1. Neutral Sphingomyelinase 2 Inhibition Limits Hepatic Steatosis and Inflammation
    Fatema Al-Rashed et al, 2024, Cells CrossRef
  2. Characterization and Roles of Membrane Lipids in Fatty Liver Disease
    Morgan Welch et al, 2022, Membranes CrossRef
  3. Protaetia brevitarsis larvae extract protects against lipopolysaccharides-induced ferroptosis and inflammation by inhibiting acid sphingomyelinase
    Woo-Jae Park et al, 2024, Nutrition Research and Practice CrossRef
  4. Emerging roles and therapeutic potentials of sphingolipids in pathophysiology: emphasis on fatty acyl heterogeneity
    Jinming Mu et al, 2024, Journal of Genetics and Genomics CrossRef
  5. Inhibition of acid sphingomyelinase by imipramine abolishes the synergy between metabolic syndrome and periodontitis on alveolar bone loss
    Yanchun Li et al, 2022, Journal of Periodontal Research CrossRef
  6. Plasma C18:0‐ceramide is a novel potential biomarker for disease severity in myasthenia gravis
    Zhouao Zhang et al, 2023, Journal of Neurochemistry CrossRef
  7. Integration of network pharmacology, metabolomics and lipidomics for clarifying the role of sphingolipid metabolism in the treatment of liver cancer by regorafenib
    Hua Mu et al, 2024, Life Sciences CrossRef
  8. Circulating sphingolipids and subclinical brain pathology: the cardiovascular health study
    Kristine F. Moseholm et al, 2024, Frontiers in Neurology CrossRef
  9. A Rheostat of Ceramide and Sphingosine-1-Phosphate as a Determinant of Oxidative Stress-Mediated Kidney Injury
    Norishi Ueda, 2022, International Journal of Molecular Sciences CrossRef
  10. Inhibition of acid sphingomyelinase reduces reactive astrocyte secretion of mitotoxic extracellular vesicles and improves Alzheimer’s disease pathology in the 5xFAD mouse
    Simone M. Crivelli et al, 2023, Acta Neuropathologica Communications CrossRef
  11. Adoptive Transfer of Ceramide Synthase 6 Deficient Splenocytes Reduces the Development of Colitis
    Matthew J. Scheffel et al, 2017, Scientific Reports CrossRef
  12. Ethanol Induces Extracellular Vesicle Secretion by Altering Lipid Metabolism through the Mitochondria-Associated ER Membranes and Sphingomyelinases
    Francesc Ibáñez et al, 2021, International Journal of Molecular Sciences CrossRef
  13. High-fat, high-protein, and high-carbohydrate diets affect sphingolipid profile in pancreatic steatosis in Wistar rats
    Małgorzata Żendzian-Piotrowska et al, 2019, Nutrition CrossRef
  14. Integrative Analysis of MicroRNAs and mRNAs in LPS-Induced Macrophage Inflammation Based on Adipose Tissue Stem Cell Therapy
    Xiaozhi Bai et al, 2021, Inflammation CrossRef
  15. Potential Mechanism of S. baicalensis on Lipid Metabolism Explored via Network Pharmacology and Untargeted Lipidomics
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  16. CD36 deficiency protects lipopolysaccharide-induced sepsis via inhibiting CerS6-mediated endoplasmic reticulum stress
    Min Hee Kim et al, 2024, International Immunopharmacology CrossRef
  17. Low-grade elevation of palmitate and lipopolysaccharide synergistically induced β-cell damage via inhibition of neutral ceramidase
    Ya-Nan Xu et al, 2022, Molecular and Cellular Endocrinology CrossRef
  18. Sex-specific plasma lipid profiles of ME/CFS patients and their association with pain, fatigue, and cognitive symptoms
    Aurore Nkiliza et al, 2021, Journal of Translational Medicine CrossRef
  19. Screening for Susceptibility-Related Factors and Biomarkers of Xianling Gubao Capsule-Induced Liver Injury
    Chun-yu Li et al, 2020, Frontiers in Pharmacology CrossRef