Phosphorylated ryanodine receptors open more often (bottom) and may lead to decreased exercise tolerance.

Patients with heart failure often have reduced exercise tolerance that cannot be explained solely by their impaired blood flow. On page 919, Reiken et al. identify the molecular defect that may underlie this phenomenon, revealing promising therapeutic targets and supporting a new model for the pathogenesis of this widespread disease.

Coupling of excitation and contraction in skeletal muscle requires the type 1 ryanodine receptor (RyR1), a calcium channel that forms a complex with several regulatory proteins. The authors identified a unique site on RyR1 that is phosphorylated by protein kinase A; they then generated mutant channels that either cannot be phosphorylated or that mimic constitutively phosphorylated RyR1. Phosphorylation of the channel causes it to dissociate from the regulatory protein FKBP12, allowing the channel to open more frequently. Compared with RyR1...

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