Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

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Frömming, G.R. et al.

Isoform-specific interactions between halothane and the ryanodine receptor Ca(2+)-release channel: implications for malignant hyperthermia and the protein theory of anaesthetic action.

General anaesthetics exhibit a relatively close relationship between their pharmacological potency and their lipid solubility and may thus act by non-specific perturbation of biomembranes. However, more recent data on anaesthetic action suggests that inhalational drugs such as halothane bind directly to hydrophobic protein domains, thereby modulating important receptor functions. In support of this protein theory of anaesthetic action our native gel analysis presented here shows that halothane induces oligomerization of the skeletal muscle ryanodine receptor (RyR) 1 Ca(2+)-release channel, but not its cardiac RyR-2 isoform. Thus, inhalational anaesthetics are not only able to influence protein-protein interactions directly but also appear to differentiate between protein isoforms and/or configurations. This suggests that distinct peptide binding sites exist for these pharmacological agents. In addition, similar mutations in the RyR-2 isoform, which would trigger an episode of malignant hyperthermia in skeletal muscle fibres via abnormal RyR-1 isoforms, would probably not induce an increase in cardiac Ca(2+)-release upon administration of halothane.[1]

References

Isoform-specific interactions between halothane and the ryanodine receptor Ca(2+)-release channel: implications for malignant hyperthermia and the protein theory of anaesthetic action. Frömming, G.R., Ohlendieck, K. Naturwissenschaften (1999) [Pubmed]

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