Chaperone properties of Escherichia coli thioredoxin and thioredoxin reductase

Kern, Renée; Malki, Abderrahim; Holmgren, Arne; Richarme, Gilbert

doi:10.1042/bj20030093

Cited by 113 publications

(105 citation statements)

References 45 publications

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“…Mitochondria may play a dominant role in aging process and development in worms, and mitochondrial TrxR may contribute to protect mitochondria from the oxidative damage. In those regards, it has been shown that the deficiency of mitochondrial redox enzymes results in the increased sensitivity to the oxidative stress and mitochondrial defects in C. elegans (Kern et al, 2003). Interestingly, the depletion of trxr-2, but not trx-2 has been reported to aggravate aging-dependent paralysis caused by the muscle-specific expression of human β-amyloid, which forms pathological plaque aggregates in the brain of Alzheimer's disease patients where the oxidative stress is a prominent factor of the disease etiology (Barstead, 1999a).…”

Section: Discussionmentioning

confidence: 99%

Two Thioredoxin Reductases, trxr-1 and trxr-2, Have Differential Physiological Roles in Caenorhabditis elegans

Bandyopadhyay

Hwaang

et al. 2012

Molecules and Cells

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Section: Discussionmentioning

confidence: 99%

Two Thioredoxin Reductases, trxr-1 and trxr-2, Have Differential Physiological Roles in Caenorhabditis elegans

Bandyopadhyay

Hwaang

et al. 2012

Molecules and Cells

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“…Immature conformers of OmpA fold in the periplasm (43). Thioredoxin has a chaperone activity (44), and the colocalization of thioredoxin could be indicative of a role in protein folding in the periplasm. This association may also indicate a role for thioredoxin as a receptor for bacteriophages.…”

Section: Thioredoxin-associated Pathwaysmentioning

confidence: 99%

Proteomic analysis of thioredoxin-targeted proteins in Escherichia coli

Kumar

Tabor

Richardson

2004

Proc. Natl. Acad. Sci. U.S.A.

182

168

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Thioredoxin, a ubiquitous and evolutionarily conserved protein, modulates the structure and activity of proteins involved in a spectrum of processes, such as gene expression, apoptosis, and the oxidative stress response. Here, we present a comprehensive analysis of the thioredoxin-linked Escherichia coli proteome by using tandem affinity purification and nanospray microcapillary tandem mass spectrometry. We have identified a total of 80 proteins associated with thioredoxin, implicating the involvement of thioredoxin in at least 26 distinct cellular processes that include transcription regulation, cell division, energy transduction, and several biosynthetic pathways. We also found a number of proteins associated with thioredoxin that either participate directly (SodA, HPI, and AhpC) or have key regulatory functions (Fur and AcnB) in the detoxification of the cell. Transcription factors NusG, OmpR, and RcsB, not considered to be under redox control, are also associated with thioredoxin.T he role of redox regulatory pathways in signal transduction is well established (1). Thiol-disulfide exchange reactions control the structure and activity of proteins that contain regulatory cysteines (2). This reversible disulfide bond formation is mediated by thiol-dependent proteins, such as thioredoxin and glutaredoxin, that exchange reducing equivalents between their active site cysteines and the cysteines of target proteins (3). The precise molecular mechanisms underlying redox regulation continue to be elucidated. To this end, identification of the cellular targets of thiol-disulfide exchange proteins is an important goal.Thioredoxins are members of a class of small (Ϸ12-kDa) redox active proteins that maintain the reductive intracellular redox potential (4). The thioredoxin fold comprised of five ␤-strands surrounded by four short ␣-helices and the active site cysteines (CXXC) are evolutionarily conserved in all organisms ( Fig. 1) (5). Thioredoxin participates in redox reactions by oxidation of its active-site thiols and is then reduced by NADPH in a reaction catalyzed by thioredoxin reductase (4).Originally isolated from Escherichia coli in 1964 as an electron donor for ribonucleotide reductase (6), thioredoxin is now known to play a role in a multitude of processes (7). Apart from its oxidoreductase activity, thioredoxin exerts control over the activity of its target proteins via reversible thiol-disulfide exchange reactions (Fig. 2a). In plant chloroplasts, thioredoxin regulates the light-activated Calvin cycle by reducing specific regulatory disulfides (8). In eukaryotes, thioredoxin regulates the activity of transcription factors such as NF-B and AP-1 (9, 10). Thioredoxin also plays a critical role in the oxidative stress response; peroxiredoxins that catalyze the reduction of H 2 O 2 are activated in turn by reduction by thioredoxin (11). In E. coli, transient disulfide bonds formed in the presence of reactive oxygen species in proteins such as Hsp33 (12) and the transcriptional regulator OxyR (13) are reduced by th...

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“…Given that the E. coli Trx (19) and PDI (20), which contain a Trx motif and 2 Cys Prxs (14) with a Trx fold, exhibit chaperone functions, we explored the functions of AtTDX from Arabidopsis in the present study. We demonstrated in a plant system that an Arabidopsis Trx-like protein, AtTDX, displayed multiple functions that depended on its oligomeric status, alternatively acting as a disulfide reductase, foldase chaperone, and holdase chaperone.…”

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confidence: 99%

“…1D). In addition, given that E. coli Trx exhibits a foldase chaperone function (19), we also examined the foldase chaperone activity of AtTDX by using glucose-6-phosphate dehydrogenase (G6PDH). To distinguish the foldase chaperone function of AtTDX from its disulfide reductase function, the Cys-free form of G6PDH was used (21).…”

mentioning

confidence: 99%

Heat-shock dependent oligomeric status alters the function of a plant-specific thioredoxin-like protein, AtTDX

Lee¹,

Lee

Jang

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

101

107

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We found that Arabidopsis AtTDX, a heat-stable and plant-specific thioredoxin (Trx)-like protein, exhibits multiple functions, acting as a disulfide reductase, foldase chaperone, and holdase chaperone. The activity of AtTDX, which contains 3 tetratricopeptide repeat (TPR) domains and a Trx motif, depends on its oligomeric status. The disulfide reductase and foldase chaperone functions predominate when AtTDX occurs in the low molecular weight (LMW) form, whereas the holdase chaperone function predominates in the high molecular weight (HMW) complexes. Because deletion of the TPR domains results in a significant enhancement of AtTDX disulfide reductase activity and complete loss of the holdase chaperone function, our data suggest that the TPR domains of AtTDX block the active site of Trx and play a critical role in promoting the holdase chaperone function. The oligomerization status of AtTDX is reversibly regulated by heat shock, which causes a transition from LMW to HMW complexes with concomitant functional switching from a disulfide reductase and foldase chaperone to a holdase chaperone. Overexpression of AtTDX in Arabidopsis conferred enhanced heat shock resistance to plants, primarily via its holdase chaperone activity.disulfide reductase ͉ foldase chaperone ͉ holdase chaperone ͉ functional switching ͉ Yedox

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Chaperone properties of Escherichia coli thioredoxin and thioredoxin reductase

Cited by 113 publications

References 45 publications

Two Thioredoxin Reductases, trxr-1 and trxr-2, Have Differential Physiological Roles in Caenorhabditis elegans

Two Thioredoxin Reductases, trxr-1 and trxr-2, Have Differential Physiological Roles in Caenorhabditis elegans

Proteomic analysis of thioredoxin-targeted proteins in Escherichia coli

Heat-shock dependent oligomeric status alters the function of a plant-specific thioredoxin-like protein, AtTDX

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