# Evaluation of the binding interactions between Plasmodium falciparum Kelch-13 mutant recombinant proteins with artemisinin

**Authors:** Noorazian Md. Yusuf, Aisya Nazura Azman, Amirul Adli Abdul Aziz, Fazia Adyani Ahmad Fuad, Ruhayatun Naimah Nasarudin, Shamilah Hisam

PMC · DOI: 10.1371/journal.pone.0306975 · PLOS ONE · 2024-08-15

## TL;DR

This study examines how mutations in the PfK13 protein of malaria parasites affect their interaction with artemisinin, a key malaria drug, suggesting these mutations could contribute to drug resistance.

## Contribution

The study experimentally evaluates binding interactions of PfK13 mutant proteins with artemisinin, providing insights into mechanisms of drug resistance.

## Key findings

- Mutant PfK13 proteins showed increased fluorescence intensity, indicating looser binding with artemisinin.
- PfK13-V494I and PfK13-N537I mutants exhibited higher surface protein exposure compared to the wild type.
- These findings suggest PfK13 mutations may reduce artemisinin effectiveness, contributing to drug resistance.

## Abstract

Malaria, an ancient mosquito-borne illness caused by Plasmodium parasites, is mostly treated with Artemisinin Combination Therapy (ACT). However, Single Nucleotide Polymorphisms (SNPs) mutations in the P. falciparum Kelch 13 (PfK13) protein have been associated with artemisinin resistance (ART-R). Therefore, this study aims to generate PfK13 recombinant proteins incorporating of two specific SNPs mutations, PfK13-V494I and PfK13-N537I, and subsequently analyze their binding interactions with artemisinin (ART). The recombinant proteins of PfK13 mutations and the Wild Type (WT) variant were expressed utilizing a standard protein expression protocol with modifications and subsequently purified via IMAC and confirmed with SDS-PAGE analysis and Orbitrap tandem mass spectrometry. The binding interactions between PfK13-V494I and PfK13-N537I propeller domain proteins ART were assessed through Isothermal Titration Calorimetry (ITC) and subsequently validated using fluorescence spectrometry. The protein concentrations obtained were 0.3 mg/ml for PfK13-WT, 0.18 mg/ml for PfK13-V494I, and 0.28 mg/ml for PfK13-N537I. Results obtained for binding interaction revealed an increased fluorescence intensity in the mutants PfK13-N537I (83 a.u.) and PfK13-V494I (143 a.u.) compared to PfK13-WT (33 a.u.), indicating increased exposure of surface proteins because of the looser binding between PfK13 protein mutants with ART. This shows that the PfK13 mutations may induce alterations in the binding interaction with ART, potentially leading to reduced effectiveness of ART and ultimately contributing to ART-R. However, this study only elucidated one facet of the contributing factors that could serve as potential indicators for ART-R and further investigation should be pursued in the future to comprehensively explore this complex mechanism of ART-R.

## Linked entities

- **Genes:** PFK1_3 (6-phosphofructokinase, alpha subunit) [NCBI Gene 19249209]
- **Proteins:** PFK1_3 (6-phosphofructokinase, alpha subunit)
- **Chemicals:** artemisinin (PubChem CID 68827)
- **Diseases:** malaria (MONDO:0005136)
- **Species:** Plasmodium falciparum (taxon 5833)

## Full-text entities

- **Diseases:** Malaria (MESH:D008288), mosquito-borne illness (MESH:D000079426), ART-R (MESH:D060467)
- **Chemicals:** ART (MESH:C031327), SDS (MESH:D012967)
- **Species:** Plasmodium falciparum (malaria parasite P. falciparum, species) [taxon 5833]
- **Mutations:** N537I, V494I

## Full text

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## Figures

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## References

56 references — full list in the complete paper: https://tomesphere.com/paper/PMC11326563/full.md

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Source: https://tomesphere.com/paper/PMC11326563