Comprehensive lipid metabolites-pyroptosis profiling uncovers the therapeutic efficacy of Mailuo Shutong pill against Thromboangiitis obliterans.

ETHNOPHARMACOLOGICAL RELEVANCE

Thromboangiitis obliterans (TAO) is a necrotic lesion with complex inflammatory changes in the vessel wall. Mailuo Shutong pill (MLSTP), a traditional Chinese medicine formula (TCM) clinically prescribed for TAO, has been proven to possess good efficacy in treating TAO. However, the underlying mechanism of its action remains unclear.

AIM OF THE STUDY

To explore the mechanism of MLSTP in alleviating the sodium laurate-induced thromboobliteration using lipidomics and bioinformatics analysis.

METHODS

UHPLC-Q-Orbitrap-HRMS was used to identify compounds of MLSTP. Clinical score, pathological picture of gangrene, and hematoxylin-eosin staining were used to evaluate the antithrombin effect of MLSTP on the TAO model. Lipidomics was used to discover core biomarkers and lipid metabolism. The causal links between core biomarkers and compounds were forecast via bioinformatics analysis and verified through immunohistochemical stainings.

RESULTS

Eighty-five and fourteen prototype components were successfully identified in the plasma and right posterior femoral arteries, respectively. Pharmacodynamic studies suggested that MLSTP could exert noticeable vasoprotective effects on TAO rats. Moreover, twenty-three differential metabolites were found with sphingolipid metabolism, glycerolipid metabolism, linoleic acid metabolism, and alpha-linolenic acid metabolism. Besides, bioinformatics analysis predicted the pyroptosis genes associated with sphingolipid metabolism. Subsequently, the immunohistochemical analysis revealed that aberrant CerS1 overexpression in femoral arteries initiates sphingolipid metabolic dysregulation, which subsequently activates the CASP8/CASP3/GSDME-mediated pyroptosis pathway and drives overexpression of inflammatory cytokines (IL-1β, IL-18, TNF-α, IL-6). Integrating component identification, lipidomics, and bioinformatics analysis identified four lipid metabolism pathways and one pyroptosis pathway related to sphingolipid metabolism, which revealed multiple mechanisms of MLSTP against TAO involving remedying lipid disturbances and pyroptosis.

CONCLUSIONS

MLSTP alleviated sodium laurate-induced thromboobliteration by rectifying lipid homeostasis imbalance and inhibiting potential pyroptosis pathways. More importantly, it offered new perspectives on the mechanism of TAO.