Literature DB >> 34059824

Childhood amyotrophic lateral sclerosis caused by excess sphingolipid synthesis.

Sandra Donkervoort1, Museer A Lone2, Matthew Nalls1, Kenneth Gable3, Sita D Gupta3, Payam Mohassel1, A Reghan Foley1, Ying Hu1, Jonas Alex Morales Saute4, Ana Lucila Moreira5, Fernando Kok6, Alessandro Introna7, Giancarlo Logroscino7,8, Christopher Grunseich9, Alec R Nickolls1, Naemeh Pourshafie9, Sarah B Neuhaus1, Dimah Saade1, Andrea Gangfuß10, Heike Kölbel10, Zoe Piccus11, Claire E Le Pichon11, Chiara Fiorillo12, Cindy V Ly13, Ana Töpf14, Lauren Brady15, Sabine Specht14, Aliza Zidell16, Helio Pedro17, Eric Mittelmann18, Florian P Thomas18, Katherine R Chao19, Chamindra G Konersman20, Megan T Cho21, Tracy Brandt21, Volker Straub14, Anne M Connolly22, Ulrike Schara10, Andreas Roos10, Mark Tarnopolsky15, Ahmet Höke23, Robert H Brown24, Chia-Hsueh Lee25, Thorsten Hornemann2, Teresa M Dunn26, Carsten G Bönnemann27.   

Abstract

Amyotrophic lateral sclerosis (ALS) is a progressive, neurodegenerative disease of the lower and upper motor neurons with sporadic or hereditary occurrence. Age of onset, pattern of motor neuron degeneration and disease progression vary widely among individuals with ALS. Various cellular processes may drive ALS pathomechanisms, but a monogenic direct metabolic disturbance has not been causally linked to ALS. Here we show SPTLC1 variants that result in unrestrained sphingoid base synthesis cause a monogenic form of ALS. We identified four specific, dominantly acting SPTLC1 variants in seven families manifesting as childhood-onset ALS. These variants disrupt the normal homeostatic regulation of serine palmitoyltransferase (SPT) by ORMDL proteins, resulting in unregulated SPT activity and elevated levels of canonical SPT products. Notably, this is in contrast with SPTLC1 variants that shift SPT amino acid usage from serine to alanine, result in elevated levels of deoxysphingolipids and manifest with the alternate phenotype of hereditary sensory and autonomic neuropathy. We custom designed small interfering RNAs that selectively target the SPTLC1 ALS allele for degradation, leave the normal allele intact and normalize sphingolipid levels in vitro. The role of primary metabolic disturbances in ALS has been elusive; this study defines excess sphingolipid biosynthesis as a fundamental metabolic mechanism for motor neuron disease.
© 2021. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.

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Year:  2021        PMID: 34059824      PMCID: PMC9309980          DOI: 10.1038/s41591-021-01346-1

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   87.241


  55 in total

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Authors:  B R Brooks; R G Miller; M Swash; T L Munsat
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2.  Expression of the ORMDLS, modulators of serine palmitoyltransferase, is regulated by sphingolipids in mammalian cells.

Authors:  Sita D Gupta; Kenneth Gable; Aikaterini Alexaki; Panagiotis Chandris; Richard L Proia; Teresa M Dunn; Jeffrey M Harmon
Journal:  J Biol Chem       Date:  2014-11-13       Impact factor: 5.157

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4.  The ORMs interact with transmembrane domain 1 of Lcb1 and regulate serine palmitoyltransferase oligomerization, activity and localization.

Authors:  Gongshe Han; Sita D Gupta; Kenneth Gable; Dagmar Bacikova; Nivedita Sengupta; Niranjanakumari Somashekarappa; Richard L Proia; Jeffrey M Harmon; Teresa M Dunn
Journal:  Biochim Biophys Acta Mol Cell Biol Lipids       Date:  2018-12-06       Impact factor: 4.698

5.  Sphingolipidomics: high-throughput, structure-specific, and quantitative analysis of sphingolipids by liquid chromatography tandem mass spectrometry.

Authors:  Alfred H Merrill; M Cameron Sullards; Jeremy C Allegood; Samuel Kelly; Elaine Wang
Journal:  Methods       Date:  2005-06       Impact factor: 3.608

6.  Serine and Lipid Metabolism in Macular Disease and Peripheral Neuropathy.

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Journal:  Nature       Date:  2020-05-27       Impact factor: 69.504
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6.  Multi-omic analysis of selectively vulnerable motor neuron subtypes implicates altered lipid metabolism in ALS.

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