(A) Immunoblot for RyR2 protein in cardiac lysates obtained from mice on a control or iron-deficient diet, showing downregulation in the latter. (B) Desitometric quantification of RyR2 immunoblot (left) and RT-qPCR analysis of Ryr2 mRNA (right) showing decreased expression at message and protein level (n = 3 animals/group for immunoblot and 9 animals/group for qPCR). (C) Immunofluorescence staining for RyR2 in isolated and permeabilized adult mouse myocytes, alongside their fast Fourier transform (FFT) analyses for deriving sarcomeric spacing (n = 7 cells/group). Scale bar: 20 μm. (D) RT-qPCR analysis of mRNA level for the gene coding for SERCA (Atp2a2) (n = 9 animals/group), showing no difference in message level. (E) Immunoblot analysis of SERCA, total phospholamban (PLN_total) and phospholamban phospho-Ser16 and phospho-Thr17 (PLN_ser16, PLN_thr17) performed on cardiac lysates obtained from mice on a control or iron-deficient diet (n = 3 animals/group). (F) Densitometric analysis of immunoblots. Immunoreactivity for SERCA and total PLN were normalized to actin, whereas phosphoproteins PLN_ser16 and PLN_thr17 were normalized to total PLN (n = 3 animals/group). Data are expressed relative to the control group. Iron deficiency produced a net dephosphorylation of PLN at Thr17. (G) Ca²⁺ waves were triggered by Ca²⁺-overloading adult mouse myocytes with superfusates of raised [Ca²⁺]. Ca²⁺ waves were recorded by line-scan along the length of cell, and their velocity was quantified from the angle of the waveform. Ca²⁺ waves propagated faster in myocytes from iron-deficient animals, consistent with reduced SERCA activity, which sets the diffusive spread of released Ca²⁺. (H) The incidence of spontaneous SR release events under conditions of Ca²⁺-overload, measured from line-scans. No significant change was found in the iron-deficient group. See Supplemental Table 1 for details of the number of experimental repeats and Supplemental Table 2 for details of nested (hierarchical) 1-way ANOVA analyses performed for data shown in G and H. (I) Results of the mathematical model of mouse myocyte Ca²⁺ signaling generated for control conditions (2 Hz pacing, 1 mM extracellular [Ca²⁺]) and iron deficiency conditions, featuring a 47% reduction in RyR2 permeability and a +0.2 μM right-shifted SERCA activity curve. To allow an offsetting of diastolic [Ca²⁺] to a higher level, PMCA and NCX activities were right-shifted by 1.4-fold. Time courses show the final CaT of a train of 200. *P < 0.05. P value determined by unpaired Student’s t test (2-tailed) for B, D, and F; nested (hierarchical) 1-way ANOVA for G and H.