Thapsigargin decreases the Na+- Ca2 + exchanger mediated Ca2 + entry in pig coronary artery smooth muscle

Na⁺- Ca^2 + exchanger (NCX) has been proposed to play a role in refilling the sarco/endoplasmic reticulum (SER) Ca^2 + pool along with the SER Ca^2 + pump (SERCA). Here, SERCA inhibitor thapsigargin was used to determine the effects of SER Ca^2 + depletion on NCX–SERCA interactions in smooth muscle cells cultured from pig coronary artery. The cells were Na⁺-loaded and then placed in either a Na⁺-containing or in a Na⁺-substituted solution. Subsequently, the difference in Ca^2 + entry between the two groups was examined and defined as the NCX mediated Ca^2 + entry. The NCX mediated Ca^2 + entry in the smooth muscle cells was monitored using two methods: Ca^2 +sensitive fluorescence dye Fluo-4 and radioactive Ca^2 +. Ca^2 +-entry was greater in the Na⁺-substituted cells than in the Na⁺-containing cells when measured by either method. This difference was established to be NCX-mediated as it was sensitive to the NCX inhibitors. Thapsigargin diminished the NCX mediated Ca^2 + entry as determined by either method. Immunofluorescence confocal microscopy was used to determine the co-localization of NCX1 and subsarcolemmal SERCA2 in the cells incubated in the Na⁺-substituted solution with or without thapsigargin. SER Ca^2 + depletion with thapsigargin increased the co-localization between NCX1 and the subsarcolemmal SERCA2. Thus, inhibition of SERCA2 leads to blockade of constant Ca^2 + entry through NCX1 and also increases proximity between NCX1 and SERCA2. This blockade of Ca^2 + entry may protect the cells against Ca^2 +-overload during ischemia–reperfusion when SERCA2 is known to be damaged.