Abstract
Thioredoxin reductases function in regulating cellular redox and function through their substrate, thioredoxin, in the proper folding of enzymes and redox regulation of transcription factor activity. These enzymes are overexpressed in certain tumors and cancer cells and down-regulated in apoptosis and may play a role in regulating cell growth. Mammalian thioredoxin reductases contain a selenocysteine residue, encoded by a UGA codon, as the penultimate carboxyl-terminal amino acid. This amino acid has been proposed to carry reducing equivalents from the active site to substrates. We report expression of a wild-type thioredoxin reductase selenoenzyme, a cysteine mutant enzyme, and the UGA-terminated protein in mammalian cells and overexpression of the cysteine mutant and UGA-terminated proteins in the baculovirus insect cell system. We show that substitution of cysteine for selenocysteine decreases enzyme activity for thioredoxin by 2 orders magnitude, and that termination at the UGA codon abolishes activity. We further demonstrate the presence of a functional selenocysteine insertion sequence element that is highly active but only moderately responsive to selenium supplementation. Finally, we show that thioredoxin reductase mRNA levels are down-regulated by other sequences in the 3'-untranslated region, which contains multiple AU-rich instability elements. These sequences are found in a number of cytokine and proto-oncogene mRNAs and have been shown to confer rapid mRNA turnover.
Highlights
Mammalian thioredoxin reductases (TRRs)1 have many diverse cellular functions, ranging from regulation of overall redox balance to generating reducing equivalents for ribonucleotide reductase, which is required for deoxyribonucleotide synthesis
We examined the 3Ј-untranslated regions (3Ј-UTRs) of the human TRR sequence for the presence of these nucleotides and the potential to form the consensus stem-loop structure
Decreased mRNA Steady-state Levels Conferred by AU-rich Elements—To investigate the site of action of this regulatory effect, we examined the levels of TRR mRNA produced in the presence or absence of the 3Ј-UTR
Summary
Mammalian thioredoxin reductases (TRRs) have many diverse cellular functions, ranging from regulation of overall redox balance to generating reducing equivalents for ribonucleotide reductase, which is required for deoxyribonucleotide synthesis. The cloning of two human TRR genes (9 –11) and the identification of these enzymes as selenoenzymes [12, 13] reveal a second pathway, in addition to the glutathione peroxidases, in which selenium plays a role in redox balance and protection from oxidative stress. Due to the critical functions of the TRR enzymes and the unusual location of the selenocysteine residue, we undertook the present study to express the human wt selenoenzyme and a cysteine mutant analog to investigate the role of selenocysteine in catalytic activity and to characterize the SECIS element. Regulation of expression of TRR by these AU-rich elements may be crucial in maintaining tight control on this important enzyme and the cellular processes it affects
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