Decreased sphingolipid synthesis in children with 17q21 asthma-risk genotypes

Risk for childhood asthma is conferred by alleles within the 17q21 locus affecting ORMDL sphingolipid biosynthesis regulator 3 (ORMDL3) expression. ORMDL3 inhibits sphingolipid de novo synthesis. Although the effects of 17q21 genotypes on sphingolipid synthesis in human asthma remain unclear, both d...

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Bibliographic Details
Published in:The Journal of clinical investigation 2020-02, Vol.130 (2), p.921-926
Main Authors: Ono, Jennie G, Kim, Benjamin I, Zhao, Yize, Christos, Paul J, Tesfaigzi, Yohannes, Worgall, Tilla S, Worgall, Stefan
Format: Article
Language:English
Subjects:
Adolescent
Alleles
Allergies
Asthma
Asthma - blood
Asthma - genetics
Asthma - pathology
B cells
Biomedical research
Biosynthesis
Blood
Blood cells
Case-Control Studies
Ceramides
Child
Child, Preschool
Childhood
Childhood asthma
Children
Chromosome 17
Chromosomes, Human, Pair 17 - genetics
Chromosomes, Human, Pair 17 - metabolism
Concise Communication
Disease susceptibility
Drug development
Female
Genetic aspects
Genetic Diseases, Inborn - blood
Genetic Diseases, Inborn - genetics
Genetic Diseases, Inborn - pathology
Genetic diversity
Genotypes
Humans
Lipids
Male
Membrane lipids
Membrane Proteins - blood
Membrane Proteins - genetics
Peripheral blood
Phosphates
Physiological aspects
Plant lipids
Plasma
Risk Factors
Serine
Sphinganine
Sphingolipids
Sphingolipids - biosynthesis
Therapeutics
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Summary:Risk for childhood asthma is conferred by alleles within the 17q21 locus affecting ORMDL sphingolipid biosynthesis regulator 3 (ORMDL3) expression. ORMDL3 inhibits sphingolipid de novo synthesis. Although the effects of 17q21 genotypes on sphingolipid synthesis in human asthma remain unclear, both decreased sphingolipid synthesis and ORMDL3 overexpression are linked to airway hyperreactivity. To characterize the relationship of genetic asthma susceptibility with sphingolipid synthesis, we analyzed asthma-associated 17q21 genotypes (rs7216389, rs8076131, rs4065275, rs12603332, and rs8067378) in both children with asthma and those without asthma, quantified plasma and whole-blood sphingolipids, and assessed sphingolipid de novo synthesis in peripheral blood cells by measuring the incorporation of stable isotope-labeled serine (substrate) into sphinganine and sphinganine-1-phosphate. Whole-blood dihydroceramides and ceramides were decreased in subjects with the 17q21 asthma-risk alleles rs7216389 and rs8076131. Children with nonallergic asthma had lower dihydroceramides, ceramides, and sphingomyelins than did controls. Children with allergic asthma had higher dihydroceramides, ceramides, and sphingomyelins compared with children with nonallergic asthma. Additionally, de novo sphingolipid synthesis was lower in children with asthma compared with controls. These findings connect genetic 17q21 variations that are associated with asthma risk and higher ORMDL3 expression to lower sphingolipid synthesis in humans. Altered sphingolipid synthesis may therefore be a critical factor in asthma pathogenesis and may guide the development of future therapeutics.
ISSN:0021-9738
1558-8238
1558-8238
DOI:10.1172/JCI130860