机构地区:[1]Division of Life Science&State Key Laboratory of Molecular Neuroscience,HKUST,Clear Water Bay,Hong Kong,China [2]Stem Cell&Regenerative Medicine Consortium,Li Ka Shing Faculty of Medicine,The University of Hong Kong,Pokfulam,Hong Kong,China [3]Marine Biological Laboratory,Woods Hole MA 02543,USA
出 处:《Science China(Life Sciences)》2016年第8期811-824,共14页中国科学(生命科学英文版)
基 金:supported by the Hong Kong Theme-based Research Scheme award(T13-706/11-1);the Hong Kong Research Grants Council(RGC)General Research Fund awards(662113,16101714,16100115);the ANR/RGC joint research scheme award(A-HKUST601/13);the Innovation and Technology Commission(ITCPD/17-9);supported by a Hong Kong University Grants Council post-graduate studentship(T13-706/11-11PG)
摘 要:In order to develop a novel method of visualizing possible Ca2+ signaling during the early differentiation of hESCs into cardi- omyocytes and avoid some of the inherent problems associated with using fluorescent reporters, we expressed the biolumines- cent Ca2+ reporter, apo-aequorin, in HES2 cells and then reconstituted active holo-aequorin by incubation withf-coelenterazine. The temporal nature of the Ca2+ signals generated by the holo-f-aequorin-expressing HES2 cells during the earliest stages of differentiation into cardiomyocytes was then investigated. Our data show that no endogenous Ca2+ transients (generated by re- lease from intracellular stores) were detected in 1-12-day-old cardiospheres but transients were generated in cardiospheres following stimulation with KC1 or CaC12, indicating that holo-f-aequorin was functional in these cells. Furthermore, following the addition of exogenous ATP, an inositol trisphosphate receptor (IP3R) agonist, small Ca2+transients were generated from day 1 onward. That ATP was inducing Ca2+ release from functional IP3Rs was demonstrated by treatment with 2-APB, a known IP3R antagonist. In contrast, following treatment with caffeine, a ryanodine receptor (RyR) agonist, a minima/Ca2+ response was observed at day 8 of differentiation only. Thus, our data indicate that unlike RyRs, IP3Rs are present and continually functional at these early stages of cardiomyocyte differentiation.In order to develop a novel method of visualizing possible Ca^(2+) signaling during the early differentiation of h ESCs into cardiomyocytes and avoid some of the inherent problems associated with using fluorescent reporters, we expressed the bioluminescent Ca^(2+) reporter, apo-aequorin, in HES2 cells and then reconstituted active holo-aequorin by incubation with f-coelenterazine. The temporal nature of the Ca^(2+) signals generated by the holo-f-aequorin-expressing HES2 cells during the earliest stages of differentiation into cardiomyocytes was then investigated. Our data show that no endogenous Ca^(2+) transients(generated by release from intracellular stores) were detected in 1–12-day-old cardiospheres but transients were generated in cardiospheres following stimulation with KCl or Ca Cl_2, indicating that holo-f-aequorin was functional in these cells. Furthermore, following the addition of exogenous ATP, an inositol trisphosphate receptor(IP_3R) agonist, small Ca^(2+) transients were generated from day 1 onward. That ATP was inducing Ca^(2+) release from functional IP_3 Rs was demonstrated by treatment with 2-APB, a known IP_3 R antagonist. In contrast, following treatment with caffeine, a ryanodine receptor(Ry R) agonist, a minimal Ca^(2+) response was observed at day 8 of differentiation only. Thus, our data indicate that unlike Ry Rs, IP_3 Rs are present and continually functional at these early stages of cardiomyocyte differentiation.
关 键 词:Ca2+ signaling apo-aequorin expression bioluminescence HES2 human embryonic stem cells hESC-derived cardiospheres IP3 and ryanodine receptors
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