Ca 2+ /Calmodulin‐dependent protein kinase regulation of sarcoplasmic reticulum Ca 2+ uptake in airway smooth muscle

In airway smooth muscle (ASM), the state of sarcoplasmic reticulum (SR) Ca 2+ stores is an important determinant of [Ca 2+ ] i response to agonist. We have previously shown that acetylcholine (ACh) induces sustained [Ca 2+ ] i oscillations representing repetitive SR Ca 2+ release and reuptake. Thus, SR refilling is a key component in refilling of SR stores. We hypothesized that, like cardiac and vascular smooth muscle, ASM SR refilling is regulated by calmodulin (CaM)‐CaM kinase (CaMKII) dependent phosphorylation of phospholamban (PLB). In ASM cells from fresh porcine trachea, effects of W7 (CaM antagonist) and KN‐93/KN‐62 (CaMKII antagonists) on [Ca 2+ ] i responses to ACh were measured using fluorescence microscopy. Separately, SR‐enriched membranes were isolated to monitor ATP‐energized Ca 2+ uptake and in vitro phosphorylation of PLB in the presence of CaMKII inhibitors. KN‐93 significantly slowed decay of [Ca 2+ ] i responses, and slowed or inhibited ongoing [Ca 2+ ] i oscillations, with visible slowing of fall‐times of individual oscillations. Pre‐exposure to W7 or KN‐62 did not prevent initiation of oscillations. In SR‐enriched membranes, addition of KN‐93/KN‐62 resulted in significantly slower Ca 2+ uptake, accompanied by a matching decrement in the in vitro phosphorylation of Thr 17 ‐PLB, indicating the influence of CaM‐CaMKII on this protein. These data suggest that agonist‐induced [Ca 2+ ] i regulation in ASM involves the CaM‐CaMKII pathway which indirectly influences Ca 2+ release and reuptake, likely through PLB. Supported by NIH grant HL74309 (GCS)