Effects of Microinjected Cations on the Early Event of Fertilization in the Medaka Egg

Effects of microinjected cations on the early events of fertilization were examined using eggs of Oryzias latipes . Microinjection of either Ca²⁺, Ba²⁺ or Sr²⁺ into the thin cortical cytoplasm induced breakdown of cortical alveoli (vesicles) (CABD) under Ca-Mg-free conditions, but microinjection of Mg²⁺, Mn²⁺ or Co²⁺ prevented CABD at the injected region when the eggs were inseminated in regular saline. Under Ca-Mg-free conditions, CABD could also be induced by microinjection of various solutions (NaCl, choline chloride, sucrose, pH buffer) without any divalent cations or ionophore A23187. Ca²⁺ microinjected into the cortical cytoplasm did not play a role in sperm penetration. Upon microinjection with either Ca²⁺, Mg²⁺ or K⁺, the resting membrane potential leakage was transiently observed. However, depolarization of the membrane followed by slow hyperpolarization was observed only upon microinjection of Ca²⁺. From these experiments, it was inferred that microinjected divalent cations such as Ca²⁺, Ba²⁺ or Sr²⁺ do not act directly upon the cortical alveolus membrane, but trigger the induction of CABD via depolarization of the membrne and increase in intracellular Ca²⁺.     

Requirement of Extracellular Calcium Ions for the Early Fertilization Events in the Medaka Egg

The requirement for calcium and the change in calcium content in eggs of Oryzias iatipes during the cortical reaction and sperm penetration were examined. Naked eggs failed to exhibit the cortical reaction upon insemination under Ca Mg-free conditions. These eggs exhibited the cortical reaction by reinsemination in the presence of extracellular Ca²⁺. The effect of extracellular Ca²⁺ on sperm penetration could be replaced by one of several divalent cations in the external medium. Unlike the cortical reaction, sperm penetration failed to be induced by microinjection to increase intracellular Ca²⁺. Verapamil significantly reduced the action of extracellular Ca²⁺ or Ba²⁺ of divalent cations examined in fertilization, while TEA and TTX had no effect on fertilization in the presence of these cations. No ⁴⁵Ca uptake into the egg proper was recognized before completion of the cortical reaction. These observations suggest that extracellular divalent cations are indispensable for sperm stimulation of the egg and its penetration into the egg, for which an influx of Ca²⁺ from the external medium is not required.     

The Wave Pattern of Free Calcium Release Upon Fertilization in Medaka and Sand Dollar Eggs

A transient rise in the concentration of Ca²⁺ in the cortex upon fertilization was demonstrated in medaka eggs injected with aequorin. Detection of the aequorin luminescence with an ultra-high sensitivity photonic microscope system revealed a wave of increased Ca²⁺ concentration starting at the site of sperm entry (animal pole) and being propagated along the cortex of the egg toward the antipode. The wave traversed the entire egg surface within 2–3 min. The peak value of the aequorin luminescence, and therefore the peak value of the Ca²⁺ transient, was generally higher at the site of sperm entry than in other regions. The peak values of the luminescence (and therefore of the Ca²⁺ concentration in the cortex) remained fairly constant during propagation of the wave. Microinjection of Ca²⁺ into the cortex also induced a Ca²⁺ wave. When the egg was stimulated by microinjection of Ca²⁺ at the equatorial region, the Ca²⁺ wave was propagated at a fairly constant speed over the egg surface, except at the region near the vegetal pole where the wave was retarded. Simultaneous recording of the Ca²⁺ wave and the wave of cortical change (breakdown of cortical alveoli) in eggs during fertilization revealed that the Ca²⁺ wave preceded the wave of cortical change.
A Ca²⁺ wave was also demonstrated in sand dollar eggs, although due to their smaller size the phenomenon was not as clear as in medaka eggs.     

Fertilization Reaction without Changes in Intracellular Ca2+ in Medaka Eggs—An Experiment with Acetone-Treated Eggs

To investigate whether or not causal relationship exists between the increase in intracellular Ca²⁺ and other cortical reactions at fertilization in the medaka, Oryzias latipes , intracellular Ca²⁺ was determined from luminescence of aequorin previously microinjected into cortical cytoplasm in acetone-treated eggs, when they were inseminated or activated by microinjection of Ca²⁺. Neither an increase in cytoplasmic calcium nor exocytosis of cortical alveoli occurred in eggs treated with acetone, though other events of fertilization i.e. completion of meiosis, fusion of pronuclei, and accumulation of cortical cytoplasm with intact cortical alveoli in the animal pole region were observed in normal time sequence in these eggs. When denuded eggs were treated with acetone, contraction of the egg and slow resumption of meiosis (extrusion of polar body) were observed without insemination. When denuded eggs were inseminated immediately after acetone-treatment, the number of spermatozoa that penetrated into the egg was greater in the animal hemisphere than in the vegetal hemisphere. These results may indicate that acetone inactivates the egg plasma membrane or its adjacent cortical cytoplasm so that it cannot participate in a propagative increase in intracellular Ca²⁺ and exocytosis, while it also induces cytoplasmic activation leading to egg contraction, resumption of meiosis and formation of pronuclei. The present results suggest that sperm penetration, resumption of meiosis and ooplasmic segregation are regulated separately from the release of intracellular Ca²⁺ and exocytosis.     

Fertilization Membrane Formation in Sea Urchin Eggs Induced by Drugs Known to Cause Ca2+Release from Isolated Sarcoplasmic Reticulum

Ryanodine, miconazole, clotrimazole, doxorubicin, quercetin, halothane, caffeine and chloroform, which activate Ca²⁺-induced Ca²⁺release from Ca²⁺stores, induced Ca²⁺release from a particulate fraction isolated from sea urchin eggs, Ca²⁺influx into eggs and formation of a fertilization membrane in an appreciable number of eggs. Their minimum effective concentrations for inducing a fertilization membrane increased in the order of these drugs listed above, and this order was also the same as that of their minimum effective concentrations for inducing Ca²⁺release from the isolated particulate fraction. Their effect in inducing a fertilization membrane was blocked by ruthenium red and procaine, which inhibit Ca²⁺release from Ca²⁺stores. Thus these drugs probably induced sufficient Ca²⁺release to make the cytosolic Ca²⁺level high enough in many eggs for formation of a fertilization membrane. In the absence of external Ca²⁺, fewer eggs treated with these drugs formed a fertilization membrane and more eggs did so on further treatment with either A23187 or carbonylcyanide-p-trifluoromethoxy-phenylhydrazone (FCCP). Thus, a high level of Ca²⁺is probably derived from Ca²⁺release through Ca²⁺releasing channels (by A23187), from mitochondria (by FCCP) and its transport from the external medium.     

Activation of Sea Urchin Eggs by Halothane and Its Inhibition by Dantrolene

Eggs of the sea urchin, Hemicentrotus pulcherrimus , were stimulated by halothane, known to induce Ca²⁺ release from sarcosome, to cause fertilization membrane formation in normal and Ca²⁺ free artificial sea water. In the absence of external Ca²⁺, halothane-induced formation of fertilization membrane was inhibited by dantrolene, an inhibitor of Ca²⁺ release from sarcosome, but was not blocked by nifedipine, a Ca²⁺ antagonist specific to Ca²⁺ channels in plasma membrane. Ca²⁺ release from sedimentable fraction isolated from eggs was induced by halothane and was inhibited by dantrolene, but was not blocked by nifedipine. In normal artificial sea water, halothane-caused egg activation was not inhibited either by dantrolene or by nifedipine, but was blocked in the presence of both compounds. ⁴⁵Ca²⁺ influx was substantially stimulated by halothane in eggs exposed to ⁴⁵CaCl₂. Halothane-induced ⁴⁵Ca²⁺ influx into eggs was inhibited by nifedipine but was not blocked by dantrolene. When Ca²⁺ release from intracellular organellae is blocked, Ca²⁺ transport through Ca²⁺ channels in plasma membrane probably acts as a "fail-safe" system to induce an increase in cytosolic Ca²⁺ level, resulting in egg activation.     

MAGNESIUM REQUIREMENT IN FERTILIZATION PROCESS OF SEA URCHINS

The Mg²⁺ requirement in fertilization was investigated in sea urchins. It was found that when sea urchin eggs were inseminated in sea water free of Mg²⁺, little fertilization took place. Even when spermatozoa pre-treated with dissolved egg-jelly to induce the acrosome reaction, which needs Ca²⁺, were used, the fertilization rate remained quite low in the absence of Mg²⁺. In Strongylo-centrotus intermedius , the lowest concentration of Mg²⁺ required for 50% fertilization was 0.05 mM in the presence of 10 mM Ca²⁺, whereas that of calcium was 3 mM in the presence of 49 mM Mg²⁺. These critical concentrations increased when the concentration of the other ion decreased. Removal of Mg²⁺ or Ca²⁺ or both from the suspending medium had little adverse effect on sperm motility. The elevation of the fertilization membrane was also induced by butyric acid independent of the presence or absence of Mg²⁺ and/or Ca²⁺. These results indicate that Mg²⁺ are required at least in some process(es) between acrosome reaction and fertilization membrane elevation, such as sperm penetration or membrane fusion.     

Probable participation of phospholipase A2 reaction in the process of fertilization-induced activation of sea urchin eggs

In sea urchin eggs activated by sperm, A23187 or melittin, BPB (4-bromophenacyl bromide, a phospholipase A₂ inhibitor) blocked fertilization envelope formation and transient CN⁻-insensitive respiration in a concentration-dependent manner. BPB had virtually no effect on the increase in [Ca²⁺]_i, (cytosolic Ca²⁺ level), the activity of phosphorylase a and the rate of protein synthesis, as well as acid production and augmentation of CN⁻-sensitive respiration. BPB also inhibited fertilization envelope formation and augmentation of CN⁻-insensitive respiration induced by melittin. Melittin, known to be an activator of phospholipase A₂, induced the envelope formation, acid production, augmentation of CN⁻-insensitive and sensitive respiration, but did not cause any increase in [Ca²⁺]_i, the phosphorylase a activity and the rate of protein synthesis. An activation of phospholipase A₂ induced by Ca²⁺ or melittin seems to result in cortical vesicle discharge and production of fatty acids, which are to be utilized in CN⁻-insensitive lipid peroxidase reactions. Activation of other examined cell functions in eggs activated by sperm or A23187, probably results from Ca²⁺-triggered sequential reactions other than Ca²⁺-caused activation of phospholipase A₂.     

Ca2+ release from intracellular stores by thapsigargin in sea urchin eggs: Relationship to larval development and relevance in egg activation

Thapsigargin (Tg), an inhibitor of microsomal Ca²⁺ ATPase, is used as a tool to study the changes in Ca²⁺ sequestration in sea urchin eggs and their relationship to embryonic development. Micromolar amounts of Tg inhibit ATP-dependent Ca²⁺ sequestration in a dose-dependent and non-reversible manner, depending on the bulk of biological material used. IC_5O values are 1 nmol/L and 1–10μmol/L, respectively, in the cortical Ca²⁺ stores (isolated cortices preparation) and in digitonin-permeabilized eggs, a preparation giving access to the deeper reticulum compartment. Micromolar Tg does not induce Ca²⁺ release from ⁴⁵Ca pre-loaded cortices but leads to a loss of 25% of the total Ca²⁺ content from the cortical area. Using microspectrofluorimetry of fura-2-loaded eggs, we found that 10 μmol/L Tg induced a moderate rise in cytosolic Ca²⁺ activity as compared with the fertilization-induced Ca²⁺ transient whether eggs were fertilized or not. Early events related to fertilization as, for example, elevation of the fertilization envelope, proton excretion and sustained increase of amino acid uptake, are triggered by 10μmol/L Tg but with a delayed onset relative to sperm-induced effects. The present findings indicate that although it triggers most fertilization-related events, Tg cannot be considered as a true mitotic agent in sea urchin eggs. When added after fertilization, Tg affects cleavage and the further embryonic development giving rise to abnormalities comparable to the animalized larvae obtained with other compounds responsible for the inhibition of reticular Ca²⁺ sequestration.     

The Role of Extracellular Ca2+ in the Activation of Pectinaria Oocytes

Several events are associated with fertilization in oocytes. Two such events are an increase in cytoplasmic Ca²⁺ concentration and the resumption of meiosis. Oocytes of the marine annelid, Pectinaria gouldii , are in metaphase I arrest when they are spawned. In this report we investigate the relationship between Ca²⁺ and resumption of meiosis in this species. Meiosis in unfertilized oocytes could be re-initiated with the divalent cation ionophore, A23187. Oocytes in Ca²⁺ free sea water, however, did not resume meiosis in the presence of the ionophore. Furthermore, it was observed that Ca²⁺ must be present for at least 15 min following ionophore treatment for meiosis to resume. These results suggest that extracellular Ca²⁺ is required for the re-initiation of meiosis in this species.     

Fertilization envelope formation induced by melittin in sea urchin eggs does not depend on Ca2+ signalling

In sea urchin eggs, 10 μg/mL melittin was found to induce fertilization envelope formation without any increase in [Ca²⁺]_i (the intracellular free Ca²⁺ level). On the other hand, 10 μmol/L Br-A23187 and 100 μg/mL SDS induced fertilization envelope formation associated with [Ca²⁺]_i increase. If EGTA was injected into eggs to make an intracellular concentration of 2 mmol/L, [Ca²⁺]_i became quite low and was not altered by melittin, or by Br-A23187 and SDS. In eggs containing EGTA, fertilization envelope formation was induced by melittin even in Ca²⁺-free artificial sea water, but not by Br-A23187 or SDS. Thus [Ca²⁺]_i is essential for induction of a fertilization envelope in sea urchin eggs by Br-A23187 or SDS but not by melittin. Melittin probably activates some Ca²⁺-independent reaction downstream of Ca²⁺-dependent reactions in a sequential reaction system that finally results in fertilization envelope formation.     

Characterization of the Exocytotic Release of Glutamate from Guinea-Pig Cerebral Cortical Synaptosomes

Abstract: A continuous enzyme-linked fluorometric assay was used for determining the characteristics for glutamate exocytosis from guinea-pig cerebrocortical synaptosomes. Ca²⁺-dependent release can be induced not only by K⁺, but also by the Na⁺ channel activator veratridine and the Ca²⁺ ionophore ionomycin. K⁺-induced release can be inhibited by the Ca²⁺ channel inhibitor verapamil. Sr²⁺ and Ba²⁺ substitute for Ca²⁺ in promoting K⁺-induced release. Agents that would be predicted to transform the transvesicular pH gradient into a membrane potential are without effect on glutamate release. However, the protonophore carbonylcy-anide p -trifluoromethoxyphenylhydrazone causes a time-dependent loss of exocytosis that is oligomycin insensitive and may be due to depletion of vesicular glutamate. The Ca²⁺-independent release of glutamate from the cytosol on depolarization is unchanged or promoted by metabolic inhibitors that lower the ATP/ADP ratio. In contrast, Ca²⁺-dependent release is ATP dependent and is blocked by the combined inhibition of oxidative phosphorylation and glycolysis.     

Effects of changes in calcium concentration on basal and stimulated 32P incorporation into phospholipids in rat pineal cells

Abstract: The Ca²⁺ requirement for α-agonist stimulation of ³²P incorporation into acidic phospholipids (the phosphatidylinositol effect) of dispersed pineal cells was evaluated by means of several different compounds that interfere with Ca²⁺ disposition. Simple omission of Ca²⁺ led to slight increases in basal and norepinephrine-stimulated phosphatidyl-CMP (CDP-diacylglycerol) and phosphatidylglycerol labeling without affecting phosphatidylinositol labeling. In the absence of Ca²⁺, EGTA (200 μM) or the ionophore for divalent cations A23187 (10 μM) elicited large increases in phosphatidic acid, phosphatidyl-CMP, and phosphatidylglycerol labeling while strongly inhibiting the phosphatidylinositol effect. The Ca²⁺ translocation inhibitor LaCI₃ also reduced the magnitude of this effect. The phosphatidylinositol effect is, however, not induced by increased Ca²⁺ entry into the cytosol, since A23187 did not mimic the effect of norepinephrine. Under conditions where membrane Ca²⁺ was lowered, the addition of 1 mM-inositol greatly reduced phosphatidic acid, phosphatidylglycerol, and phosphatidyl-CMP labeling with concomitant increases in basal and norepinephrine-stimulated phosphatidylinositol labeling approaching that observed in the presence of norepinephrine and 2.5 mM-Ca²⁺. In the presence of 2.5 mM-Ca²⁺, inositol had negligible effects on phosphatidylinositol labeling. It was concluded that changes in membrane Ca²⁺ availability and/or disposition alter phospholipid metabolism and concurrently reduce the magnitude of the phosphatidylinositol effect, perhaps by making the pool of readily available inositol in pinealocytes rate-limiting.     

Monovalent—divalent cation ratios and the occurrence of phytoplankton, with special reference to the desmids

SUMMARY. We have analysed data from ninety-nine Scottish freshwater lochs, to explore the relationship between water chemistry and phytoplankton assemblages. Our results confirm that there are strong correlations both between the phytoplankton quotient and divalent cation concentrations, particularly Ca⁺⁺, and also between the phytoplankton quotient and the (Na⁺+ K⁺)/(Ca⁺⁺+ Mg⁺⁺) ratio. However, the latter is evidently a spurious relationship, arising from the former association, together with an association between Ca⁺⁺ and the (Na⁺+K⁺)/ (Ca⁺⁺+ Mg⁺⁺) ratio. The observed correlation does not persist if account is taken of concomitant variations in the Ca⁺⁺concentration. This conclusion is suggested both by relatively informal analyses (median polish, partial correlation coefficients) and by more formal modelling and testing (stepwise regression, all-subsets regression).     

Exocytosis of Cortical Alveoli and Its Initiation Time in Medaka Eggs Induced by Microinjection of Various Agents

Various agents were microinjected into the cortical cytoplasm at the animal pole of unfertilized eggs of Oryzias latipes under Ca-free conditions. The agents that triggered a wave of the cortical alveolus exocytosis were Ca²⁺, inositol, 1, 4, 5-trisphosphate (IP₃), Ca-ionophore A23187, cGMP, GMP, GTP and guanosine 5'-0-(2-thio-triphosphate)(GTP-γ-s), while CAMP, ATP, gnanosine 5'-0-(2-thio-triphosphate)(GDP- β-s), inositol monophosphate (IMP) and inositol triphosphate (ITP) were ineffective. Ca²⁺, IP₃ and A231 87 induced the propagative exocytosis after a time lag (5–8 sec), irrespective of the presence of Co²⁺. The time lag was shorter than that (13–28 sec) following microinjection of cGMP or GTP, while were not effective in the presence of Co²⁺. The present data suggest that (1) free cytoplasmic Ca²⁺ participates in both an early and a late step in exocytosis, and (2) cGMP or GTP acts on an early step before initiation of Ca²⁺ release during exocytosis in the medaka egg.     

Arachidonic Acid and Other Unsaturated Fatty Acids Alter Membrane Potential in PC12 and Bovine Adrenal Chromaffin Cells

Abstract: The action of arachidonic acid and other fatty acids on membrane potential in PC 12 and bovine chromaffin cells was investigated using a membrane potential-sensitive fluorescent dye. Arachidonic acid (1–40 μ M ) provoked dose-dependent membrane hyperpolarization, thereby reducing hyperpolarization induced by the K⁺-selective ionophore valinomycin. Other cis-unsaturated fatty acids, but not lipoxygenase products or the saturated fatty acid palmitic acid, also affected membrane potential. Tetraethylammonium blocked the arachidonic acid-induced hyperpolarization. These data suggest that cis-unsaturated fatty acids alter membrane potential in PC 12 and bovine chromaffin cells by modulating K⁺ conductances. Valinomycin-generated hyperpolarization had no effect on agonist-induced Ca²⁺ influx into bovine chromaffin cells, whereas preincubation with arachidonic acid and other cis-unsaturated fatty acids blocked Ca²⁺ influx and secretion. We propose a model where internally generated fatty acids act as a feed-back to desensitize the stimulated cell via inhibition of receptor-dependent Ca²⁺ influx and induction of membrane hyperpolarization.     

ATPase Activity in Isolated Flagella from Euglena gracilis

SYNOPSIS. The ATPase activity of isolated flagella was studied in Euglena gracilis strain Z in the presence of Mg⁺⁺ or Ca⁺⁺. With Mg⁺⁺, the optimum activity was at pH 7 and with Ca⁺⁺, at pH 9. The K _m values were respectively 6.6 × 10⁻⁴ and 3.6 × 10⁻⁴. Activity was influenced also by temperature and ionic strength. Results with inhibitors of membrane ATPase suggest the presence of a specific contractile system in the flagella. Our results are compatible with a multicomponent enzymic system containing 2 active ATPases.     

Opiates Inhibit Acetylcholine Release from Torpedo Nerve Terminals by Blocking Ca2+ Influx

Abstract: In the present communication we report that Ca²⁺-dependent acetylcholine release from K⁺-depolarized Torpedo electric organ synaptosomes is inhibited by morphine, and that this effect is blocked by the opiate antagonist naloxone. This finding suggests that the purely cholinergic Torpedo electric organ neurons contain pre-synaptic opiate receptors whose activation inhibits acetylcholine release. The mechanisms underlying this opiate inhibition were investigated by comparing the effects of morphine on acetylcholine release induced by K⁺ depolarization and by the Ca²⁺ ionophore A23187 and by examining the effect of morphine on ⁴⁵Ca²⁺ influx into Torpedo nerve terminals. These experiments revealed that morphine inhibits ⁴⁵Ca²⁺ influx into K⁺-depolarized Torpedo synaptosomes and that this effect is blocked by naloxone. The effects of morphine on K⁺ depolarization-mediated ⁴⁵Ca²⁺ influx and on acetylcholine release have similar dose dependencies (half-maximal inhibition at 0.5–1 μ M ), suggesting that opiate inhibition of release is due to blockage of the presynaptic voltage-dependent Ca²⁺ channel. This conclusion is supported by the finding that morphine does not inhibit acetylcholine release when the Ca²⁺ channel is bypassed by introducing Ca²⁺ into the Torpedo nerve terminals via the Ca²⁺ ionophore.     

Ca2+-induced change of dorsal-ventral polarity in frog (Rana temporaria) eggs

Abstract. The effect of local Ca²⁺ administration 10–20 min after fertilization and during artificial activation was examined in Rana temporaria eggs. Ca²⁺ was injected into the pigmented region near the boundary between pigmented and unpigmented domains. The locations of egg gray crescent (GC) and dorsal lip of blastopore (DLB), as predictors of the dorsal region in embryos, as well as the measurements of angles between GC middle and sperm entry site were observed. In more than 70% of the cases, microinjection of Ca^{2 +} into subcortical cytoplasm and egg pricking in high-Ca^{2 +} solutions induced GC and DLB formation near the injection site. The formation of Ca²⁺-induced GC occurred mostly as in control eggs. In addition premature displacement of the egg surface was observed near the prick site in high-Ca^{2 +} solutions. GC formation occurred by displacement of the pigmented surface in the same direction as earlier wound translocations. These results show that Ca²⁺ injection determines the direction of the surface movement.     

Ontogenesis of Ca++ and Mg++ Contents of Embryonic Chick Heart

The Ca⁺⁺ and Mg⁺⁺ contents of embryonic chick heart were studied by atomic absorption spectrophotometry during a period from 48 h of foetal development until 2-3 days post-hatching. The hearts were isolated and incubated for 40 min at 22°C in three different media aerated with 95% 0₂-5% C0₂. The media included: normal Ringer's; Ca⁺-free Ringer's with 3 mM EGTA; and Ca⁺⁺-free Ringer's with 3 mM EDTA. At 48 h, the tubular myocardium contained 7-3 mM Ca⁺⁺ per wet weight which decreased rapidly to 1-2 mM by 10 days of development and remained between 0-9 and 1-1 mM until hatching. The Ca⁺⁺ content paralleled the changes in Na⁺ content reported earlier. Treatment with excess chelators, EGTA or EDTA, resulted in removal of 65-75% of the Ca⁺⁺ content throughout development until the time of hatching, when 50% of the Ca⁺⁺ became firmly bound. In contrast to the results with Ca⁺⁺, myocardial Mg⁺⁺ content rose rapidly from an initial value of 3.2 mM at 48 h to 6.7 mM by the 5th day of development, and then gradually declined throughout the remaining foetal development to 4.8 mM 2-3 days post-hatching. The Mg⁺⁺ contents closely paralleled changes in K⁺ content during development, which were reported earlier. Treatment with EGTA and EDTA removed 13-22% and 19-28% of the myocardial Mg⁺⁺, respectively, during development until just prior to hatching, when only 10-12% could be removed by chelation.