1. Monochloramine Impairs Caspase-3 Through Thiol Oxidation and Zn2+ Release
- Author
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Kohler, Jonathan E., Mathew, Jeff, Tai, Kaniza, Blass, Amy L., Kelly, Edward, and Soybel, David I.
- Subjects
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CHLORAMINES , *THIOLS , *OXIDATION , *SERINE proteinases , *BINDING sites , *METAL ions , *LABORATORY rabbits , *GASTRITIS - Abstract
Background: Caspase-3, a pro-apoptotic enzyme, represents a class of proteins in which the active site contains reduced thiol (S-H) groups and is modulated by heavy metal cations, such as Zn2+. We explored the effects of the thiol oxidant monochloramine (NH2Cl) on caspase-3 activity within cells of isolated rabbit gastric glands. In addition, we tested the hypothesis that NH2Cl-induced alterations of caspase-3 activity are modulated by oxidant-induced accumulation of Zn2+ within the cytoplasm. Materials and methods: Isolated gastric glands were prepared from rabbit mucosa by collagenase digestion. Caspase-3 activity was measured colorimetrically in suspensions of healthy rabbit gastric glands, following exposure to various concentrations of NH2Cl with or without the zinc chelator TPEN [tetrakis-(2-pyridylmethyl)ethylene diamine] for 1 h, and re-equilibration in Ringer''s solution for 5 h. Conversion of procaspase-3 to active caspase-3 was monitored by Western blot. Results: Monochloramine inhibited caspase-3 activity in a dose-dependent fashion. At concentrations of NH2Cl up to 100 μm, these effects were prevented if TPEN was given concurrently and were partly reversed if TPEN was given 1 h later. Caspase-3 activity was preserved by concurrent treatment with a thiol-reducing agent, dithiothreitol. Conclusions: At pathologically relevant concentrations, NH2Cl impairs caspase-3 activity through oxidation of its thiol groups. Independently from its thiol oxidant effects on the enzyme, NH2Cl-induced accumulation of Zn2+ in the cytoplasm is sufficient to restrain endogenous caspase-3 activity. Our studies suggest that some bacterially generated oxidants, such as NH2Cl, impair host pathways of apoptosis through release of Zn2+ from endogenous pools. [Copyright &y& Elsevier]
- Published
- 2009
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