(A) Protocol for measuring cytoplasmic Ca²⁺ buffering (β_Ca) (left panel). Myocytes were first AM-loaded with FuraRed and the caged Ca²⁺-donor NP-EGTA, and they were subsequently superfused. After exposure to 10 mM caffeine (to empty SR), superfusate was switched to Na⁺-free/Ca²⁺-free (0Na0Ca) solution to block sarcolemmal Ca²⁺ fluxes. Photolytic uncaging and FuraRed imaging alternated in order to evoke and measure the rise in free [Ca²⁺] with FuraRed. The slope of the FuraRed time course provides inverse estimate of β_Ca (right panel). The extent of AM-ester loading was tested by FuraRed fluorescence near isobestic point (middle panel). Results from n = 30–35 cells from 3 animals/group. (B) Cells were electrically paced to evoke CaTs. Time courses show averaged CaTs measured from n > 30 cells from 4 animals/group. CaTs were analyzed in terms of (C) systolic [Ca²⁺], (D) diastolic [Ca²⁺], and (E) CaT amplitude. (F) The recovery from systolic Ca²⁺ was used to obtain the Ca²⁺-activation curve of SERCA, calculated from the rate of FuraRed ratio change after the peak of CaT (dashed line shows best fit for control group). (G) Approximately 5 seconds following a period of pacing, electrical stimulation was withdrawn and myocytes were rapidly exposed to a solution containing 10 mM caffeine delivered from a blunt micropipette. (H) The caffeine-evoked Ca²⁺ response was analyzed in terms of the peak Ca²⁺ level, which interrogates the SR load. (I) In separate experiments, the SR Ca²⁺ load was interrogated after a delayed delivery of caffeine (after 2-min rest period). (J) Ca²⁺-activation curves of NCX plus PMCA, calculated from the recovery of the caffeine-evoked cytoplasmic Ca²⁺ response. See Supplemental Table 1 for details of the number of experimental repeats and Supplemental Table 2 for details of nested (hierarchical) 1-wayANOVA analyses performed for data shown in C–E and H–I. *P < 0.05, **P < 0.01.