Timothy D. Kufahl scite author profile

The reactive aldehyde acrolein is a ubiquitous environmental pollutant and is also generated endogenously. It is a strong electrophile and reacts rapidly with nucleophiles including thiolates. This review focuses on the effects of acrolein on thioredoxin reductase (TrxR) and thioredoxin (Trx), which are major regulators of intracellular protein thiol redox balance. Acrolein causes irreversible effects on TrxR and Trx, which are consistent with the formation of covalent adducts to selenocysteine and cysteine residues that are key to their activity. TrxR and Trx are more sensitive than some other redox-sensitive proteins, and their prolonged inhibition could disrupt a number of redox-sensitive functions in cells. Among these effects are the oxidation of peroxiredoxins and the activation of apoptosis signal regulating kinase (ASK1). ASK1 promotes MAP kinase activation, and p38 activation contributes to apoptosis and a number of other acrolein-induced stress responses. Overall, the disruption of the TrxR/Trx system by acrolein could be significant early and prolonged events that affects many aspects of redox-sensitive signaling and oxidant stress.

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The Influence of Active Hyperemia on the Sex Difference in Time to Task Failure of an Intermittent Fatiguing Contraction

Griffith

Schlachter

Kufahl

et al. 2007

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Timothy D. Kufahl

The effects of acrolein on the thioredoxin system: Implications for redox‐sensitive signaling

The Influence of Active Hyperemia on the Sex Difference in Time to Task Failure of an Intermittent Fatiguing Contraction

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