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1. The specific PKC-α inhibitor chelerythrine blunts costunolide-induced eryptosis.

Author

Ghashghaeinia M, Koralkova P, Giustarini D, Mojzikova R, Fehrenbacher B, Dreischer P, Schaller M, Mrowietz U, Martínez-Ruiz A, Wieder T, Divoky V, Rossi R, Lang F, and Köberle M

Subjects

Apoptosis drug effects, Calcium metabolism, Eryptosis drug effects, Erythrocytes drug effects, Erythrocytes pathology, Glucosephosphate Dehydrogenase antagonists & inhibitors, Glutathione genetics, Humans, Oxidative Stress drug effects, Protein Kinase C-alpha antagonists & inhibitors, Reactive Oxygen Species, Sesquiterpenes pharmacology, Benzophenanthridines pharmacology, Enzyme Inhibitors pharmacology, Eryptosis genetics, Glucosephosphate Dehydrogenase genetics, Protein Kinase C-alpha genetics

Abstract

Costunolide, a natural sesquiterpene lactone, has multiple pharmacological activities such as neuroprotection or induction of apoptosis and eryptosis. However, the effects of costunolide on pro-survival factors and enzymes in human erythrocytes, e.g. glutathione and glucose-6-phosphate dehydrogenase (G6PDH) respectively, have not been studied yet. Our aim was to determine the mechanisms underlying costunolide-induced eryptosis and to reverse this process. Phosphatidylserine exposure was estimated from annexin-V-binding, cell volume from forward scatter in flow cytometry, and intracellular glutathione [GSH] i from high performance liquid chromatography. The oxidized status of intracellular glutathione and enzyme activities were measured by spectrophotometry. Treatment of erythrocytes with costunolide dose-dependently enhanced the percentage of annexin-V-binding cells, decreased the cell volume, depleted [GSH] i and completely inhibited G6PDH activity. The effects of costunolide on annexin-V-binding and cell volume were significantly reversed by pre-treatment of erythrocytes with the specific PKC-α inhibitor chelerythrine. The latter, however, had no effect on costunolide-induced GSH depletion. Costunolide induces eryptosis, depletes [GSH] i and inactivates G6PDH activity. Furthermore, our study reveals an inhibitory effect of chelerythrine on costunolide-induced eryptosis, indicating a relationship between costunolide and PKC-α. In addition, chelerythrine acts independently of the GSH depletion. Understanding the mechanisms of G6PDH inhibition accompanied by GSH depletion should be useful for development of anti-malarial therapeutic strategies or for synthetic lethality-based approaches to escalate oxidative stress in cancer cells for their sensitization to chemotherapy and radiotherapy.

Published

2020