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AMFR dysfunction causes autosomal recessive spastic paraplegia in human that is amenable to statin treatment in a preclinical model

Authors :
Ruizhi Deng
Eva Medico-Salsench
Anita Nikoncuk
Reshmi Ramakrishnan
Kristina Lanko
Nikolas A. Kühn
Herma C. van der Linde
Sarah Lor-Zade
Fatimah Albuainain
Yuwei Shi
Soheil Yousefi
Ivan Capo
Evita Medici van den Herik
Marjon van Slegtenhorst
Rick van Minkelen
Geert Geeven
Monique T. Mulder
George J. G. Ruijter
Dieter Lütjohann
Edwin H. Jacobs
Henry Houlden
Alistair T. Pagnamenta
Kay Metcalfe
Adam Jackson
Siddharth Banka
Lenika De Simone
Abigail Schwaede
Nancy Kuntz
Timothy Blake Palculict
Safdar Abbas
Muhammad Umair
Mohammed AlMuhaizea
Dilek Colak
Hanan AlQudairy
Maysoon Alsagob
Catarina Pereira
Roberta Trunzo
Vasiliki Karageorgou
Aida M. Bertoli-Avella
Peter Bauer
Arjan Bouman
Lies H. Hoefsloot
Tjakko J. van Ham
Mahmoud Issa
Maha S. Zaki
Joseph G. Gleeson
Rob Willemsen
Namik Kaya
Stefan T. Arold
Reza Maroofian
Leslie E. Sanderson
Tahsin Stefan Barakat
Clinical Genetics
Neurology
Internal Medicine
Source :
AMFR consortium, Deng, R, Medico-Salsench, E, Nikoncuk, A, Ramakrishnan, R, Lanko, K, Kühn, N A, van der Linde, H C, Lor-Zade, S, Albuainain, F, Shi, Y, Yousefi, S, Capo, I, van den Herik, E M, van Slegtenhorst, M, van Minkelen, R, Geeven, G, Mulder, M T, Ruijter, G J G, Lütjohann, D, Jacobs, E H, Houlden, H, Pagnamenta, A T, Metcalfe, K, Jackson, A, Banka, S, De Simone, L, Schwaede, A, Kuntz, N, Palculict, T B, Abbas, S, Umair, M, AlMuhaizea, M, Colak, D, AlQudairy, H, Alsagob, M, Pereira, C, Trunzo, R, Karageorgou, V, Bertoli-Avella, A M, Bauer, P, Bouman, A, Hoefsloot, L H, van Ham, T J, Issa, M, Zaki, M S, Gleeson, J G, Willemsen, R, Kaya, N, Arold, S T & Maroofian, R 2023, ' AMFR dysfunction causes autosomal recessive spastic paraplegia in human that is amenable to statin treatment in a preclinical model ', Acta Neuropathologica, vol. 146, no. 2, pp. 353-368 . https://doi.org/10.1007/s00401-023-02579-9, Acta Neuropathologica. Springer-Verlag
Publication Year :
2023

Abstract

Hereditary spastic paraplegias (HSP) are rare, inherited neurodegenerative or neurodevelopmental disorders that mainly present with lower limb spasticity and muscle weakness due to motor neuron dysfunction. Whole genome sequencing identified bi-allelic truncating variants in AMFR, encoding a RING-H2 finger E3 ubiquitin ligase anchored at the membrane of the endoplasmic reticulum (ER), in two previously genetically unexplained HSP-affected siblings. Subsequently, international collaboration recognized additional HSP-affected individuals with similar bi-allelic truncating AMFR variants, resulting in a cohort of 20 individuals from 8 unrelated, consanguineous families. Variants segregated with a phenotype of mainly pure but also complex HSP consisting of global developmental delay, mild intellectual disability, motor dysfunction, and progressive spasticity. Patient-derived fibroblasts, neural stem cells (NSCs), and in vivo zebrafish modeling were used to investigate pathomechanisms, including initial preclinical therapy assessment. The absence of AMFR disturbs lipid homeostasis, causing lipid droplet accumulation in NSCs and patient-derived fibroblasts which is rescued upon AMFR re-expression. Electron microscopy indicates ER morphology alterations in the absence of AMFR. Similar findings are seen in amfra-/- zebrafish larvae, in addition to altered touch-evoked escape response and defects in motor neuron branching, phenocopying the HSP observed in patients. Interestingly, administration of FDA-approved statins improves touch-evoked escape response and motor neuron branching defects in amfra-/- zebrafish larvae, suggesting potential therapeutic implications. Our genetic and functional studies identify bi-allelic truncating variants in AMFR as a cause of a novel autosomal recessive HSP by altering lipid metabolism, which may potentially be therapeutically modulated using precision medicine with statins.

Details

Language :
English
ISSN :
00016322
Database :
OpenAIRE
Journal :
AMFR consortium, Deng, R, Medico-Salsench, E, Nikoncuk, A, Ramakrishnan, R, Lanko, K, Kühn, N A, van der Linde, H C, Lor-Zade, S, Albuainain, F, Shi, Y, Yousefi, S, Capo, I, van den Herik, E M, van Slegtenhorst, M, van Minkelen, R, Geeven, G, Mulder, M T, Ruijter, G J G, Lütjohann, D, Jacobs, E H, Houlden, H, Pagnamenta, A T, Metcalfe, K, Jackson, A, Banka, S, De Simone, L, Schwaede, A, Kuntz, N, Palculict, T B, Abbas, S, Umair, M, AlMuhaizea, M, Colak, D, AlQudairy, H, Alsagob, M, Pereira, C, Trunzo, R, Karageorgou, V, Bertoli-Avella, A M, Bauer, P, Bouman, A, Hoefsloot, L H, van Ham, T J, Issa, M, Zaki, M S, Gleeson, J G, Willemsen, R, Kaya, N, Arold, S T & Maroofian, R 2023, ' AMFR dysfunction causes autosomal recessive spastic paraplegia in human that is amenable to statin treatment in a preclinical model ', Acta Neuropathologica, vol. 146, no. 2, pp. 353-368 . https://doi.org/10.1007/s00401-023-02579-9, Acta Neuropathologica. Springer-Verlag
Accession number :
edsair.doi.dedup.....e1fc78cc6dfddfc3f598c41b1aba5238
Full Text :
https://doi.org/10.1007/s00401-023-02579-9