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Cataract Progression Associated with Modifications in Calcium Signaling in Human Lens Epithelia as Studied by Mechanical Stimulation.


ABSTRACT: Ca2+ homeostasis and signaling disturbances are associated with lens pathophysiology and are involved in cataract formation. Here, we explored the spatiotemporal changes in Ca2+ signaling in lens epithelial cells (LECs) upon local mechanical stimulation, to better understand the LECs' intercellular communication and its association with cataractogenesis. We were interested in if the progression of the cataract affects the Ca2+ signaling and if modifications of the Ca2+ homeostasis in LECs are associated with different cataract types. Experiments were done on the human postoperative anterior lens capsule (LC) preparations consisting of the monolayer of LECs on the basement membrane. Our findings revealed that the Ca2+ signal spreads radially from the stimulation point and that the amplitude of Ca2+ transients decreases with increasing distance. It is noteworthy that a comparison of signaling characteristics with respect to the degree of cataract progression revealed that, in LCs from more developed cataracts, the Ca2+ wave propagates faster and the amplitudes of Ca2+ signals are lower, while their durations are longer. No differences were identified when comparing LCs with regard to the cataract type. Moreover, experiments with Apyrase have revealed that the Ca2+ signals are not affected by ATP-dependent paracrine communication. Our results indicated that cataract progression is associated with modifications in Ca2+ signaling in LECs, suggesting the functional importance of altered Ca2+ signaling of LECs in cataractogenesis.

SUBMITTER: Gosak M 

PROVIDER: S-EPMC8143283 | biostudies-literature |

REPOSITORIES: biostudies-literature

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