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Deciphering the Path of S-nitrosation of Human Thioredoxin: Evidence of an Internal NO Transfer and Implication for the Cellular Responses to NO.

Vitor S AlmeidaLara L MillerJoão P G DeliaAugusto V MagalhãesÍcaro Putinhon CarusoAnwar IqbalFabio Ceneviva Lacerda de Almeida
Published in: Antioxidants (Basel, Switzerland) (2022)
Nitric oxide (NO) is a free radical with a signaling capacity. Its cellular functions are achieved mainly through S-nitrosation where thioredoxin (hTrx) is pivotal in the S-transnitrosation to specific cellular targets. In this study, we use NMR spectroscopy and mass spectrometry to follow the mechanism of S-(trans)nitrosation of hTrx. We describe a site-specific path for S-nitrosation by measuring the reactivity of each of the 5 cysteines of hTrx using cysteine mutants. We showed the interdependence of the three cysteines in the nitrosative site. C73 is the most reactive and is responsible for all S-transnitrosation to other cellular targets. We observed NO internal transfers leading to C62 S-nitrosation , which serves as a storage site for NO. C69-SNO only forms under nitrosative stress, leading to hTrx nuclear translocation.
Keyphrases
  • nitric oxide
  • mass spectrometry
  • endothelial cells
  • liquid chromatography
  • hydrogen peroxide
  • nitric oxide synthase
  • fluorescent probe
  • pluripotent stem cells