Wave of free calcium at fertilization in the sea urchin egg visualized with fura-2

Mathias Hafner; Christian Petzelt; Rainer Nobiling; James B. Pawley; Douglas Kramp; Gerald Schatten

doi:10.1002/cm.970090309

Mechanism for Increase in Intracellular Concentration of Free Calcium in Fertilized Sea Urchin Egg

The Journal of General Physiology ◽

10.1085/jgp.63.3.374 ◽

1974 ◽

Vol 63 (3) ◽

pp. 374-388 ◽

Cited By ~ 36

Author(s):

Masahisa Nakamura ◽

Ikuo Yasumasu

Keyword(s):

Dissociation Constant ◽

Sea Urchin ◽

Calcium Ion ◽

Calcium Binding ◽

Intracellular Concentration ◽

Sodium Ion ◽

Free Calcium ◽

Binding Ability ◽

Sea Urchin Egg ◽

Fertilized Egg

Intracellular free calcium concentration in the sea urchin egg was calculated to increase from 0.1 mM in an unfertilized egg to 1 mM in a fertilized egg 10 min after fertilization, based on measurement of the dissociation constant between free calcium and sea urchin egg homogenate. The dissociation constant between free calcium (dialyzable calcium) and homogenate of sea urchin eggs was measured by means of dialysis equilibrium. The dissociation constant of the unfertilized egg was about 10–4 M and that of the fertilized egg was about 10–3 M in three species of sea urchin, Hemicentrotus pulcherrimus, Anthocidaris crassispina, and Pseudocentrotus depressus. An increase in the dissociation constant of the unfertilized egg homogenate was observed after the addition of calcium ion at a concentration above 0.3 mM, the dissociation constant becoming the same as that observed in the fertilized egg homogenate after the administration of CaCl2 at a concentration above 1 mM. Sodium ion also caused a decrease in the calcium-binding ability of the unfertilized egg homogenate. Therefore, penetration of calcium ion or sodium ion upon fertilization might induce an increase in the dissociation constant and then intracellular concentration of free calcium would increase at fertilization. Almost all calcium-binding ability of the egg homogenate was found in the microsomal fraction, and the substance which bound calcium was thought to be protein in nature, since trypsin could decrease the level of calcium-binding substance in the homogenate of the eggs.

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Increased Aggregation and Secretion Responses of Human Platelets when Loaded with the Calcium Fluorescent Probes Quin2 and Fura-2

Thrombosis and Haemostasis ◽

10.1055/s-0038-1645981 ◽

1987 ◽

Vol 58 (02) ◽

pp. 737-743 ◽

Cited By ~ 12

Author(s):

Frarnçois Lanza ◽

Alain Beretz ◽

Martial Kubina ◽

Jean-Pierre Cazenave

Keyword(s):

Intracellular Calcium ◽

Shape Change ◽

Calcium Ionophore ◽

Human Platelets ◽

Arachidonic Acid Metabolism ◽

Free Calcium ◽

Membrane Bilayer ◽

Fluorescent Indicators ◽

Fura 2 ◽

Low Concentrations

SummaryIncorporation into human platelets of the calcium fluorescent indicators quin2 or fura-2 at low concentrations used to measure intracellular free calcium leads to the potentiation of the effects of agonists on platelets. This was shown by increased aggregatory and secretory responses of quin2 or fura-2 loaded platelets after stimulation with ADP, PAP and with low concentrations of thrombin, collagen, the endoperoxide analog U-46619 and the calcium ionophore A 23187. Quin2 and fura-2 mediated platelet sensitisation could be due to altered arachidonic acid metabolism since it was inhibited by prior treatment with the cydooxygenase inhibitor acetylsalicylate. In contrast, platelets loaded with higher concentrations of calcium chelators exhibited diminished aggregation responses to all aggregating agents. This latter effect was accompanied by increased fluidity of the platelet plasma membrane bilayer and by the exposure of a new pool of membranes to the outer surface of platelets, as monitored with trimethylammonium- diphenylhexatriene (TMA-DPH) in platelets loaded with the non-fluorescent calcium probe analog MAPT. In contrast, low concentrations of quin2 did not potentiate shape change of platelets activated with ADP. Thus, shape change and aggregation can be influenced separately by intracellular Ca2+ chelators. We conclude that platelet responses are altered by the incorporation of intracellular calcium chelators at concentrations used to monitor intracellular calcium changes.

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Assembly of unfertilized sea urchin egg tubulin at physiological temperatures.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)32654-1 ◽

1983 ◽

Vol 258 (7) ◽

pp. 4518-4525 ◽

Cited By ~ 2

Author(s):

K A Suprenant ◽

L I Rebhun

Keyword(s):

Sea Urchin ◽

Sea Urchin Egg

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THE ROLE OF IONISED INTRACELLULAR FREE CALCIUM ([Ca++]i) IN THROMBIN-INDUCED DENSE GRANULE SECRETION

10.1055/s-0038-1644475 ◽

1987 ◽

Author(s):

C T Poll ◽

J Westwick

Keyword(s):

Human Platelets ◽

Dense Granule ◽

Free Calcium ◽

Fluorescent Properties ◽

Fura 2 ◽

Stimulus Response ◽

Dense Granules ◽

Dense Granule Secretion ◽

Granule Secretion

Fura 2 is one of a recently-introduced family of Ca++ indicators with improved fluorescent properties compared to quin 2 (Grynkiewicz et al 1985). This study has examined the role of [Ca++]i in thrombin-induced dense granule release using prostacyclin-washed human platelets loaded with either thedense granule marker 14C-5HT (5HT) alone or with 5HT together with quin 2 ([quin2]i = 0.8mM) or fura 2 ([fura 2]i 20-30µM). In the presence of ImM extracellular calcium concentration ([Ca++]i) the [Ca++]e in quin 2 and fura 2 loaded platelets was 93±2 (n=10 experiments) and 133±0.3nM (n=12 experiments) respectively. In either quin 2 or fura 2 loaded platelets suspended in the presence of ImM [Ca++]e, thrombin (0.23-23.InM) promoted a rapid (in secs)concentration-dependent elevation of [Ca++]i from basal values to levels l-2µM, together with a parallel release of dense granules almost identical to that obtained with thrombin in non dye loaded platelets. In fura 2 loaded cells, removal of [Ca++]e inhibited the elevation of [Ca++]i induced by a sub-maximal concentration of thrombin (0.77nM) by 43+5% (n=4) but interestingly had no significant effect (p<0.05) on the rise in [Ca++]i elicited by low thrombin doses (0.231nM). Neither did lowering [Ca++]e inhibit the release of 5HT evoked by thrombin ( 0.231-23.InM) from either fura 2 loaded or non dye loaded platelets. In contrast, in quin 2 loaded platelets, removal of [Ca++]e inhibited the thrombin (0.231-23.InM) stimulated rise in [Ca++]i-by 90% and the 5HT release response to either low (0.231nM), sub-maximal (0.77nM) or maximal (23.InM) thrombin by 100% (n=4), 87+2°/o (n=6)and 2+l°/o (n=4) respectively. Fura 2 but not quin 2 loaded cells suspended in ImM [Ca++]e exhibited a Ca++ response to thrombin concentrations >2.31nM which could be separated into a rapid phasic component and a more sustained 'tonic' like component inhibitable by removal of [Ca++]e or by addition of ImM Ni++ . These data suggest the use of fura 2 rather than quin 2 for investigating stimulus response coupling in platelets, particularly when [Ca++]e is less than physiological. We thank the British Heart Foundation and Ciba-Geigy USA for financial support.

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A Ribonucleoprotein Which Catalyzes Thiol-Disulfide Exchange in the Sea Urchin Egg

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)96114-4 ◽

1967 ◽

Vol 242 (7) ◽

pp. 1458-1461

Author(s):

Hikoichi Sakai

Keyword(s):

Sea Urchin ◽

Disulfide Exchange ◽

Sea Urchin Egg

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Different Ca2+-releasing abilities of sperm extracts compared with tissue extracts and phospholipase C isoforms in sea urchin egg homogenate and mouse eggs

Biochemical Journal ◽

10.1042/bj3460743 ◽

2000 ◽

Vol 346 (3) ◽

pp. 743-749 ◽

Cited By ~ 32

Author(s):

Keith T. JONES ◽

Miho MATSUDA ◽

John PARRINGTON ◽

Matilda KATAN ◽

Karl SWANN

Keyword(s):

Phospholipase C ◽

Sea Urchin ◽

Tissue Extracts ◽

Sea Urchin Egg ◽

Boar Sperm ◽

Specific Activities ◽

Mammalian Eggs ◽

Mouse Eggs

A soluble phospholipase C (PLC) from boar sperm generates InsP3 and hence causes Ca2+ release when added to sea urchin egg homogenate. This PLC activity is associated with the ability of sperm extracts to cause Ca2+ oscillations in mammalian eggs following fractionation. A sperm PLC may, therefore, be responsible for causing the observed Ca2+ oscillations at fertilization. In the present study we have further characterized this boar sperm PLC activity using sea urchin egg homogenate. Consistent with a sperm PLC acting on egg PtdIns(4,5)P2, the ability of sperm extracts to release Ca2+ was blocked by preincubation with the PLC inhibitor U73122 or by the addition of neomycin to the homogenate. The Ca2+-releasing activity was also detectable in sperm from other species and in whole testis extracts. However, activity was not observed in extracts from other tissues. Moreover recombinant PLCβ1, -γ1, -γ2, -∆1, all of which had higher specific activities than boar sperm extracts, were not able to release Ca2+ in the sea urchin egg homogenate. In addition these PLCs were not able to cause Ca2+ oscillations following microinjection into mouse eggs. These results imply that the sperm PLC possesses distinct properties that allow it to hydrolyse PtdIns(4,5)P2 in eggs.

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