Calcium signaling in human lens epithelial cells after mechanical stimulation

Abstract

PurposeThe purpose of this study is to explore and identify intra‐ and inter‐cellular calcium (Ca2+) signaling in human lens epithelial cells (LECs) upon local mechanical stimulation, to understand better the role of Ca2+ in intercellular communication related to cataract formation, lens regeneration and posterior capsular opacification (PCO).MethodsThe anterior lens capsule (aLC: basement membrane and associated LECs) were obtained from cataract surgery. Primary human LEC cultures were established by placing adherently the intact human aLC onto Petri dishes. LECs were stained with Fura‐2 dye, the fluorescence of which was imaged to monitor spatio‐temporal changes in cytosolic free Ca2+ concentrations in response to localized, micropipette induced mechanical stimulation.ResultsAnalysis of the intra‐ and inter‐cellular Ca2+ signaling from postoperative aLCs and cultures showed that the Ca2+ signal spreads radially and its propagation speed increases with the degree of cataract. While in aLC Ca2+ signals travels between the first few neighbor LECs in the order of seconds, in confluent culture the propagation is slower and it covers smaller distances. LECs from aLC with less developed cataracts exhibit faster and bigger changes in intracellular Ca2+ concentration. Moreover, in aLC and in LEC cultures, the duration of Ca2+ transients prolongs with increasing distance from stimulation site, whereas their amplitude decreases.ConclusionsThe modifications of Ca2+ homeostasis in LECs, which are associated with different degrees of cataract, affect Ca2+ signaling upon the local mechanical stimulation. Impairment of Ca2+ signaling might be the basis of cataract formation. LEC's cultures have less developed Ca2+ signaling capabilities, what might be reflected on lens regeneration and PCO.