Literature DB >> 31227640

Rare DEGS1 variant significantly alters de novo ceramide synthesis pathway.

Nicholas B Blackburn1, Laura F Michael2, Peter J Meikle3, Juan M Peralta4, Marian Mosior2, Scott McAhren2, Hai H Bui2, Melissa A Bellinger2, Corey Giles3, Satish Kumar5, Ana C Leandro5, Marcio Almeida5, Jacquelyn M Weir3, Michael C Mahaney5, Thomas D Dyer5, Laura Almasy6, John L VandeBerg5, Sarah Williams-Blangero5, David C Glahn7, Ravindranath Duggirala5, Mark Kowala2, John Blangero5, Joanne E Curran8.   

Abstract

The de novo ceramide synthesis pathway is essential to human biology and health, but genetic influences remain unexplored. The core function of this pathway is the generation of biologically active ceramide from its precursor, dihydroceramide. Dihydroceramides have diverse, often protective, biological roles; conversely, increased ceramide levels are biomarkers of complex disease. To explore the genetics of the ceramide synthesis pathway, we searched for deleterious nonsynonymous variants in the genomes of 1,020 Mexican Americans from extended pedigrees. We identified a Hispanic ancestry-specific rare functional variant, L175Q, in delta 4-desaturase, sphingolipid 1 (DEGS1), a key enzyme in the pathway that converts dihydroceramide to ceramide. This amino acid change was significantly associated with large increases in plasma dihydroceramides. Indexes of DEGS1 enzymatic activity were dramatically reduced in heterozygotes. CRISPR/Cas9 genome editing of HepG2 cells confirmed that the L175Q variant results in a partial loss of function for the DEGS1 enzyme. Understanding the biological role of DEGS1 variants, such as L175Q, in ceramide synthesis may improve the understanding of metabolic-related disorders and spur ongoing research of drug targets along this pathway.
Copyright © 2019 Blackburn et al.

Entities:  

Keywords:  genetics; genomics; lipidomics; sphingolipids

Mesh:

Substances:

Year:  2019        PMID: 31227640      PMCID: PMC6718439          DOI: 10.1194/jlr.P094433

Source DB:  PubMed          Journal:  J Lipid Res        ISSN: 0022-2275            Impact factor:   5.922


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