A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin

Diverse compounds target the Plasmodium falciparum Na(+) pump PfATP4, with cipargamin and (+)-SJ733 the most clinically-advanced. In a recent clinical trial for cipargamin, recrudescent parasites emerged, with most having a G358S mutation in PfATP4. Here, we show that PfATP4(G358S) parasites can wit...

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Autores principales: Qiu, Deyun, Pei, Jinxin V., Rosling, James E. O., Thathy, Vandana, Li, Dongdi, Xue, Yi, Tanner, John D., Penington, Jocelyn Sietsma, Aw, Yi Tong Vincent, Aw, Jessica Yi Han, Xu, Guoyue, Tripathi, Abhai K., Gnadig, Nina F., Yeo, Tomas, Fairhurst, Kate J., Stokes, Barbara H., Murithi, James M., Kümpornsin, Krittikorn, Hasemer, Heath, Dennis, Adelaide S. M., Ridgway, Melanie C., Schmitt, Esther K., Straimer, Judith, Papenfuss, Anthony T., Lee, Marcus C. S., Corry, Ben, Sinnis, Photini, Fidock, David A., van Dooren, Giel G., Kirk, Kiaran, Lehane, Adele M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9525273/
https://www.ncbi.nlm.nih.gov/pubmed/36180431
http://dx.doi.org/10.1038/s41467-022-33403-9
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author Qiu, Deyun
Pei, Jinxin V.
Rosling, James E. O.
Thathy, Vandana
Li, Dongdi
Xue, Yi
Tanner, John D.
Penington, Jocelyn Sietsma
Aw, Yi Tong Vincent
Aw, Jessica Yi Han
Xu, Guoyue
Tripathi, Abhai K.
Gnadig, Nina F.
Yeo, Tomas
Fairhurst, Kate J.
Stokes, Barbara H.
Murithi, James M.
Kümpornsin, Krittikorn
Hasemer, Heath
Dennis, Adelaide S. M.
Ridgway, Melanie C.
Schmitt, Esther K.
Straimer, Judith
Papenfuss, Anthony T.
Lee, Marcus C. S.
Corry, Ben
Sinnis, Photini
Fidock, David A.
van Dooren, Giel G.
Kirk, Kiaran
Lehane, Adele M.
author_facet Qiu, Deyun
Pei, Jinxin V.
Rosling, James E. O.
Thathy, Vandana
Li, Dongdi
Xue, Yi
Tanner, John D.
Penington, Jocelyn Sietsma
Aw, Yi Tong Vincent
Aw, Jessica Yi Han
Xu, Guoyue
Tripathi, Abhai K.
Gnadig, Nina F.
Yeo, Tomas
Fairhurst, Kate J.
Stokes, Barbara H.
Murithi, James M.
Kümpornsin, Krittikorn
Hasemer, Heath
Dennis, Adelaide S. M.
Ridgway, Melanie C.
Schmitt, Esther K.
Straimer, Judith
Papenfuss, Anthony T.
Lee, Marcus C. S.
Corry, Ben
Sinnis, Photini
Fidock, David A.
van Dooren, Giel G.
Kirk, Kiaran
Lehane, Adele M.
author_sort Qiu, Deyun
collection PubMed
description Diverse compounds target the Plasmodium falciparum Na(+) pump PfATP4, with cipargamin and (+)-SJ733 the most clinically-advanced. In a recent clinical trial for cipargamin, recrudescent parasites emerged, with most having a G358S mutation in PfATP4. Here, we show that PfATP4(G358S) parasites can withstand micromolar concentrations of cipargamin and (+)-SJ733, while remaining susceptible to antimalarials that do not target PfATP4. The G358S mutation in PfATP4, and the equivalent mutation in Toxoplasma gondii ATP4, decrease the sensitivity of ATP4 to inhibition by cipargamin and (+)-SJ733, thereby protecting parasites from disruption of Na(+) regulation. The G358S mutation reduces the affinity of PfATP4 for Na(+) and is associated with an increase in the parasite’s resting cytosolic [Na(+)]. However, no defect in parasite growth or transmissibility is observed. Our findings suggest that PfATP4 inhibitors in clinical development should be tested against PfATP4(G358S) parasites, and that their combination with unrelated antimalarials may mitigate against resistance development.
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spelling pubmed-95252732022-10-02 A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin Qiu, Deyun Pei, Jinxin V. Rosling, James E. O. Thathy, Vandana Li, Dongdi Xue, Yi Tanner, John D. Penington, Jocelyn Sietsma Aw, Yi Tong Vincent Aw, Jessica Yi Han Xu, Guoyue Tripathi, Abhai K. Gnadig, Nina F. Yeo, Tomas Fairhurst, Kate J. Stokes, Barbara H. Murithi, James M. Kümpornsin, Krittikorn Hasemer, Heath Dennis, Adelaide S. M. Ridgway, Melanie C. Schmitt, Esther K. Straimer, Judith Papenfuss, Anthony T. Lee, Marcus C. S. Corry, Ben Sinnis, Photini Fidock, David A. van Dooren, Giel G. Kirk, Kiaran Lehane, Adele M. Nat Commun Article Diverse compounds target the Plasmodium falciparum Na(+) pump PfATP4, with cipargamin and (+)-SJ733 the most clinically-advanced. In a recent clinical trial for cipargamin, recrudescent parasites emerged, with most having a G358S mutation in PfATP4. Here, we show that PfATP4(G358S) parasites can withstand micromolar concentrations of cipargamin and (+)-SJ733, while remaining susceptible to antimalarials that do not target PfATP4. The G358S mutation in PfATP4, and the equivalent mutation in Toxoplasma gondii ATP4, decrease the sensitivity of ATP4 to inhibition by cipargamin and (+)-SJ733, thereby protecting parasites from disruption of Na(+) regulation. The G358S mutation reduces the affinity of PfATP4 for Na(+) and is associated with an increase in the parasite’s resting cytosolic [Na(+)]. However, no defect in parasite growth or transmissibility is observed. Our findings suggest that PfATP4 inhibitors in clinical development should be tested against PfATP4(G358S) parasites, and that their combination with unrelated antimalarials may mitigate against resistance development. Nature Publishing Group UK 2022-09-30 /pmc/articles/PMC9525273/ /pubmed/36180431 http://dx.doi.org/10.1038/s41467-022-33403-9 Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Qiu, Deyun
Pei, Jinxin V.
Rosling, James E. O.
Thathy, Vandana
Li, Dongdi
Xue, Yi
Tanner, John D.
Penington, Jocelyn Sietsma
Aw, Yi Tong Vincent
Aw, Jessica Yi Han
Xu, Guoyue
Tripathi, Abhai K.
Gnadig, Nina F.
Yeo, Tomas
Fairhurst, Kate J.
Stokes, Barbara H.
Murithi, James M.
Kümpornsin, Krittikorn
Hasemer, Heath
Dennis, Adelaide S. M.
Ridgway, Melanie C.
Schmitt, Esther K.
Straimer, Judith
Papenfuss, Anthony T.
Lee, Marcus C. S.
Corry, Ben
Sinnis, Photini
Fidock, David A.
van Dooren, Giel G.
Kirk, Kiaran
Lehane, Adele M.
A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title_full A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title_fullStr A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title_full_unstemmed A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title_short A G358S mutation in the Plasmodium falciparum Na(+) pump PfATP4 confers clinically-relevant resistance to cipargamin
title_sort g358s mutation in the plasmodium falciparum na(+) pump pfatp4 confers clinically-relevant resistance to cipargamin
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9525273/
https://www.ncbi.nlm.nih.gov/pubmed/36180431
http://dx.doi.org/10.1038/s41467-022-33403-9
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