Maladaptive changes in the function, expression and localization of proteins involved in calcium-handling worsen the impaired contractility of systolic heart failure (HF). Standard proteomics techniques require cell lysis and so are unable to characterize changes specific to the critical sub-cellular domain bounded by the T-tubule and the sarcoplasmic reticulum, known as the cardiac dyad. Traditional approaches are also less likely to capture low-affinity protein-protein interactions on lipid membranes. To improve our understanding of heart failure pathophysiology, we applied proximity proteomics to cardiac dyads of mice with ischemic cardiomyopathy.