In the genetic disease cystic fibrosis (CF), the most common mutation F508del promotes the endoplasmic reticulum (ER) retention of misfolded CF proteins. Furthermore, in homozygous F508del-CFTR airway epithelial cells, the histamine Ca2+ mobilization is abnormally increased. Because the uptake of Ca2+ by mitochondria during Ca2+ influx or Ca2+ release from ER stores may be crucial for maintaining a normal Ca2+ homeostasis, we compared the mitochondria morphology and distribution by transmission electron microscopy technique and the mitochondria membrane potential variation (DWmit) using a fluorescent probe (TMRE) on human CF (CF-KM4) and non-CF (MM39) tracheal serous gland cell lines. Confocal imaging of Rhod-2–AM-loaded or of the mitochondrial targeted cameleon 4mtD3cpv-transfected human CF and non-CF cells, were used to examine the ability of mitochondria to sequester intracellular Ca2+. The present study reveals that (i) the mitochondria network is fragmented in F508del-CFTR cells, (ii) the DWmit of CF mitochondria is depolarized compared to non-CF mitochondria, and (iii) the CF mitochondria Ca2+ uptake is reduced compared to non-CF cells. We propose that these defects in airway epithelial F508del-CFTR cells are the consequence of mitochondrial membrane depolarization leading to a deficient mitochondrial Ca2+ uptake.