Pyrimidine Azepine Targets the Plasmodium bc1 Complex and Displays Multistage Antimalarial Activity

Juliana Calit; Surendra K. Prajapati; Ernest D. Benavente; Jessica E. Araújo; Bingbing Deng; Kazutoyo Miura; Yasmin Annunciato; Igor M.R. Moura; Miho Usui; Jansen F. Medeiros; Carolina H. Andrade; Sabrina Silva-Mendonça; Anton Simeonov; Richard T. Eastman; Carole A. Long; Maisa da Silva Araujo; Kim C. Williamson; Anna Caroline C. Aguiar; Daniel Y. Bargieri

doi:10.1021/jacsau.4c00674

Pyrimidine Azepine Targets the Plasmodium bc₁ Complex and Displays Multistage Antimalarial Activity

Juliana Calit, Surendra K. Prajapati, Ernest D. Benavente, Jessica E. Araújo, Bingbing Deng, Kazutoyo Miura, Yasmin Annunciato, Igor M.R. Moura, Miho Usui, Jansen F. Medeiros, Carolina H. Andrade, Sabrina Silva-Mendonça, Anton Simeonov, Richard T. Eastman, Carole A. Long, Maisa da Silva Araujo, Kim C. Williamson, Anna Caroline C. Aguiar^*, Daniel Y. Bargieri^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Malaria control and elimination efforts would benefit from the identification and validation of new malaria chemotherapeutics. Recently, a transgenic Plasmodium berghei line was used to perform a series of high-throughput in vitro screens for new antimalarials acting against the parasite sexual stages. The screens identified pyrimidine azepine chemotypes with potent activity. Here, we validate the activity of PyAz90, the most potent pyrimidine azepine chemotype identified, against P. falciparum and P. vivax in the asexual and sexual stages. PyAz90 blocked parasite transmission to the mosquito vector at nanomolar concentrations and inhibited in vitro asexual parasite multiplication with a fast-action profile. Through the generation of P. falciparum PyAz90-resistant parasites and in vitro assays of mitochondrial activity, we identified cytochrome b as a molecular target of PyAz90. This work characterizes a promising chemotype that can be explored for the future development of new antimalarials targeting the Plasmodium cytochrome bc₁ complex.

Original language	English
Pages (from-to)	3942-3952
Number of pages	11
Journal	JACS Au
Volume	4
Issue number	10
DOIs	https://doi.org/10.1021/jacsau.4c00674
State	Published - 28 Oct 2024
Externally published	Yes

Keywords

bc complex
malaria
Plasmodium
pyrimidine azepine
resistance

Access to Document

10.1021/jacsau.4c00674

Cite this

Calit, J., Prajapati, S. K., Benavente, E. D., Araújo, J. E., Deng, B., Miura, K., Annunciato, Y., Moura, I. M. R., Usui, M., Medeiros, J. F., Andrade, C. H., Silva-Mendonça, S., Simeonov, A., Eastman, R. T., Long, C. A., da Silva Araujo, M., Williamson, K. C., Aguiar, A. C. C., & Bargieri, D. Y. (2024). Pyrimidine Azepine Targets the Plasmodium bc₁ Complex and Displays Multistage Antimalarial Activity. JACS Au, 4(10), 3942-3952. https://doi.org/10.1021/jacsau.4c00674

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title = "Pyrimidine Azepine Targets the Plasmodium bc1 Complex and Displays Multistage Antimalarial Activity",

abstract = "Malaria control and elimination efforts would benefit from the identification and validation of new malaria chemotherapeutics. Recently, a transgenic Plasmodium berghei line was used to perform a series of high-throughput in vitro screens for new antimalarials acting against the parasite sexual stages. The screens identified pyrimidine azepine chemotypes with potent activity. Here, we validate the activity of PyAz90, the most potent pyrimidine azepine chemotype identified, against P. falciparum and P. vivax in the asexual and sexual stages. PyAz90 blocked parasite transmission to the mosquito vector at nanomolar concentrations and inhibited in vitro asexual parasite multiplication with a fast-action profile. Through the generation of P. falciparum PyAz90-resistant parasites and in vitro assays of mitochondrial activity, we identified cytochrome b as a molecular target of PyAz90. This work characterizes a promising chemotype that can be explored for the future development of new antimalarials targeting the Plasmodium cytochrome bc1 complex.",

keywords = "bc complex, malaria, Plasmodium, pyrimidine azepine, resistance",

author = "Juliana Calit and Prajapati, {Surendra K.} and Benavente, {Ernest D.} and Ara{\'u}jo, {Jessica E.} and Bingbing Deng and Kazutoyo Miura and Yasmin Annunciato and Moura, {Igor M.R.} and Miho Usui and Medeiros, {Jansen F.} and Andrade, {Carolina H.} and Sabrina Silva-Mendon{\c c}a and Anton Simeonov and Eastman, {Richard T.} and Long, {Carole A.} and {da Silva Araujo}, Maisa and Williamson, {Kim C.} and Aguiar, {Anna Caroline C.} and Bargieri, {Daniel Y.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors. Published by American Chemical Society.",

year = "2024",

month = oct,

day = "28",

doi = "10.1021/jacsau.4c00674",

language = "English",

volume = "4",

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Calit, J, Prajapati, SK, Benavente, ED, Araújo, JE, Deng, B, Miura, K, Annunciato, Y, Moura, IMR, Usui, M, Medeiros, JF, Andrade, CH, Silva-Mendonça, S, Simeonov, A, Eastman, RT, Long, CA, da Silva Araujo, M, Williamson, KC, Aguiar, ACC & Bargieri, DY 2024, 'Pyrimidine Azepine Targets the Plasmodium bc₁ Complex and Displays Multistage Antimalarial Activity', JACS Au, vol. 4, no. 10, pp. 3942-3952. https://doi.org/10.1021/jacsau.4c00674

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T1 - Pyrimidine Azepine Targets the Plasmodium bc1 Complex and Displays Multistage Antimalarial Activity

AU - Calit, Juliana

AU - Prajapati, Surendra K.

AU - Benavente, Ernest D.

AU - Araújo, Jessica E.

AU - Deng, Bingbing

AU - Miura, Kazutoyo

AU - Annunciato, Yasmin

AU - Moura, Igor M.R.

AU - Usui, Miho

AU - Medeiros, Jansen F.

AU - Andrade, Carolina H.

AU - Silva-Mendonça, Sabrina

AU - Simeonov, Anton

AU - Eastman, Richard T.

AU - Long, Carole A.

AU - da Silva Araujo, Maisa

AU - Williamson, Kim C.

AU - Aguiar, Anna Caroline C.

AU - Bargieri, Daniel Y.

PY - 2024/10/28

Y1 - 2024/10/28

N2 - Malaria control and elimination efforts would benefit from the identification and validation of new malaria chemotherapeutics. Recently, a transgenic Plasmodium berghei line was used to perform a series of high-throughput in vitro screens for new antimalarials acting against the parasite sexual stages. The screens identified pyrimidine azepine chemotypes with potent activity. Here, we validate the activity of PyAz90, the most potent pyrimidine azepine chemotype identified, against P. falciparum and P. vivax in the asexual and sexual stages. PyAz90 blocked parasite transmission to the mosquito vector at nanomolar concentrations and inhibited in vitro asexual parasite multiplication with a fast-action profile. Through the generation of P. falciparum PyAz90-resistant parasites and in vitro assays of mitochondrial activity, we identified cytochrome b as a molecular target of PyAz90. This work characterizes a promising chemotype that can be explored for the future development of new antimalarials targeting the Plasmodium cytochrome bc1 complex.

AB - Malaria control and elimination efforts would benefit from the identification and validation of new malaria chemotherapeutics. Recently, a transgenic Plasmodium berghei line was used to perform a series of high-throughput in vitro screens for new antimalarials acting against the parasite sexual stages. The screens identified pyrimidine azepine chemotypes with potent activity. Here, we validate the activity of PyAz90, the most potent pyrimidine azepine chemotype identified, against P. falciparum and P. vivax in the asexual and sexual stages. PyAz90 blocked parasite transmission to the mosquito vector at nanomolar concentrations and inhibited in vitro asexual parasite multiplication with a fast-action profile. Through the generation of P. falciparum PyAz90-resistant parasites and in vitro assays of mitochondrial activity, we identified cytochrome b as a molecular target of PyAz90. This work characterizes a promising chemotype that can be explored for the future development of new antimalarials targeting the Plasmodium cytochrome bc1 complex.

KW - bc complex

KW - malaria

KW - Plasmodium

KW - pyrimidine azepine

KW - resistance

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DO - 10.1021/jacsau.4c00674

M3 - Article

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