0000000000709752

AUTHOR

Philip J. Rosenthal

showing 2 related works from this author

Identification, Characterization and Synthesis of Natural Parasitic Cysteine Protease Inhibitors – More Potent Falcitidin Analogs

2021

ABSTRACTProtease inhibitors represent a promising therapeutic option for the treatment of parasitic diseases such as malaria and human African trypanosomiasis. Falcitidin was the first member of a new class of inhibitors of falcipain-2, a cysteine protease of the malaria parasite Plasmodium falciparum. Using a metabolomics dataset of 25 Chitinophaga strains for molecular networking enabled identification of over 30 natural analogs of falcitidin. Based on MS/MS spectra, they vary in their amino acid chain length, sequence, acyl residue, and C-terminal functionalization; therefore, they were grouped into the four falcitidin peptide families A-D. The isolation, characterization and absolute st…

chemistry.chemical_classificationProteasesProteasebiologyIn silicomedicine.medical_treatmentPlasmodium falciparumPeptidebiology.organism_classificationCysteine proteasePentapeptide repeatAmino acidBiochemistrychemistrymedicine
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Development of Novel Peptide-Based Michael Acceptors Targeting Rhodesain and Falcipain-2 for the Treatment of Neglected Tropical Diseases (NTDs)

2017

This paper describes the development of a class of peptide-based inhibitors as novel antitrypanosomal and antimalarial agents. The inhibitors are based on a characteristic peptide sequence for the inhibition of the cysteine proteases rhodesain of Trypanosoma brucei rhodesiense and falcipain-2 of Plasmodium falciparum. We exploited the reactivity of novel unsaturated electrophilic functions such as vinyl-sulfones, -ketones, -esters, and -nitriles. The Michael acceptors inhibited both rhodesain and falcipain-2, at nanomolar and micromolar levels, respectively. In particular, the vinyl ketone 3b has emerged as a potent rhodesain inhibitor (k2nd = 67 × 106 M-1 min-1), endowed with a picomolar b…

0301 basic medicineCathepsin LAntimalarialPeptideHeLa Cell01 natural sciencesCysteine Proteinase InhibitorDipeptideDrug DiscoveryPeptide sequencechemistry.chemical_classificationTrypanocidal AgentbiologyNeglected DiseasesStereoisomerismDipeptidesTrypanocidal AgentsMAJOR CYSTEINE PROTEASE PLASMODIUM-FALCIPARUM TRYPANOSOMA-BRUCEI CONFORMATIONAL-ANALYSIS BIOLOGICAL EVALUATION HIGHLY POTENT VINYL-ESTER INHIBITORS PEPTIDOMIMETICS SUBSTRATEMolecular Docking SimulationCysteine EndopeptidasesBiochemistryMolecular MedicineHumanProteasesNeglected DiseaseStereochemistryPhenylalaninePlasmodium falciparumTrypanosoma brucei bruceiCysteine Proteinase InhibitorsMolecular Dynamics SimulationTrypanosoma bruceiAntimalarialsStructure-Activity Relationship03 medical and health sciencesparasitic diseasesHumansStructure–activity relationship010405 organic chemistryDrug Discovery3003 Pharmaceutical ScienceHydrogen BondingTrypanosoma brucei rhodesiensePlasmodium falciparumbiology.organism_classificationMalaria0104 chemical sciencesTrypanosomiasis African030104 developmental biologychemistryCarbamateCarbamatesCysteine EndopeptidaseHeLa CellsCysteineJournal of Medicinal Chemistry
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