AI Article Synopsis
- Metabolic syndrome is characterized by high lipid levels and cardiovascular issues, and this study explores the impact of inhibiting glycosphingolipid synthesis on a male mouse model of type II diabetes (db/db).
- The treatment with a specific glycosphingolipid inhibitor (BPD) resulted in reduced arterial thickness, lower levels of harmful lipids, and increased beneficial HDL levels in db/db mice over six weeks.
- Improved metabolic parameters were linked to enhanced gene expression related to cholesterol and fat metabolism, suggesting that targeting glycosphingolipid synthesis could be a promising strategy to manage metabolic syndrome and obesity, potentially applicable to humans.
Article Abstract
Metabolic syndrome is defined by hyperlipidemia and cardiovascular complications. We have examined whether inhibition of glycosphingolipid synthesis can interfere with metabolic syndrome in a male mouse model of type II diabetes (db/db). The db/db and control mice (C57/BL6) (n = 6) fed chow for 30 weeks received vehicle (5% Tween-80 in PBS; 100 μl), or a biopolymer-encapsulated D-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (BPD) glycosphingolipid synthesis inhibitor daily via oral gavage for 6 weeks. Echocardiography revealed increased Ao-IMT in db/db mice compared to control. However, BPD decreased Ao-IMT, monohexosylceramide and dihexosylceramide, LDL, triglycerides, glucose, and raised HDL levels in db/db mice. This was due to increased gene expression of HMG-CoA reductase, LDLr, SREBP2, and bile acids: Cy7-a hydroxylase, LXR and FXR, lipoprotein lipase, VLDL receptor and PPAR. Treatment also increased the expression of superoxide dismutase-II to reduce the pro-oxidant status in these mice. We observed that decreased cholesterol levels correlated with decreased cholesterol sensing proteins e.g. NPC1 gene/protein expression and mammalian target of rapamycin (mTORC-1) and reduced body weight. Thus, glycosphingolipid synthesis inhibition is a novel approach to manage metabolic syndrome and reduce body weight in diabetic mice and with potential applications in humans.
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| http://dx.doi.org/10.1016/j.bbrc.2020.02.104 | DOI Listing |
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