While SMA is now effectively treated, mechanisms underlying motor neuron degeneration in the disease remain far from clear. To address mechanistic questions about SMA, we recently identified a genetic modifier of the disease. The factor, a G470R variant in the constitutively expressed cellular chaperone, Hspa8, arrested motor neuron loss, prevented the abnormal accumulation of neurofilament aggregates at nerve terminals and suppressed disease. Hspa8 is best known for its role in autophagy. Amongst its many clients is the ALS-associated superoxide dismutase 1 (SOD1) protein. Given its suppression of the SMA phenotype, we tested potential disease-mitigating effects of Hspa8 in a mutant SOD1 mouse model of ALS. Unexpectedly, disease in mutant SOD1 mice expressing the G470R variant was aggravated. Motor performance of the mice deteriorated, muscle atrophy worsened, and lifespan shrunk even further. Paradoxically, SOD1 protein in spinal cord tissue of the mice was dramatically reduced. Our results suggest that Hspa8 modulates the ALS phenotype. However, rather than mitigating disease, the G470R variant exacerbates it.

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