Heterologous Expression and Characterization of a Full-length Protozoan Nitroreductase from Leishmania orientalis isolate PCM2

Leishmaniasis, a parasitic disease found in parts of the tropics and subtropics, is caused by Leishmania protozoa infection. Nitroreductases (NTRs), enzymes involved in nitroaromatic prodrug activation, are attractive targets for leishmaniasis treatment development. In this study, a full-length reco...

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Bibliographic Details
Published in:Molecular biotechnology 2023-04, Vol.65 (4), p.556-569
Main Authors: Pimviriyakul, Panu, Kapaothong, Yuvarun, Tangsupatawat, Theerapat
Format: Article
Language:English
Subjects:
Biochemistry
Bioinformatics
Biological Techniques
Biotechnology
Catalysis
Cell Biology
Chemistry
Chemistry and Materials Science
E coli
Electrons
Enzymatic activity
Enzyme activity
Enzymes
Escherichia coli - metabolism
Flavin mononucleotide
Flavin-adenine dinucleotide
Histidine
Human Genetics
Kinetics
Leishmania
Leishmania - genetics
Leishmania - metabolism
Leishmaniasis
Leishmania (Mundinia) orientalis
NADP - metabolism
Nicotinamide adenine dinucleotide
Nitroreductase
Nitroreductases - chemistry
Nitroreductases - genetics
Original Paper
Oxygen
Parasitic diseases
Protein Science
Protozoa
Quinones
Therapeutic targets
Tropical environments
Vector-borne diseases
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Summary:Leishmaniasis, a parasitic disease found in parts of the tropics and subtropics, is caused by Leishmania protozoa infection. Nitroreductases (NTRs), enzymes involved in nitroaromatic prodrug activation, are attractive targets for leishmaniasis treatment development. In this study, a full-length recombinant NTR from the Leishmania orientalis isolate PCM2 (LoNTR), which causes severe leishmaniasis in Thailand, was successfully expressed in soluble form using chaperone co-expression in Escherichia coli BL21(DE3). The purified histidine-tagged enzyme (His 6 -LoNTR) had a subunit molecular mass of 36 kDa with no cofactor bound; however, the addition of exogenous flavin (either FMN or FAD) readily increased its enzyme activity. Bioinformatics analysis found that the unique N-terminal sequences of LoNTR is only present in Leishmania where the addition of this region might result in the loss of flavin binding. Either NADH or NADPH can serve as an electron donor to transfer electrons to nitrofurazone; however, NADPH was preferred. Molecular oxygen was identified as an additional electron acceptor resulting in wasteful electrons from NADPH for the main catalysis. Steady-state kinetic experiments revealed a ping-pong mechanism for His 6 -LoNTR with K m,NADPH , K m,NFZ , and k cat of 28 µM, 68 µM, and 0.84 min −1 , respectively. Besides nitroreductase activity, His 6 -LoNTR also has the ability to reduce quinone derivatives. The properties of full-length His 6 -LoNTR were different from previously reported protozoa and bacterial NTRs in many respects. This study provides information of NTR catalysis to be developed as a potential future therapeutic target to treat leishmaniasis.
ISSN:1073-6085
1559-0305
DOI:10.1007/s12033-022-00556-3