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Open Access 01-03-2015 | Original Paper

Novel HSAN1 Mutation in Serine Palmitoyltransferase Resides at a Putative Phosphorylation Site That Is Involved in Regulating Substrate Specificity

Authors: Daniela Ernst, Sinéad M. Murphy, Karthik Sathiyanadan, Yu Wei, Alaa Othman, Matilde Laurá, Yo-Tsen Liu, Anke Penno, Julian Blake, Michael Donaghy, Henry Houlden, Mary M. Reilly, Thorsten Hornemann

Published in: NeuroMolecular Medicine | Issue 1/2015

Abstract

1-Deoxysphingolipids (1-deoxySL) are atypical sphingolipids that are formed by the enzyme serine palmitoyltransferase (SPT) due to a promiscuous use of l-alanine over its canonical substrate l-serine. Several mutations in SPT are associated with the hereditary sensory and autonomic neuropathy type I (HSAN1). The current hypothesis is that these mutations induce a permanent shift in the affinity from l-serine toward l-alanine which results in a pathologically increased 1-deoxySL formation in HSAN1 patients. Also, wild-type SPT forms 1-deoxySL under certain conditions, and elevated levels were found in individuals with the metabolic syndrome and diabetes. However, the molecular mechanisms which control the substrate shift of the wild-type enzyme are not understood. Here, we report a novel SPTLC2–S384F variant in two unrelated HSAN1 families. Affected patients showed elevated plasma 1-deoxySL levels and expression of the S384F mutant in HEK293 cells increased 1-deoxySL formation. Previously, S384 has been reported as one of the two (S384 and Y387) putative phosphorylation sites in SPTLC2. The phosphorylation of wild-type SPTLC2 was confirmed by isoelectric focusing. The impact of an S384 phosphorylation on SPT activity was tested by creating mutants mimicking either a constitutively phosphorylated (S384D, S384E) or non-phosphorylated (S384A, Y387F, Y387F+S384A) protein. The S384D but not the S384E variant was associated with increased 1-deoxySL formation. The other mutations had no influence on activity and substrate affinity. In summary, our data show that S384F is a novel mutation in HSAN1 and that the substrate specificity of wild-type SPT might by dynamically regulated by a phosphorylation at this position.

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Title: Novel HSAN1 Mutation in Serine Palmitoyltransferase Resides at a Putative Phosphorylation Site That Is Involved in Regulating Substrate Specificity
Authors: Daniela Ernst
Sinéad M. Murphy
Karthik Sathiyanadan
Yu Wei
Alaa Othman
Matilde Laurá
Yo-Tsen Liu
Anke Penno
Julian Blake
Michael Donaghy
Henry Houlden
Mary M. Reilly
Thorsten Hornemann
Publication date: 01-03-2015
Publisher: Springer US
Published in: NeuroMolecular Medicine / Issue 1/2015
Print ISSN: 1535-1084
Electronic ISSN: 1559-1174
DOI: https://doi.org/10.1007/s12017-014-8339-1

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Novel HSAN1 Mutation in Serine Palmitoyltransferase Resides at a Putative Phosphorylation Site That Is Involved in Regulating Substrate Specificity

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

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