Abstract
ABSTRACTMalaria persists as a major health problem due to the spread of drug resistance and the lack of effective vaccines. DNA gyrase is a well-validated and extremely effective therapeutic target in bacteria, and it is also known to be present in the apicoplast of malarial species, including Plasmodium falciparum. This raises the possibility that it could be a useful target for novel antimalarials. To date, characterization and screening of this gyrase have been hampered by difficulties in cloning and purification of the GyrA subunit, which is necessary together with GyrB for reconstitution of the holoenzyme. To overcome this, we employed a library of compounds with specificity for P. falciparum GyrB and assessed them in activity tests utilizing P. falciparum GyrB together with Escherichia coli GyrA to reconstitute a functional hybrid enzyme. Two inhibitory compounds were identified that preferentially inhibited the supercoiling activity of the hybrid enzyme over the E. coli enzyme. Of these, purpurogallin (PPG) was found to disrupt DNA binding to the hybrid gyrase complex and thus reduce the DNA-induced ATP hydrolysis of the enzyme. Binding studies indicated that PPG showed higher-affinity binding to P. falciparum GyrB than to the E. coli protein. We suggest that PPG achieves its inhibitory effect on gyrase through interaction with P. falciparum GyrB leading to disruption of DNA binding and, consequently, reduction of DNA-induced ATPase activity. The compound also showed an inhibitory effect against the malaria parasite in vitro and may be of interest for further development as an antimalarial agent.
Highlights
Malaria persists as a major health problem due to the spread of drug resistance and the lack of effective vaccines
DNA gyrase is a type II topoisomerase that performs essential topological operations on DNA and has the unique ability to carry out negative supercoiling by using energy provided by ATP hydrolysis [1]
Along with topoisomerase IV, it is the target of the broad-spectrum fluoroquinolone class of antibacterials, which are used to treat a variety of infections, most notably those of the urinary tract
Summary
Malaria persists as a major health problem due to the spread of drug resistance and the lack of effective vaccines. DNA gyrase is a well-validated and extremely effective therapeutic target in bacteria, and it is known to be present in the apicoplast of malarial species, including Plasmodium falciparum. This raises the possibility that it could be a useful target for novel antimalarials. Purpurogallin (PPG) was found to disrupt DNA binding to the hybrid gyrase complex and reduce the DNA-induced ATP hydrolysis of the enzyme. We suggest that PPG achieves its inhibitory effect on gyrase through interaction with P. falciparum GyrB leading to disruption of DNA binding and, reduction of DNA-induced ATPase activity. Gyrase-Targeting Antimalarial break generated in the G-segment, and is released through the “bottom” gate in GyrA
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