AI Article Synopsis
- The study explores the effectiveness of edelfosine, a phospholipid ether, as a treatment for mantle cell lymphoma (MCL) and chronic lymphocytic leukemia (CLL), both types of B-cell cancers with limited treatment options.
- Edelfosine demonstrated strong anti-cancer activity in both lab cell lines and mouse models, effectively killing cancer cells without harming normal lymphocytes, indicating a selective anti-tumor action.
- The mechanism involves the coclustering of the Fas/CD95 death receptor and lipid rafts in cancer cells, leading to increased drug uptake and apoptosis, suggesting a promising new approach for therapy in MCL and CLL.
Article Abstract
Purpose: Mantle cell lymphoma (MCL) and chronic lymphocytic leukemia (CLL) remain B-cell malignancies with limited therapeutic options. The present study investigates the in vitro and in vivo effect of the phospholipid ether edelfosine (1-O-octadecyl-2-O-methyl-rac-glycero-3-phosphocholine) in MCL and CLL.
Experimental Design: Several cell lines, patient-derived tumor cells, and xenografts in severe combined immunodeficient mice were used to examine the anti-MCL and anti-CLL activity of edelfosine. Furthermore, we analyzed the mechanism of action and drug biodistribution of edelfosine in MCL and CLL tumor-bearing severe combined immunodeficient mice.
Results: Here, we have found that the phospholipid ether edelfosine was the most potent alkyl-lysophospholipid analogue in killing MCL and CLL cells, including patient-derived primary cells, while sparing normal resting lymphocytes. Alkyl-lysophospholipid analogues ranked edelfosine > perifosine >> erucylphosphocholine > or = miltefosine in their capacity to elicit apoptosis in MCL and CLL cells. Edelfosine induced coclustering of Fas/CD95 death receptor and rafts in MCL and CLL cells. Edelfosine was taken up by malignant cells, whereas normal resting lymphocytes hardly incorporated the drug. Raft disruption by cholesterol depletion inhibited drug uptake, Fas/CD95 clustering, and edelfosine-induced apoptosis. Edelfosine oral administration showed a potent in vivo anticancer activity in MCL and CLL xenograft mouse models, and the drug accumulated dramatically and preferentially in the tumor.
Conclusions: Our data indicate that edelfosine accumulates and kills MCL and CLL cells in a rather selective way, and set coclustering of Fas/CD95 and lipid rafts as a new framework in MCL and CLL therapy. Our data support a selective antitumor action of edelfosine.
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