Volume 129 Number 3 March 2019 conjugation of L-serine and palmitoyl-CoA, the rate-limiting step catalyzed by serine palmitoyltransferase (SPT). The immediate product 3-keto-sphinganine is reduced to sphinganine (SA), which is then N-acylated to dihydroceramide (dhCer) by 1 of 6 ceramide synthase isoforms (CerS1-6) (4). In the final step, dhCer is converted to ceramide by the insertion of a Δ4,5 trans (Δ4E) double bond into the SA backbone. This final conversion is catalyzed by the Δ4-dihydroceramide desaturase DEGS1 (5). On the catabolic side, ceramides are deacylated by ceramidases to form sphingosine (SO), which can be either recycled back to ceramides (sal-BACKGROUND. Sphingolipids are important components of cellular membranes and functionally associated with fundamental processes such as cell differentiation, neuronal signaling, and myelin sheath formation. Defects in the synthesis or degradation of sphingolipids leads to various neurological pathologies; however, the entire spectrum of sphingolipid metabolism disorders remains elusive. METHODS.A combined approach of genomics and lipidomics was applied to identify and characterize a human sphingolipid metabolism disorder. RESULTS.By whole-exome sequencing in a patient with a multisystem neurological disorder of both the central and peripheral nervous systems, we identified a homozygous p.Ala280Val variant in DEGS1, which catalyzes the last step in the ceramide synthesis pathway. The blood sphingolipid profile in the patient showed a significant increase in dihydro sphingolipid species that was further recapitulated in patient-derived fibroblasts, in CRISPR/Cas9-derived DEGS1-knockout cells, and by pharmacological inhibition of DEGS1. The enzymatic activity in patient fibroblasts was reduced by 80% compared with wild-type cells, which was in line with a reduced expression of mutant DEGS1 protein. Moreover, an atypical and potentially neurotoxic sphingosine isomer was identified in patient plasma and in cells expressing mutant DEGS1. CONCLUSION.We report DEGS1 dysfunction as the cause of a sphingolipid disorder with hypomyelination and degeneration of both the central and peripheral nervous systems.(OMIM #617575) (19-21), but also with axonal peripheral neuropathy without renal or adrenal deficiencies (22).Here, we identify DEGS1 dysfunction as the cause of an SL disorder with leukodystrophy and hypomyelination of the peripheral nervous system.
The proliferative niches in the subpallium generate a rich cellular variety fated for diverse telencephalic regions. The embryonic preoptic area (POA) represents one of these domains giving rise to the pool of cortical GABAergic interneurons and glial cells, in addition to striatal and residual POA cells. The migration from sites of origin within the subpallium to the distant targets like the cerebral cortex, accomplished by the adoption and maintenance of a particular migratory morphology, is a critical step during interneuron development. To identify factors orchestrating this process, we performed single-cell transcriptome analysis and detected Dnmt1 expression in murine migratory GABAergic POA-derived cells. Deletion of Dnmt1 in postmitotic immature cells of the POA caused defective migration and severely diminished adult cortical interneuron numbers. We found that DNA methyltransferase 1 (DNMT1) preserves the migratory shape in part through negative regulation of Pak6, which stimulates neuritogenesis at postmigratory stages. Our data underline the importance of DNMT1 for the migration of POA-derived cells including cortical interneurons.
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