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Mutations targeting distinct domains of the neuron-specific kinesin KIF5A associate with different neurodegenerative/neurodevelopmental disorders, but the molecular bases of this clinical heterogeneity are unknown. We characterised five key mutants covering the whole spectrum of KIF5A-related phenotypes: spastic paraplegia (SPG, R17Q and R280C), Charcot-Marie-Tooth disease (CMT, R864*), amyotrophic lateral sclerosis (ALS, N999Vfs*40), and neonatal intractable myoclonus (NEIMY, C975Vfs*73) KIF5A mutants. CMT-R864*-KIF5A and ALS-N999Vfs*40-KIF5A showed impaired autoinhibition and peripheral localisation accompanied by altered mitochondrial distribution, suggesting transport competence disruption. ALS-N999Vfs*40-KIF5A formed SQSTM1/p62-positive inclusions sequestering WT-KIF5A, indicating a gain of toxic function. SPG-R17Q-KIF5A and ALS-N999Vfs*40-KIF5A evidenced a shorter half-life compared to WT-KIF5A, and proteasomal blockage determined their accumulation into detergent-insoluble inclusions. Interestingly, SPG-R280C-KIF5A and ALS-N999Vfs*40-KIF5A both competed for degradation with proteasomal substrates. Finally, NEIMY-C975Vfs*73-KIF5A displayed a similar, but more severe aberrant behaviour compared to ALSN999Vfs*40-KIF5A; these two mutants share an abnormal tail but cause disorders on the opposite end of KIF5A-linked phenotypic spectrum. Thus, our observations support the pathogenicity of novel KIF5A mutants, highlight abnormalities

Altered molecular and cellular mechanisms in KIF5A-associated neurodegenerative or neurodevelopmental disorders / M. Cozzi, S. Magri, B. Tedesco, G. Patelli, V. Ferrari, E. Casarotto, M. Chierichetti, P. Pramaggiore, L. Cornaggia, M. Piccolella, M. Galbiati, P. Rusmini, V. Crippa, J. Mandrioli, D. Pareyson, C. Pisciotta, S. D'Arrigo, A. Ratti, L. Nanetti, C. Mariotti, E. Sarto, V. Pensato, C. Gellera, D. Di Bella, R.M. Cristofani, F. Taroni, A. Poletti. - In: CELL DEATH & DISEASE. - ISSN 2041-4889. - 15:9(2024 Sep 27), pp. 692.1-692.16. [10.1038/s41419-024-07096-5]

Altered molecular and cellular mechanisms in KIF5A-associated neurodegenerative or neurodevelopmental disorders

M. Cozzi
Co-primo
;S. Magri
Co-primo
;B. Tedesco
Secondo
;G. Patelli;V. Ferrari;E. Casarotto;M. Chierichetti;P. Pramaggiore;L. Cornaggia;M. Piccolella;M. Galbiati;P. Rusmini;V. Crippa;A. Ratti;L. Nanetti;C. Mariotti;E. Sarto;V. Pensato;R.M. Cristofani
Co-ultimo
;A. Poletti
Co-ultimo
2024

Abstract

Mutations targeting distinct domains of the neuron-specific kinesin KIF5A associate with different neurodegenerative/neurodevelopmental disorders, but the molecular bases of this clinical heterogeneity are unknown. We characterised five key mutants covering the whole spectrum of KIF5A-related phenotypes: spastic paraplegia (SPG, R17Q and R280C), Charcot-Marie-Tooth disease (CMT, R864*), amyotrophic lateral sclerosis (ALS, N999Vfs*40), and neonatal intractable myoclonus (NEIMY, C975Vfs*73) KIF5A mutants. CMT-R864*-KIF5A and ALS-N999Vfs*40-KIF5A showed impaired autoinhibition and peripheral localisation accompanied by altered mitochondrial distribution, suggesting transport competence disruption. ALS-N999Vfs*40-KIF5A formed SQSTM1/p62-positive inclusions sequestering WT-KIF5A, indicating a gain of toxic function. SPG-R17Q-KIF5A and ALS-N999Vfs*40-KIF5A evidenced a shorter half-life compared to WT-KIF5A, and proteasomal blockage determined their accumulation into detergent-insoluble inclusions. Interestingly, SPG-R280C-KIF5A and ALS-N999Vfs*40-KIF5A both competed for degradation with proteasomal substrates. Finally, NEIMY-C975Vfs*73-KIF5A displayed a similar, but more severe aberrant behaviour compared to ALSN999Vfs*40-KIF5A; these two mutants share an abnormal tail but cause disorders on the opposite end of KIF5A-linked phenotypic spectrum. Thus, our observations support the pathogenicity of novel KIF5A mutants, highlight abnormalities
neurodegeneration; neurodevelopment; genetics; axonal trafficking; protein quality control; protein aggregation;
Settore BIOS-10/A - Biologia cellulare e applicata
Settore BIOS-06/A - Fisiologia
Settore MEDS-01/A - Genetica medica
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27-set-2024
CELL DEATH & DISEASE
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1104328
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