6eaa Citations

Hydroxamic Acid Inhibitors Provide Cross-Species Inhibition of Plasmodium M1 and M17 Aminopeptidases.

Vinh NB, Drinkwater N, Malcolm TR, Kassiou M, Lucantoni L, Grin PM, Butler GS, Duffy S, Overall CM, Avery VM, Scammells PJ, McGowan S
J Med Chem 62 622-640 (2019)
Related entries: 6ea1, 6ea2, 6eab, 6ee2, 6ee3, 6ee4, 6ee6, 6eed, 6eee

Cited: 10 times
EuropePMC logo PMID: 30537832

Abstract

There is an urgent clinical need for antimalarial compounds that target malaria caused by both Plasmodium falciparum and Plasmodium vivax. The M1 and M17 metalloexopeptidases play key roles in Plasmodium hemoglobin digestion and are validated drug targets. We used a multitarget strategy to rationally design inhibitors capable of potent inhibition of the M1 and M17 aminopeptidases from both P. falciparum ( Pf-M1 and Pf-M17) and P. vivax ( Pv-M1 and Pv-M17). The novel chemical series contains a hydroxamic acid zinc binding group to coordinate catalytic zinc ion/s, and a variety of hydrophobic groups to probe the S1' pockets of the four target enzymes. Structural characterization by cocrystallization showed that selected compounds utilize new and unexpected binding modes; most notably, compounds substituted with bulky hydrophobic substituents displace the Pf-M17 catalytic zinc ion. Excitingly, key compounds of the series potently inhibit all four molecular targets and show antimalarial activity comparable to current clinical candidates.

Reviews - 6eaa mentioned but not cited (1)

  1. Marine Invertebrates: A Promissory Still Unexplored Source of Inhibitors of Biomedically Relevant Metallo Aminopeptidases Belonging to the M1 and M17 Families. Pascual Alonso I, Almeida García F, Valdés Tresanco ME, Arrebola Sánchez Y, Ojeda Del Sol D, Sánchez Ramírez B, Florent I, Schmitt M, Avilés FX. Mar Drugs 21 279 (2023)


Reviews citing this publication (2)

  1. Structural Insights Into Key Plasmodium Proteases as Therapeutic Drug Targets. Mishra M, Singh V, Singh S. Front Microbiol 10 394 (2019)
  2. Driving antimalarial design through understanding of target mechanism. Calic PPS, Mansouri M, Scammells PJ, McGowan S. Biochem Soc Trans 48 2067-2078 (2020)

Articles citing this publication (7)

  1. Piperaquine-resistant PfCRT mutations differentially impact drug transport, hemoglobin catabolism and parasite physiology in Plasmodium falciparum asexual blood stages. Okombo J, Mok S, Qahash T, Yeo T, Bath J, Orchard LM, Owens E, Koo I, Albert I, Llinás M, Fidock DA. PLoS Pathog 18 e1010926 (2022)
  2. Biochemical and cellular characterisation of the Plasmodium falciparum M1 alanyl aminopeptidase (PfM1AAP) and M17 leucyl aminopeptidase (PfM17LAP). Mathew R, Wunderlich J, Thivierge K, Cwiklinski K, Dumont C, Tilley L, Rohrbach P, Dalton JP. Sci Rep 11 2854 (2021)
  3. Mapping the substrate specificity of the Plasmodium M1 and M17 aminopeptidases. Malcolm TR, Swiderska KW, Hayes BK, Webb CT, Drag M, Drinkwater N, McGowan S. Biochem J 478 2697-2713 (2021)
  4. Active site metals mediate an oligomeric equilibrium in Plasmodium M17 aminopeptidases. Malcolm TR, Belousoff MJ, Venugopal H, Borg NA, Drinkwater N, Atkinson SC, McGowan S. J Biol Chem 296 100173 (2021)
  5. Genetic and chemical validation of Plasmodium falciparum aminopeptidase PfA-M17 as a drug target in the hemoglobin digestion pathway. Edgar RCS, Siddiqui G, Hjerrild K, Malcolm TR, Vinh NB, Webb CT, Holmes C, MacRaild CA, Chernih HC, Suen WW, Counihan NA, Creek DJ, Scammells PJ, McGowan S, de Koning-Ward TF. Elife 11 e80813 (2022)
  6. X-ray crystal structure and specificity of the Toxoplasma gondii ME49 TgAPN2. Marijanovic EM, Weronika Swiderska K, Andersen J, Aschenbrenner JC, Webb CT, Drag M, Drinkwater N, McGowan S. Biochem J 477 3819-3832 (2020)
  7. Identification of a potent and selective LAPTc inhibitor by RapidFire-Mass Spectrometry, with antichagasic activity. Izquierdo M, Lin, O'Neill S, Webster LA, Paterson C, Thomas J, Aguado ME, Colina Araújo E, Alpízar-Pedraza D, Joji H, MacLean L, Hope A, Gray DW, Zoltner M, Field MC, González-Bacerio J, De Rycker M. PLoS Negl Trop Dis 18 e0011956 (2024)


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