D. Green scite author profile

D. Green

2Publications

2Citation Statements Received

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Skeletal Muscle Ryanodine Receptor Channels Are Activated by the Fungal Metabolite, Gliotoxin

Green¹,

Pace²,

Hurne³

et al. 2000

Journal of Membrane Biology

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Interactions between the reactive disulfide fungal metabolite, gliotoxin (GTX), and rabbit skeletal ryanodine receptor (RyR) calcium release channels have been examined. RyRs in terminal cisternae vesicles formed a covalent complex with 100 microm (35)S-GTX, which was reversed by 1 mm dithiothreitol (DTT) or 1 mm glutathione. GTX (80-240 microm), added to either cytoplasmic (cis) or luminal (trans) solutions, increased the rate of Ca(2+) release from SR vesicles and the frequency of opening of single RyR channels in lipid bilayers. Channel activation was reversed upon addition of 2 mm DTT to the cis solution, showing that the activation was due to an oxidation reaction (2 mm DTT added to the cis solution in the absence of GTX did not affect RyR activity). Furthermore, RyRs were not activated by trans GTX if the cis chamber contained DTT, suggesting that GTX oxidized a site in or near the membrane. In contrast to cis DTT, 2 mm DTT in the trans solution increased RyR activity when added either alone or with 200 microm trans GTX. The results suggest that (i) GTX increases RyR channel activity by oxidizing cysteine residues that are close to the membrane and located on RyR, or associated proteins, and (ii) a disulfide bridge or nitrosothiol, accessible only from the luminal solution, normally suppresses RyR channel activity. Some of the actions of GTX in altering Ca(2+) homeostatsis might depend on its modification of RyR calcium channels.

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Modified Peptide A (D18-A1) of the Rabbit Skeletal Dihydropyridine Receptor

Green¹,

Pace²,

Sakowska³

et al. 2002

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D. Green

Skeletal Muscle Ryanodine Receptor Channels Are Activated by the Fungal Metabolite, Gliotoxin

Modified Peptide A (D18-A1) of the Rabbit Skeletal Dihydropyridine Receptor

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