# Chemoproteomics validates selective targeting of Plasmodium M1 alanyl aminopeptidase as an antimalarial strategy

**Authors:** Darren Creek, Carlo Giannangelo, Matthew Challis, Ghizal Siddiqui, Rebecca Edgar, Tess Malcolm, Chaille Webb, Nyssa Drinkwater, Natalie Vinh, Christopher MacRaild, Natalie Counihan, Sandra Duffy, Sergio Wittlin, Shane Devine, Vicky Avery, Tania de Koning-Ward, Peter Scammells, Sheena McGowan

PMC · DOI: 10.21203/rs.3.rs-3251230/v3 · Research Square · 2024-04-26

## TL;DR

Scientists validated a new antimalarial drug target by showing that a selective inhibitor effectively targets a specific malaria parasite enzyme without harming human cells.

## Contribution

The study provides multi-omic validation of Plasmodium M1 alanyl aminopeptidase as a selective antimalarial drug target using the inhibitor MIPS2673.

## Key findings

- MIPS2673 selectively inhibits Plasmodium M1 aminopeptidases with no host cytotoxicity.
- Chemoproteomic methods confirmed PfA-M1 as the sole target of MIPS2673 in parasites.
- Metabolomics showed MIPS2673 inhibits PfA-M1's role in hemoglobin digestion.

## Abstract

New antimalarial drug candidates that act via novel mechanisms are urgently needed to combat malaria drug resistance. Here, we describe the multi-omic chemical validation of
Plasmodium
M1 alanyl metalloaminopeptidase as an attractive drug target using the selective inhibitor, MIPS2673. MIPS2673 demonstrated potent inhibition of recombinant
Plasmodium falciparum
(
Pf
A-M1) and
Plasmodium vivax
(
Pv
A-M1) M1 metalloaminopeptidases, with selectivity over other
Plasmodium
and human aminopeptidases, and displayed excellent
in vitro
antimalarial activity with no significant host cytotoxicity. Orthogonal label-free chemoproteomic methods based on thermal stability and limited proteolysis of whole parasite lysates revealed that MIPS2673 solely targets
Pf
A-M1 in parasites, with limited proteolysis also enabling estimation of the binding site on
Pf
A-M1 to within ~5 Å of that determined by X-ray crystallography. Finally, functional investigation by untargeted metabolomics demonstrated that MIPS2673 inhibits the key role of
Pf
A-M1 in haemoglobin digestion. Combined, our unbiased multi-omic target deconvolution methods confirmed the on-target activity of MIPS2673, and validated selective inhibition of M1 alanyl metalloaminopeptidase as a promising antimalarial strategy.

## Linked entities

- **Diseases:** malaria (MONDO:0005136)
- **Species:** Plasmodium falciparum (taxon 5833), Plasmodium vivax (taxon 5855)

## Full-text entities

- **Diseases:** malaria (MESH:D008288), cytotoxicity (MESH:D064420)
- **Chemicals:** MIPS2673 (-)
- **Species:** Homo sapiens (human, species) [taxon 9606], Plasmodium falciparum (malaria parasite P. falciparum, species) [taxon 5833], Plasmodium vivax (malaria parasite P. vivax, species) [taxon 5855]

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Source: https://tomesphere.com/paper/PMC11092810