Publication Date:
2015-12-03
Description:
Natural killer cell large granular lymphocytic (NK-LGL) leukemia is a disorder characterized by the expansion of clonal CD3-, CD56+ cells in the peripheral blood and marrow. NK-LGL leukemia could manifest in both aggressive and chronic forms. Currently, no curative treatment is available for patients with NK-LGL leukemia. The pathogenetic mechanisms of NK-LGL leukemia are also poorly understood, which highlights the need to increase our understanding of the disorder in order to develop novel therapeutic targets. Sphingolipid dysregulation has been shown to promote tumor growth and survival in several types of cancers, including LGL leukemia. In cancer cells, the accumulation of pro-survival sphingosine-1-phosphate (S1P) throws the S1P/ceramide rheostat off balance, which leads to tumor growth and activated signaling pathways. Our laboratory previously discovered that the reversal of sphingolipid dysregulation in NK-LGL leukemia, either through targeting sphingolipid enzymes or by the addition of antiproliferative ceramide, leads to programmed cell death in leukemic cells. Acid ceramidase, a cysteine hydrolase, catalyzes the breakdown of ceramide into sphingosine and fatty acid. We found that cells from chronic NK-LGL patients have lower pro-death ceramide levels and higher S1P levels when compared to normal NK donors. Furthermore, the mRNA expression and activity of acid ceramidase (AC) were elevated in leukemic NK cells compared to normal NK cells. We further demonstrate the importance of AC in NK-LGL leukemic cells through AC knockdown in human (NKL) and rat (RNK-16) NK-LGL leukemic cell lines. AC knockdown decreased cell viability and increased ceramide levels, significantly ceramide species C16 and C24 (p
Print ISSN:
0006-4971
Electronic ISSN:
1528-0020
Topics:
Biology
,
Medicine
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