Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes

Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes

Although artemisinin-based combination therapies (ACTs) treat <i>Plasmodium falciparum</i> malaria effectively throughout most of the world, the recent expansion of ACT-resistant strains in some countries of the Greater Mekong Subregion (GMS) further increased the interest in improving t...

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Main Authors: Ioannis Tsamesidis, Karine Reybier, Giuseppe Marchetti, Maria Carmina Pau, Patrizia Virdis, Claudio Fozza, Francoise Nepveu, Philip S. Low, Francesco Michelangelo Turrini, Antonella Pantaleo
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Antioxidants
Subjects:
<i>Plasmodium falciparum</i>
syk kinase inhibitors
artemisinin derivatives
hemichromes
oxidative stress
reactive oxygen species
Online Access:https://www.mdpi.com/2076-3921/9/8/753
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spelling doaj-1f31b3dcb23645d6976328ac69e0ddf42020-11-25T03:03:33ZengMDPI AGAntioxidants2076-39212020-08-01975375310.3390/antiox9080753Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized ErythrocytesIoannis Tsamesidis0Karine Reybier1Giuseppe Marchetti2Maria Carmina Pau3Patrizia Virdis4Claudio Fozza5Francoise Nepveu6Philip S. Low7Francesco Michelangelo Turrini8Antonella Pantaleo9Department of Biomedical Sciences, University of Sassari, 07100 Sassari, ItalyUMR 152 Pharma-Dev, Université de Toulouse, IRD, UPS, 31000 Toulouse, FranceDepartment of Biomedical Sciences, University of Sassari, 07100 Sassari, ItalyDepartment of Biomedical Sciences, University of Sassari, 07100 Sassari, ItalyDepartment of Clinical, Surgical and Experimental Sciences, University of Sassari, 07100 Sassari, ItalyDepartment of Clinical, Surgical and Experimental Sciences, University of Sassari, 07100 Sassari, ItalyUMR 152 Pharma-Dev, Université de Toulouse, IRD, UPS, 31000 Toulouse, FrancePurdue Institute for Drug Discovery and Department of Chemistry, Purdue University, West Lafayette, IN 47907, USADepartment of Oncology, University of Turin, 10126 Turin, ItalyDepartment of Biomedical Sciences, University of Sassari, 07100 Sassari, ItalyAlthough artemisinin-based combination therapies (ACTs) treat <i>Plasmodium falciparum</i> malaria effectively throughout most of the world, the recent expansion of ACT-resistant strains in some countries of the Greater Mekong Subregion (GMS) further increased the interest in improving the effectiveness of treatment and counteracting resistance. Recognizing that (1) partially denatured hemoglobin containing reactive iron (hemichromes) is generated in parasitized red blood cells (pRBC) by oxidative stress, (2) redox-active hemichromes have the potential to enhance oxidative stress triggered by the parasite and the activation of artemisinin to its pharmaceutically active form, and (3) Syk kinase inhibitors block the release of membrane microparticles containing hemichromes, we hypothesized that increasing hemichrome content in parasitized erythrocytes through the inhibition of Syk kinase might trigger a virtuous cycle involving the activation of artemisinin, the enhancement of oxidative stress elicited by activated artemisinin, and a further increase in hemichrome production. We demonstrate here that artemisinin indeed augments oxidative stress within parasitized RBCs and that Syk kinase inhibitors further increase iron-dependent oxidative stress, synergizing with artemisinin in killing the parasite. We then demonstrate that Syk kinase inhibitors achieve this oxidative enhancement by preventing parasite-induced release of erythrocyte-derived microparticles containing redox-active hemichromes. We also observe that Syk kinase inhibitors do not promote oxidative toxicity to healthy RBCs as they do not produce appreciable amounts of hemichromes. Since some Syk kinase inhibitors can be taken daily with minimal side effects, we propose that Syk kinase inhibitors could evidently contribute to the potentiation of ACTs.https://www.mdpi.com/2076-3921/9/8/753<i>Plasmodium falciparum</i>syk kinase inhibitorsartemisinin derivativeshemichromesoxidative stressreactive oxygen species
collection DOAJ
language English
format Article
sources DOAJ
author Ioannis Tsamesidis
Karine Reybier
Giuseppe Marchetti
Maria Carmina Pau
Patrizia Virdis
Claudio Fozza
Francoise Nepveu
Philip S. Low
Francesco Michelangelo Turrini
Antonella Pantaleo
spellingShingle Ioannis Tsamesidis
Karine Reybier
Giuseppe Marchetti
Maria Carmina Pau
Patrizia Virdis
Claudio Fozza
Francoise Nepveu
Philip S. Low
Francesco Michelangelo Turrini
Antonella Pantaleo
Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
Antioxidants
<i>Plasmodium falciparum</i>
syk kinase inhibitors
artemisinin derivatives
hemichromes
oxidative stress
reactive oxygen species
author_facet Ioannis Tsamesidis
Karine Reybier
Giuseppe Marchetti
Maria Carmina Pau
Patrizia Virdis
Claudio Fozza
Francoise Nepveu
Philip S. Low
Francesco Michelangelo Turrini
Antonella Pantaleo
author_sort Ioannis Tsamesidis
title Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
title_short Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
title_full Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
title_fullStr Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
title_full_unstemmed Syk Kinase Inhibitors Synergize with Artemisinins by Enhancing Oxidative Stress in <i>Plasmodium Falciparum</i>-Parasitized Erythrocytes
title_sort syk kinase inhibitors synergize with artemisinins by enhancing oxidative stress in <i>plasmodium falciparum</i>-parasitized erythrocytes
publisher MDPI AG
series Antioxidants
issn 2076-3921
publishDate 2020-08-01
description Although artemisinin-based combination therapies (ACTs) treat <i>Plasmodium falciparum</i> malaria effectively throughout most of the world, the recent expansion of ACT-resistant strains in some countries of the Greater Mekong Subregion (GMS) further increased the interest in improving the effectiveness of treatment and counteracting resistance. Recognizing that (1) partially denatured hemoglobin containing reactive iron (hemichromes) is generated in parasitized red blood cells (pRBC) by oxidative stress, (2) redox-active hemichromes have the potential to enhance oxidative stress triggered by the parasite and the activation of artemisinin to its pharmaceutically active form, and (3) Syk kinase inhibitors block the release of membrane microparticles containing hemichromes, we hypothesized that increasing hemichrome content in parasitized erythrocytes through the inhibition of Syk kinase might trigger a virtuous cycle involving the activation of artemisinin, the enhancement of oxidative stress elicited by activated artemisinin, and a further increase in hemichrome production. We demonstrate here that artemisinin indeed augments oxidative stress within parasitized RBCs and that Syk kinase inhibitors further increase iron-dependent oxidative stress, synergizing with artemisinin in killing the parasite. We then demonstrate that Syk kinase inhibitors achieve this oxidative enhancement by preventing parasite-induced release of erythrocyte-derived microparticles containing redox-active hemichromes. We also observe that Syk kinase inhibitors do not promote oxidative toxicity to healthy RBCs as they do not produce appreciable amounts of hemichromes. Since some Syk kinase inhibitors can be taken daily with minimal side effects, we propose that Syk kinase inhibitors could evidently contribute to the potentiation of ACTs.
topic <i>Plasmodium falciparum</i>
syk kinase inhibitors
artemisinin derivatives
hemichromes
oxidative stress
reactive oxygen species
url https://www.mdpi.com/2076-3921/9/8/753
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