Sphingomyelin synthase inhibition in sarcomas results in ceramide accumulation and apoptosis

Abstract

Sphingolipid metabolism is critical to cellular homeostasis especially as cells undergo mitosis. It is, therefore, unsurprising that the sphingolipid pathway is upregulated in a number of a cancers. Sphingoid bases such as sphingosine and ceramide are rapidly synthesized to provide the building blocks of other sphingolipids. Inhibition of downstream enzymes that convert sphingosine and ceramide into sphingolipids can lead to an increase of ceramide, which results in cellular toxicity and initiation of apoptosis. Using the marine natural product Jaspine B and chemically synthesized analogues, we investigated the potency of inhibiting sphingomyelin synthase in sarcoma cell lines. Sphingomyelin synthase is a downstream enzyme that converts ceramide into sphingomyelin by adding the polar head group phosphorylcholine to ceramide. Jaspine B and its analogues exhibited submicromolar potency against several human sarcoma cell lines. It was determined that the inhibition of sphingomyelin synthase resulted in an increase in ceramide and sphingosine levels and that sphingomyelinase enzymatic activity increased. While the mitochondria mass remained the same, the membrane potential of the mitochondria was significantly affected by the presence of the inhibitors. In conclusion, inhibitors of sphingolipid metabolism are viable therapeutic options with high untapped potential.Support or Funding InformationIdaho State University Start UpThis abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.