PI31 expression is neuroprotective in a mouse model of early- onset parkinsonism

Article

Rodriguez, Jose A.; Minis, Adi; Aref, Rasha; Nguyen, Hieu Hoang Minh; Sun, Fiona; Steller, Hermann; Chao, Moses

Rockefeller University; Stanford University

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

0027-14731

10.1073/pnas.2511899122

2025-09-16

Neurodegenerative diseases present one of the most significant global health challenges. These disorders are defined by the accumulation of abnormal protein aggregates that impair synaptic function and cause progressive neuronal degeneration. Therefore, stimulating protein clearance mechanisms may be neuroprotective. Variants in FBXO7/ PARK15 cause Parkinsonian Pyramidal Syndrome, an early-onset parkinsonian neurodegenerative disorder in humans, and inactivation of this gene in mice recapitulates many phenotypes seen in patients. The proteasome regulator PI31 is a direct binding partner of Fbxo7 and promotes local protein degradation at synapses by mediating fast proteasome transport in neurites. PI31 protein levels are reduced when the function of Fbxo7 is impaired. Here we show that restoring PI31 levels in Fbxo7 mutant fly and mouse strains prevents neuronal degeneration and significantly improves neuronal function, health, and lifespan. Notably, Fbxo7 inactivation in mouse neurons causes hyperphosphorylation of tau, and this was suppressed by transgenic expression of PI31. Our results demonstrate that PI31 is a crucial biological target through which Fbxo7 deficiency drives pathology. Therefore, targeting the PI31-pathway may represent a promising therapeutic approach for treating neurodegenerative disorders.