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Cyclic Tetrapeptide HDAC Inhibitors with Improved <i>Plasmodium falciparum</i> Selectivity and Killing Profile

Jennifer E. Collins, Jin Woo Lee, Monica J. Bohmer, Joshua D. Welden, Arash Keshavarzi Arshadi, Lin Du, Robert H. Cichewicz, Debopam Chakrabarti

2021ACS Infectious Diseases25 citationsDOIOpen Access PDF

Abstract

Cyclic tetrapeptide histone deacetylase inhibitors represent a promising class of antiplasmodial agents that epigenetically disrupt a wide range of cellular processes in Plasmodium falciparum. Unfortunately, certain limitations, including reversible killing effects and host cell toxicity, prevented these inhibitors from further development and clinical use as antimalarials. In this study, we present a series of cyclic tetrapeptide analogues derived primarily from the fungus Wardomyces dimerus that inhibit P. falciparum with low nanomolar potency and high selectivity. This cyclic tetrapeptide scaffold was diversified further via semisynthesis, leading to the identification of several key structural changes that positively impacted the selectivity, potency, and in vitro killing profiles of these compounds. We confirmed their effectiveness as HDAC inhibitors through the inhibition of PfHDAC1 catalytic activity, in silico modeling, and the hyperacetylation of histone H4. Additional analysis revealed the in vitro inhibition of the most active epoxide-containing analogue was plasmodistatic, exhibiting reversible inhibitory effects upon compound withdrawal after 24 or 48 h. In contrast, one of the new diacetyloxy semisynthetic analogues, CTP-NPDG 19, displayed a rapid and irreversible action against the parasite following compound exposure for 24 h.

Topics & Concepts

TetrapeptidePlasmodium falciparumHistone deacetylaseIn silicoCyclic peptideIn vitroSemisynthesisChemistryBiochemistryPotencyTrichostatin ABiologyPharmacologyPeptideHistoneGeneImmunologyMalariaHistone Deacetylase Inhibitors ResearchPeptidase Inhibition and AnalysisAntimicrobial Peptides and Activities