Amna E. Abu Khamidakh scite author profile

Ca is a second messenger controlling vital cellular processes, including cell maturation. Changes in Ca signaling during maturation of human embryonic stem cell-derived retinal pigment epithelial cells (hESC-RPE) have not been assessed previously. The aim of this study was to investigate maturation-dependent changes in transient intracellular Ca ([Ca] ) increases in hESC-RPE. For this, we developed image analysis tools to evaluate cell-specific Ca signals from the entire field of view. Spontaneous and mechanically induced transient [Ca] increases (STIs and MITIs) were analyzed in hESC-RPEs cultured for 9 or 28 days, altogether from more than 80,000 cells. Both cultures showed STIs: the longer culture time resulted in twofold increase of amount of cells with STIs. Mechanical stimulation induced intercellular Ca waves in cells from both time points, but longer culture time reduced Ca wave spreading. Depletion of intracellular Ca stores decreased cell fraction with STIs and MITIs at both time points, and absence of extracellular Ca had similar effect on cells with STIs. To conclude, hESC-RPE cells undergo significant Ca signaling re-arrangements during a short maturation period increasing cell fraction with STIs, while decreasing coordinated cell response to mechanical stimulation. This knowledge and proposed analysis tools can be used for assessment of hESC-RPE maturation in vitro.

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Wound healing of human embryonic stem cell-derived retinal pigment epithelial cells is affected by maturation stage

Khamidakh

Rodriguez-Martinez

Kallioniemi

et al. 2018

BioMed Eng OnLine

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BackgroundWound healing of retinal pigment epithelium (RPE) is a complex process that may take place in common age-related macular degeneration eye disease. The purpose of this study was to evaluate whether wounding and wound healing has an effect on Ca2+ dynamics in human embryonic stem cell (hESC)-RPEs cultured different periods of time.MethodsThe 9-day-cultured or 28-day-cultured hESC-RPEs from two different cell lines were wounded and the dynamics of spontaneous and mechanically induced intracellular Ca2+ activity was measured with live-cell Ca2+ imaging either immediately or 7 days after wounding. The healing time and speed were analyzed with time-lapse bright field microscopy. The Ca2+ activity and healing speed were analysed with image analysis. In addition the extracellular matrix deposition was assessed with confocal microscopy.Results The Ca2+ dynamics in hESC-RPE monolayers differed depending on the culture time: 9-day-cultured cells had higher number of cells with spontaneous Ca2+ activity close to freshly wounded edge compared to control areas, whereas in 28-day-cultured cells there was no difference in wounded and control areas. The 28-day-cultured, wounded and 7-day-healed hESC-RPEs produced wide-spreading intercellular Ca2+ waves upon mechanical stimulation, while in controls propagation was restricted. Most importantly, both wave spreading and spontaneous Ca2+ activity of cells within the healed area, as well as the cell morphology of 28-day-cultured, wounded and thereafter 7-day-healed areas resembled the 9-day-cultured hESC-RPEs.ConclusionsThis acquired knowledge about Ca2+ dynamics of wounded hESC-RPE monolayers is important for understanding the dynamics of RPE wound healing, and could offer a reliable functionality test for RPE cells. The data presented in here suggests that assessment of Ca2+ dynamics analysed with image analysis could be used as a reliable non-invasive functionality test for RPE cells.Electronic supplementary materialThe online version of this article (10.1186/s12938-018-0535-z) contains supplementary material, which is available to authorized users.

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Shortwave light filtration effect on spectral sensitivity of two shrimp populations of M. relicta (Mysida)

Khamidakh

Demchuk

Зак

et al. 2010

Moscow Univ. Biol.Sci. Bull.

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