The thiol-based glutathione reductase (GR) and thioredoxin reductase (TrxR) are the major antioxidant enzymes present in various organisms that maintain the internal redox homeostasis. The thioredoxin system has attracted the attention of researchers from diverse investigation fields of biological sciences. Apart from redox regulation, this system is thought to be the major regulator of various biological processes including transcription, apoptosis, etc. Identification and physicobiochemical characterization of the reductase enzyme i.e. Thioredoxin reductase (TrxR) revealed the potency of it to become a promising target. Novel therapeutic interventions by selective targeting of TrxR in parasitic organisms as well as in the cancer cells have now become a usual treatment approach. However, different isoforms and their variation in the penultimate amino acid (Selenocysteine or cysteine) present in the catalytic site of the enzyme have made this enzyme to respond differently towards various drugs and synthetic and/or natural compounds. Therefore, the present article seeks to highlight the importance and the detailed molecular mechanism, functional perspective underlying the TrxR inhibition in various parasitic protozoans, helminthes as well as in cancer cells for devising suitable anti-TrxR candidates.
Keywords: Antioxidant; Cancer; Cysteine; Parasite; Selenocysteine; Thioredoxin reductase.
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