Literature DB >> 33504650

Impaired prenatal motor axon development necessitates early therapeutic intervention in severe SMA.

Lingling Kong1, David O Valdivia1, Christian M Simon2, Cera W Hassinan1, Nicolas Delestrée2, Daniel M Ramos1, Jae Hong Park1, Celeste M Pilato1, Xixi Xu1, Melissa Crowder1, Chloe C Grzyb1, Zachary A King1, Marco Petrillo3, Kathryn J Swoboda4, Crystal Davis5, Cathleen M Lutz5, Alexander H Stephan6, Xin Zhao7, Marla Weetall7, Nikolai A Naryshkin7, Thomas O Crawford1,8, George Z Mentis2,9, Charlotte J Sumner10,11.   

Abstract

Gene replacement and pre-mRNA splicing modifier therapies represent breakthrough gene targeting treatments for the neuromuscular disease spinal muscular atrophy (SMA), but mechanisms underlying variable efficacy of treatment are incompletely understood. Our examination of severe infantile onset human SMA tissues obtained at expedited autopsy revealed persistence of developmentally immature motor neuron axons, many of which are actively degenerating. We identified similar features in a mouse model of severe SMA, in which impaired radial growth and Schwann cell ensheathment of motor axons began during embryogenesis and resulted in reduced acquisition of myelinated axons that impeded motor axon function neonatally. Axons that failed to ensheath degenerated rapidly postnatally, specifically releasing neurofilament light chain protein into the blood. Genetic restoration of survival motor neuron protein (SMN) expression in mouse motor neurons, but not in Schwann cells or muscle, improved SMA motor axon development and maintenance. Treatment with small-molecule SMN2 splice modifiers beginning immediately after birth in mice increased radial growth of the already myelinated axons, but in utero treatment was required to restore axonal growth and associated maturation, prevent subsequent neonatal axon degeneration, and enhance motor axon function. Together, these data reveal a cellular basis for the fulminant neonatal worsening of patients with infantile onset SMA and identify a temporal window for more effective treatment. These findings suggest that minimizing treatment delay is critical to achieve optimal therapeutic efficacy.
Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2021        PMID: 33504650      PMCID: PMC8208236          DOI: 10.1126/scitranslmed.abb6871

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  60 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  1999-05-25       Impact factor: 11.205

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Journal:  Science       Date:  2014-08-08       Impact factor: 47.728

9.  Subunit composition of neurofilaments specifies axonal diameter.

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Journal:  J Cell Biol       Date:  1996-06       Impact factor: 10.539

10.  Nusinersen initiated in infants during the presymptomatic stage of spinal muscular atrophy: Interim efficacy and safety results from the Phase 2 NURTURE study.

Authors:  Darryl C De Vivo; Enrico Bertini; Kathryn J Swoboda; Wuh-Liang Hwu; Thomas O Crawford; Richard S Finkel; Janbernd Kirschner; Nancy L Kuntz; Julie A Parsons; Monique M Ryan; Russell J Butterfield; Haluk Topaloglu; Tawfeg Ben-Omran; Valeria A Sansone; Yuh-Jyh Jong; Francy Shu; John F Staropoli; Douglas Kerr; Alfred W Sandrock; Christopher Stebbins; Marco Petrillo; Gabriel Braley; Kristina Johnson; Richard Foster; Sarah Gheuens; Ishir Bhan; Sandra P Reyna; Stephanie Fradette; Wildon Farwell
Journal:  Neuromuscul Disord       Date:  2019-09-12       Impact factor: 4.296
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  13 in total

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Journal:  J Clin Pharmacol       Date:  2022-09       Impact factor: 2.860

2.  Onasemnogene abeparvovec for presymptomatic infants with two copies of SMN2 at risk for spinal muscular atrophy type 1: the Phase III SPR1NT trial.

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3.  Premature delivery in the domestic sow in response to in utero delivery of AAV9 to fetal piglets.

Authors:  Kelly A Rich; Christopher G Wier; Jessica Russo; Lingling Kong; Patrick L Heilman; Anthony Reynolds; Amy Knapp; Megan G Pino; Elizabeth Keckley; Lori Mattox; Raphael A Malbrue; Charlotte J Sumner; Catalin Buhimschi; Stephen J Kolb
Journal:  Gene Ther       Date:  2021-11-22       Impact factor: 4.184

4.  Assuring long-term safety of highly effective gene-modulating therapeutics for rare diseases.

Authors:  Thomas O Crawford; Charlotte J Sumner
Journal:  J Clin Invest       Date:  2021-08-02       Impact factor: 19.456

5.  Spinal Muscular Atrophy Patient iPSC-Derived Motor Neurons Display Altered Proteomes at Early Stages of Differentiation.

Authors:  Suzy Varderidou-Minasian; Bert M Verheijen; Oliver Harschnitz; Sandra Kling; Henk Karst; W Ludo van der Pol; R Jeroen Pasterkamp; Maarten Altelaar
Journal:  ACS Omega       Date:  2021-12-15

Review 6.  Therapy development for spinal muscular atrophy: perspectives for muscular dystrophies and neurodegenerative disorders.

Authors:  Sibylle Jablonka; Luisa Hennlein; Michael Sendtner
Journal:  Neurol Res Pract       Date:  2022-01-04

7.  Motor defects in a Drosophila model for spinal muscular atrophy result from SMN depletion during early neurogenesis.

Authors:  Stuart J Grice; Ji-Long Liu
Journal:  PLoS Genet       Date:  2022-07-25       Impact factor: 6.020

Review 8.  SARM1 signaling mechanisms in the injured nervous system.

Authors:  Shilpa Sambashivan; Marc R Freeman
Journal:  Curr Opin Neurobiol       Date:  2021-06-25       Impact factor: 7.070

Review 9.  Peripheral Nerve Development and the Pathogenesis of Peripheral Neuropathy: the Sorting Point.

Authors:  Stefano C Previtali
Journal:  Neurotherapeutics       Date:  2021-07-09       Impact factor: 6.088

10.  The altered expression of neurofilament in mouse models and patients with spinal muscular atrophy.

Authors:  Charlotte Spicer; Ching-Hua Lu; Francesco Catapano; Mariacristina Scoto; Irina Zaharieva; Andrea Malaspina; Jennifer E Morgan; Linda Greensmith; Francesco Muntoni; Haiyan Zhou
Journal:  Ann Clin Transl Neurol       Date:  2021-03-08       Impact factor: 5.430
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