International Journal for Parasitology: Drugs and Drug Resistance (Dec 2021)

Histone deacetylase inhibitor AR-42 and achiral analogues kill malaria parasites in vitro and in mice

  • Ming Jang Chua,
  • Jiahui Tng,
  • Eva Hesping,
  • Gillian M. Fisher,
  • Christopher D. Goodman,
  • Tina Skinner-Adams,
  • Darren Do,
  • Andrew J. Lucke,
  • Robert C. Reid,
  • David P. Fairlie,
  • Katherine T. Andrews

Journal volume & issue
Vol. 17
pp. 118 – 127

Abstract

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Malaria is caused by infection with Plasmodium parasites and results in significant health and economic impacts. Malaria eradication is hampered by parasite resistance to current drugs and the lack of a widely effective vaccine. Compounds that target epigenetic regulatory proteins, such as histone deacetylases (HDACs), may lead to new therapeutic agents with a different mechanism of action, thereby avoiding resistance mechanisms to current antimalarial drugs. The anticancer HDAC inhibitor AR-42, as its racemate (rac-AR-42), and 36 analogues were investigated for in vitro activity against P. falciparum. Rac-AR-42 and selected compounds were assessed for cytotoxicity against human cells, histone hyperacetylation, human HDAC1 inhibition and oral activity in a murine malaria model. Rac-AR-42 was tested for ex vivo asexual and in vitro exoerythrocytic stage activity against P. berghei murine malaria parasites. Rac-AR-42 and 13 achiral analogues were potent inhibitors of asexual intraerythrocytic stage P. falciparum 3D7 growth in vitro (IC50 5–50 nM), with four of these compounds having >50-fold selectivity for P. falciparum versus human cells (selectivity index 56–118). Rac-AR-42 induced in situ hyperacetylation of P. falciparum histone H4, consistent with PfHDAC(s) inhibition. Furthermore, rac-AR-42 potently inhibited P. berghei infected erythrocyte growth ex vivo (IC50 40 nM) and P. berghei exoerythrocytic forms in hepatocytes (IC50 1 nM). Oral administration of rac-AR-42 and two achiral analogues inhibited P. berghei growth in mice, with rac-AR-42 (50 mg/kg/day single dose for four days) curing all infections. These findings demonstrate curative properties for HDAC inhibitors in the oral treatment of experimental mouse malaria.

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