Asthma is the most common chronic respiratory disease of childhood and is strongly associated with genetic variants at the 17q21 locus that increase expression of ORMDL3, a negative regulator of serine palmitoyl-CoA transferase (SPT), the rate-limiting enzyme in de novo sphingolipid synthesis. Reduced sphingolipid production has been linked to airway hyperreactivity, a key physiological feature of asthma, but the mechanisms connecting altered sphingolipid metabolism to airway dysfunction remain unclear.

We examined whether sphingolipid metabolites regulate airway smooth muscle reactivity. Circulating sphingolipids were quantified in children with asthma carrying 17q21 risk alleles and in mice with reduced SPT activity. Functional airway responses were assessed in precision-cut lung slices exposed to sphingosine-1-phosphate (S1P), sphinganine-1-phosphate (Sa1P), and S1P receptor antagonists. Homozygous carriers of the rs7216389 risk allele and SPT-deficient mice displayed an increased S1P-to-Sa1P ratio. In functional assays, Sa1P opposed S1P-induced airway contraction, and increasing Sa1P availability reduced airway hyperresponsiveness. These findings identify the S1P/Sa1P axis as a metabolic rheostat regulating airway smooth muscle tone and suggest that targeting sphingolipid metabolism may offer a therapeutic strategy to mitigate intrinsic airway hyperreactivity in asthma.

One sentence summary An imbalance between sphingosine-1-phosphate and sphinganine-1-phosphate links the asthma risk locus 17q21 to airway hyperreactivity and reveals sphingolipid metabolism as a potential therapeutic target.

The authors have declared no competing interest.

National Institute of Health, R01AI171390 Burroughs Wellcome Fund, 1440050002

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Weill Cornell IRB and New York Hospital Queens (protocol 19-08020637)

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