Triggering of Eryptosis, the Suicidal Erythrocyte Death by Mammalian Target of Rapamycin (mTOR) inhibitor Temsirolimus

Author:

Bhuyan Abdulla Al Mamun,Cao Hang,Lang Florian

Abstract

Background/Aims: The mammalian target of rapamycin (mTOR) inhibitor temsirolimus is utilized for the treatment of malignancy. Temsirolimus is at least in part effective by triggering suicidal tumor cell death. The most common side effect of temsirolimus treatment is anemia. At least in theory, the anemia following temsirolimus treatment could result from stimulation of eryptosis, the suicidal erythrocyte death. Hallmarks of eryptosis include cell shrinkage and cell membrane scrambling with phosphatidylserine translocation to the erythrocyte surface. Signaling involved in the orchestration of eryptosis include increase of cytosolic Ca2+ activity ([Ca2+]i), oxidative stress, ceramide, as well as activation of staurosporine and chelerythrine sensitive protein kinase C, SB203580 sensitive p38 kinase, D4476 sensitive casein kinase 1, and zVAD sensitive caspases. The purpose of the present study was to test whether temsirolimus influences eryptosis and, if so, to shed light on the signaling involved. Methods: Flow cytometry was employed to estimate cell volume from forward scatter, phosphatidylserine exposure at the cell surface from annexin-V-binding, [Ca2+]i from Fluo3-fluorescence, reactive oxygen species (ROS) abundance from DCFDA dependent fluorescence, and ceramide abundance utilizing specific antibodies. Hemolysis was determined from hemoglobin concentration in the supernatant. Results: A 48 hours exposure of human erythrocytes to temsirolimus (5 – 20 µg/ml) significantly decreased forward scatter and significantly increased the percentage of annexin-V-binding cells. Temsirolimus significantly increased Fluo3-fluorescence, DCFDA fluorescence and ceramide abundance at the erythrocyte surface. The effect of temsirolimus on annexin-V-binding was significantly blunted but not abolished by removal of extracellular Ca2+ and by addition of staurosporine (1 µM) or chelerythrine (10 µM) but not significantly modified by addition of SB203580 (2 µM), D4476 (10 µM), or zVAD (10 µM). Chelerythrine (10 µM) further significantly blunted the effect of temsirolimus on DCFDA fluorescence but not ceramide formation. Removal of extracellular Ca2+ had no effect on temsirolimus induced ROS formation or ceramide abundance. Conclusions: Temsirolimus triggers eryptosis with cell shrinkage and phospholipid scrambling of the erythrocyte cell membrane, an effect at least in part due to Ca2+ entry, oxidative stress, ceramide and activation of staurosporine/Chelerythrine sensitive kinase(s).

Publisher

S. Karger AG

Subject

Physiology

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