Effect of Cysteine and Its Derivatives on 1-Methyladenine Production by Starfish Follicle Cells

Spawning of the gametes in the starfish, Asterina pectinifera , induced by a gonad-stimulating substance (GSS) was inhibited by cysteine. This inhibitory effect of cysteine was due to the reduction of GSS activity and the inhibition of 1-methyadenine (1-MeAde) production in follicle cells. Homocysteine and cysteamine also reduced GSS activity, but cystamine had no effect on the activity. This suggests that the loss of GSS activity is related to a SH group. Furthermore, the effect of cysteine on 1-MeAde production was investigated using isolated follicle cells. The half maximum decrease of the GSS-dependent 1-MeAde production in follicle cells was obtained with the concentration of 2.0 mM L-cysteine. A similar effect was observed with D-cysteine. Homo cysteine and cysteamine also reduced the GSS-dependent 1-MeAde production. But methionine, serine, glutamic acid and aspartic acid did not affect the 1-MeAde production of follicle cells. In addition, cystamine also inhibited the GSS-dependent 1-MeAde production. These suggest that both a SH group and a SS bond of these compounds are effective on the inhibition of the GSS-dependent 1-MeAde biosynthesis. Cysteine and homocysteine also inhibited concanavalin A (Con A).induced 1-MeAde production of follicle cells, but they had no effect on binding of Con A to the surface of follicle cells.     

Effect of Ca2+-free Seawater Treatment on 1-Methyladenine Production in Starfish Ovarian Follicle Cells

When follicle cells from ovaries of the starfish Asterina pectinifera were washed with Ca²⁺-free seawater (CaFSW), the production of 1-methyladenine (1-MeAde) in response to gonad-stimulating substance (GSS) decreased to a large degree. The cyclic AMP content of CaFSW-treated follicle cells was much lower than that of non-treated cells, and the level was increased slightly by GSS, but not to a degree sufficient for production of 1-MeAde. The production of 1-MeAde and cyclic AMP in the presence of GSS was dependent on extracellular Ca²⁺ concentration, and was considerably reduced at a Ca²⁺ concentration below 1 mM. Thus, the decrease of 1-MeAde production by follicle cells after treatment with CaFSW is due to the low levels of cAMP. Furthermore, an ADP-ribosylation experiment using [α-³²P]NAD⁺ in the presence of cholera toxin and pertussis toxin with membrane preparations of follicle cells treated with CaFSW revealed the presence of two types (stimulatory and inhibitory) of G-proteins. However, activity of the adenylyl cyclase was not influenced by GSS regardless of the presence or absence of GTP. These findings may suggest that GSS is unable to bind to its receptor in follicle cells after washing with CaFSW.     

Absence of 1-Methyladenine Production in Follicle Cells Obtained from Starfish Ovaries in the Post-Spawning Season

Follicle cells from the ovaries of starfish Asterina pectinifera collected in the breeding season and then kept in an aquarium for three months did not produce 1-methyladenine (1-MeAde) in response to genad-stimulating substance (GSS). The cyclic AMP content of follicle cells of the ovaries was much lower in the post-spawning season than in the spawning season. In the post-spawning season, the cyclic AMP level was increased slightly by GSS, but nor insufficiently for production of 1-MeAde. Addition of 3-isobutyl-1-methylxanthine, a potent phosphodiesterase inhibitor, stimulated the productions of GSS-induced 1-MeAde and cyclic AMP. Adenylate cyclase in membrane preparations of follicle cells from ovaries in the post-spawning season was stimulated by nonhydrolyzable GTP analogs and forskolin. An experiment on ADP-ribosylation with [α-³²P]NAD in the presence of cholera toxin and pertussis toxin showed the presence of two types (stimulatory and inhibitory) of guanine nucleotide-binding regulatory proteins (G-proteins). However, GSS has no effect on the adenylate cyclase activity regardless of the presence of GTP. These findings suggest that GSS does not bind to its receptor in follicle cells of the overy in the post-spawning season, although these cells possess G-proteins and adenylate cyclase. Thus the absence of 1-MeAde production by follicle cells obained from ovaries in the post-spawning season appears to be due to lack of receptor protein for GSS.     

Concanavalin-Mediated Attachment to Membranes of a Cellular Slime Mould Cyclic AMP Phosphodiesterase

In the cellular slime mould Dictyostelium discoideum , a membrane-bound cyclic AMP phosphodi-esterase undergoes a tenfold increase in activity when amoebae reach the aggregation stage of development. Our previous studies had shown that when non-aggregating cells, which produce extracellular and intracellular forms of the enzyme, are treated with the lectin Concanavalin A (Con A), they exhibit prematurely high levels of the membrane bound enzyme. The present results indicate that this effect may be largely due not to the induction of the enzyme by Con A but rather to the binding of the intracellular form of the enzyme to membranes by Con A. This conclusion is based on the findings that: a) the enzyme activity associated with membranes from Con A treated cells can be decreased by treatment with the haptenic sugar α-methyl mannoside; b) membranes from untreated cells having only low membrane-bound phosphodiesterase activity can acquire increased activity after incubation with Con A and intracellular phosphodiesterase; c) the intracellular phosphodiesterase binds to Sepharose-Con A and is eluted with α-methyl mannoside. These results raise the possibility that some of the effects attributed to Con A in the literature may not be due directly to Con A but to glycoproteins attached to membranes by Con A.     

Breakdown of starfish ovarian follicle induced by maturation-promoting factor

Immature starfish oocytes are surrounded by envelopes consisting of follicular cells. These cells adhere to each other and to the oocyte, immobilizing the latter within the ovary. When isolated oocytes in their follicles are treated with 1-methyladenine (1-MeAde), germinal vesicle breakdown (GVBD) and follicular envelope breakdown (FEBD) occur simultaneously. The 1-MeAde acts on the oocyte surface to produce a maturation-promoting factor (MPF) in the cytoplasm, which brings about GVBD. In the present study, MPF was found to induce FEBD as well as GVBD when injected into immature oocytes with their follicles in Asterina pectinifera. Although GVBD was induced by MPF in the presence of cytochalasin D, this drug prevented MPF-induced FEBD, and each follicular cell remained in situ on the surface of the oocyte. However, desmosomes connecting the processes of the follicle cell with the oocyte surface were disrupted following MPF injection even in the presence of cytochalasin D, and the processes became detached from the oocyte. FEBD occurred in these oocytes when cytochalasin D was removed, resulting in the formation of a small follicular clump by microfilament-mediated contraction of the follicle cells. These results show that FEBD is not brought about by the direct action of 1-MeAde but by the action of MPF. Therefore, in starfish, spawning as well as oocyte maturation is directly triggered by MPF produced under the influence of 1-MeAde.     

Involvement of cyclic adenosine 3′,5′-monophosphate in methylation during 1-methyladenine production by starfish ovarian follicle cells

Summary

Resumption of meiosis in starfish oocytes is induced by 1-methyladenine (1-MeAde) produced by ovarian follicle cells under the influence of a gonad-stimulating substance (GSS). With respect to 1-MeAde production by follicle cells of the starfish, Asterina pectinifera, (1) the action of GSS is initiated by a receptor mediated activation of G-proteins, resulting in the activation of adenylate cyclase and cyclic AMP (cAMP) formation; (2) 1-MeAde produced under the influence of GSS is not prestored within the follicle cells but is newly synthesized from a 1-MeAde precursor; (3) AMP plays an important role in the process of methylation during 1-MeAde biosynthesis induced by GSS.     

1-Methyladenine production from ATP by starfish ovarian follicle cells.

1-Methyladenine (1-MeAde), the oocyte maturation-inducing substance in starfish, is produced by ovarian follicle cells upon stimulation with a gonad-stimulating substance (GSS) released from the radial nerves. We have shown previously that GSS causes a reduction in the intracellular levels of ATP coincident with 1-MeAde production. The present study examined whether the adenine molecule of 1-MeAde is directly derived from ATP. When isolated follicle cells from the starfish Asterina pectinifera were preloaded with [U-14C]adenine or [U-14C]adenosine, there was an increase in the intracellular levels of radiolabeled adenine nucleotides, particularly ATP. Following further incubation with GSS, the intracellular levels of radiolabeled ATP decreased, concomitant with a marked increase in the levels of [14C]1-MeAde in the medium. The amount of ATP consumed under the influence of GSS was similar to the amount of 1-MeAde produced. However, there was no change in the levels of ADP and AMP regardless of the presence or absence of GSS. These findings strongly suggest that 1-MeAde is synthesized from ATP as a substrate in follicle cells under the influence of GSS. Furthermore, using [methyl-3H]methionine, the methyl group of 1-MeAde was found to be derived from methionine. Thus GSS appears to stimulate the synthesis of 1-MeAde from ATP via the methylation process in starfish ovarian follicle cells.     

Regulatory functions of cyclic adenosine 3',5'-monophosphate in 1-methyladenine production by starfish follicle cells

The biosynthesis of 1-methyladenine (1-MeAde) in follicle cells of the starfish, Asterina pectinifera, occurred in response to a gonad-stimulating substance (GSS). Simultaneously with 1-MeAde production, the intracellular cAMP level immediately increased following the administration of GSS. This level in follicle cells markedly depended on GSS concentration. Although 1-MeAde production was also induced by 1-methyladenosine, it caused no increase in cAMP content. It thus appears that the effect of GSS on starfish follicle cells results in the receptor-mediated formation of cAMP.     

Inhibition of starfish oocyte maturation by some inhibitors of proteolytic enzymes

Starfish oocyte maturation is triggered by a natural hormone, 1-methyladenine (1-MeAde), produced in the follicle cells, or artificially by dithiothreitol (DTT). These substances act on the oocyte surface to produce a cytoplasmic maturation-promoting factor (MPF), which induces germinal vesicle breakdown (GVBD) and subsequent processes of meiotic maturation. Further, MPF is amplified in immature oocytes that have received the injection of MPF. In this paper the effect of leupeptin and antipain, protease inhibitors of microbial origin, on starfish oocyte maturation was investigated. The protease inhibitors were found to inhibit 1-MeAde-induced maturation when they were applied externally or injected into oocytes. DTT-induced maturation was also inhibited by injection of leupeptin. However, leupeptin did not inhibit the maturation-inducing action of MPF or MPF amplification. These results show that the protease inhibitors suppress the production of MPF by 1-MeAde or DTT, suggesting that some endogenous protease(s) acts in the production of MPF.     

Inhibition of Starfish Oocyte Maturation by Tumor-Promoting Phorbol Esters*

Effect of tumor promoters including phorbol esters and teleocidin on 1-methyladenine (1-MeAde)-induced oocyte maturation was studied in the starfish. When isolated immature oocytes were treated with 1-MeAde and 12-O-tetradecanoylphorbol-13-acetate (TPA), 1-MeAde-induced maturation was completely inhibited at more than 2.5 μg/ml. However, if TPA was added after the hormone-dependent period (the minimum period wherein 1-MeAde is required), such maturation-inhibiting effect was no longer observed. Pretreatment with TPA for 5 min showed that its inhibitory action is irreversible. However, when TPA-injected oocytes were treated with 1-MeAde, all oocytes underwent germinal vesicle breakdown (GVBD). GVBD was induced in TPA-treated oocytes upon injection of the cytoplasm of maturing oocytes containing maturation-promoting factor (MPF). These facts show that TPA acts on the oocyte surface to inhibit the production of MPF. Retinoids including retinal, retinol and retinoic acid reversed the inhibitory effect of TPA on 1-MeAde-induced maturation. Experiments with various phorbol esters showed a good correlation between their maturation-inhibiting activity and their known tumor-promoting activity. Further, telecoidin, which is structurally unrelated to phorbol esters, inhibited 1-MeAde action. Since both tumor-promoting phorbol esters and teleocidin are known to activate Ca²⁺ -activated, phospholipid-dependent protein kinase (protein kinase C) and their activation effect is inhibited by retinoids, it appears that the activation of protein kinase C by tumor promoters is involved in blocking of 1-MeAde action.     

Effect of Disulfide-Reducing Agents on Activity of 1-Methyladenosine Ribohydrolase in Starfish Follicle Cells

Production of 1-methyladenine (1-MeAde) in isolated starfish follicle cells incubated with 1-methyladenosine was elevated by disulfide-reducing agents, such as dithiothreitol, cysteine, and homocysteine. More than 0.05 mM cysteine and homocysteine brought about a six-fold increase of 1-MeAde production in comparison with controls without disulfide-reducing agents. On the other hand, iodoacetamide, which is a membrane-permeable SH-blocking agent, decreased the 1-methyladenosine-induced 1-MeAde production. A forty percent decrease of 1-MeAde production was obtained with 0.5 mM iodoacetamide. Iodoacetamide inhibited also 1-MeAde production induced by gonad-stimulating substance (GSS). But a membrane-impermeable SH-blocking agent, N-carboxyphenylmaleimide, failed to inhibit both 1-methyladenosine-induced and GSS-induced 1-MeAde production. Furthermore, partially purified 1-methyladenosine ribohydrolase was activated by dithiothreitol, 2-mercaptoethanol, and cysteine derivatives. An approximately ten-fold activation was obtained with these disulfide-reducing agents at concentrations of more than 5 mM. On the contrary, though the SH-blocking agents inhibited 1-methyladenosine ribohydrolase, the inhibition was relieved by the disulfide-reducing agents. These results suggest that the reduced form of SH-group in 1-methyladenosine ribohydrolase plays an important role for enzymatic activation.     

EFFECT OF LOCAL APPLICATION OF 1-METHYLADENINE ON THE SITE OF POLAR BODY FORMATION IN STARFISH OOCYTE*

Mechanism by which the site of polar body formation is determined in starfish oocytes was investigated in relation to the action of 1-methyladenine (1-MeAde). Local staining with Nile Blue of Asterina pectinifera oocytes revealed that there exists a prospective site of polar body formation (PSPBF) on the nearest surface to the position of germinal vesicle. The site of polar body formation was found to shift to some extent from PSPBF toward the area locally applied with 1-MeAde, suggesting that the actual site of polar body formation is not determined yet at the germinal vesicle stage. Oocytes whose germinal vesicles had been shifted by centrifugation from PSPBF to the opposite surface before the commencement of germinal vesicle breakdown (GVBD) (less than 15 min after 1-MeAde treatment), failed to form polar bodies, whereas oocytes centrifuged after commencement of GVBD (20 min after 1-MeAde treatment) did form polar bodies where their fading germinal vesicles had reached by centrifugation. In the oocytes which failed to form polar bodies by centrifugation, an aster was observed near PSPBF of each oocyte. When inseminated, every oocyte treated with 1-MeAde developed normally irrespectively of the mode of polar body formation including the site and the occurrence, and the animal pole of every larva was derived from PSPBF.     

Distribution of Carbohydrates Recognized by the Lectins Euonymus europaeus and Concanavalin A in Monoxenic and Heteroxenic Trypanosomatids

We observed a wide distribution of the carbohydrate epitopes galactosylα(1–3) galactose (galα1–3 gal), α-glucoside, and α-mannoside in mono- and heteroxenic trypanosomatids by using fluorescein-labelled lectins of Euonymus europaeus (EE) and Concanavalin A (Con A) as well as sera from acute chagasic patients who have very high levels of anti-galα(1–3) gal antibodies. The direct fluorescence test for galα1–3 gal with EE was positive at minimum concentrations of 6 μg/ml for heteroxenic trypanosomatids and 0.7 μg/ml for monoxenic ones and for the plant parasite, Phytomonas. On the other hand, heteroxenic trypanosomatids that infect vertebrates bound ten-fold more Con A than monoxenic flagellates and Phytomonas. These data were confirmed in ELISA and Western Blot assays carried out with peroxidase-labelled EE and Con A. Euonymus europaeus recognized several glycoproteins in all trypanosomatids that we tested. Con A, however, recognized a glycoprotein cluster in heteroxenic protozoa, which ranging from 60–120 kDa, seemed to lack monoxenic parasites and Phytomonas. These findings suggest that α-D-mannose and α-D-glucose might play an important role in the interaction between trypanosomatids and vertebrate hosts.     

Oocyte-surface factor responsible for 1-methyladenine-lnduced oocyte maturation in starfish

Fully grown oocytes of the starfish Asterina pectinifera, undergo breakdown of their germinal vesicles and subsequent maturation on treatment with 1-methyladenine (1-MeAde). However, oocytes treated with seawater containing 0.010% Triton X-100 lost the capacity to respond to 1-MeAde and their germinal vesicles remained intact. These decapacitated oocytes once again ac-quired the capacity to respond to l-Me Ade when they were incubated in sea water containing the extract of fully grown oocytes treated with Triton X-100, from which the Triton X-100 was removed after extraction by means of Bio-Beads SM-2 (TXE). Recovery of the capacity was also observed after washing such TXE-treated oocytes with sea water. These results suggest that some factor (probably 1-MeAde receptor or its fragment), extracted from the oocyte surface (plasma mem-brane) by nonionic detergent, was reconstituted on the oocyte surface so that the capacity of the oocytes to respond to 1-MeAde was recovered. The factor was heat-stable and resistant to treat-ment with proteolytic enzymes.     

Concanavalin A-Induced Morphological Changes and Its Binding Sites in Starfish Follicle Cells as Revealed by Electron Microscopy

Concanavalin A (Con A) stimulates the production in starfish follicle cells of 1-methyladenine, a hormone which induces oocyte maturation. We have therefore investigated Con A-induced morphological changes and Con A-binding sites in the follicle cell using native Con A and horseradish peroxidase- or ferritin-labeled Con A (HRP-Con A, Fer-Con A). After isolated follicle cells were incubated with Con A (1 mg/ml), vacuoles, the Golgi complex and multivesicular body-like organelles (MVBs) became prominent in most of the cells. After follicle cells were prefixed and then incubated with Fer-Con A for 60 min, tagged ferritin was diffusely and randomly distributed as single or small clustered particles on the cell surface. The incubation of isolated follicle cells with Fer-Con A for 10 min before fixation resulted in numerous ferritin particles localized along the internalized membrane, and also in vacuoles, MVBs and small lysosome-like structures. After 60 min incubation with Fer-Con A, ferritin was further located in large lysosome-like structures and in vesicles near and in the Golgi area as well as in the organelles described above. HRP-Con A binding sites were also observed in vacuoles and MVBs of the intact cells.
These results suggest that Con A binds at first to the cell surface and causes rapid internalization and that membrane-bound Con A is easily endocytosed into vacuoles, MVBs and lysosome-like structures, and is later incorporated in some vesicles in the Golgi area.     

PRODUCTION OF 1-METHYLADENINE INDUCED BY CONCANAVALIN A IN STARFISH FOLLICLE CELLS

Concanavalin A (Con A) was found to induce maturation of oocytes with follicular envelopes in the starfish, Asterina pectinifera . Treating a Con A sample with 85% ethanol and heat revealed that the maturation-inducing activity of the sample was not due to possible contamination with 1-methyladenine, but to Con A itself. However, Con A had little maturation inducing effect on isolated oocytes from which the follicular envelope had been removed, suggesting that its effect is indirect and probably mediated by the follicle cells. When follicle cells were incubated in seawater containing Con A, a maturation-inducing substance was found to have been produced in the incubation medium. This was purified and identified as 1-methyladenine. Therefore it is concluded that Con A has the same capacity as GSS, a gonad-stimulating peptide hormone of neural origin, to induce production of the maturation-inducing substance. Other plant lectins such as phytohemagglutinin P and wheat germ agglutinin had little effect in inducing production of 1-methyladenine in follicle cells.     

Change in Intracellular Calcium Ions upon Maturation in Starfish Oocytes

A transient increase in intracellular Ca²⁺ upon maturation in starfish oocyte was revealed by light emission of aequorin microinjected into the cell. One minute application of 1-methyladenine (1-MeAde) to a limited area of the oocyte surface was sufficient to induce the Ca²⁺ transient over the entire cell though it did not induce the germinal vesicle breakdown (GVBD). Ten minutes application of 1-MeAde induced a similar Ca²⁺ transient followed by GVBD. Even when the transient increase of Ca²⁺ was inhibited by injecting EGTA into the oocyte, 1-MeAde treatment for a long period induced GVBD. These facts indicate that the Ca²⁺ increase is neither necessary nor sufficient for maturation of the starfish oocyte.
When the oocyte, which had been treated with 1-MeAde for 1 min at a limited area around the animal pole, was treated again with 1-MeAde for 10 min starting about 15 min after the first treatment, a Ca²⁺ transient similar to the first one was induced and was followed by GVBD. By contrast, in the oocyte treated with 1-MeAde at an area around the vegetal pole, neither Ca²⁺ transient nor GVBD was induced by the second treatment with 1-MeAde. These results indicate a difference in responsiveness to the hormone between the animal hemisphere and the vegetal hemisphere of the oocyte.     

Role of germinal vesicle material in producing maturation-promoting factor in starfish oocyte

In starfish, oocyte maturation is induced by 1-methyladenine (1-MeAde). 1-MeAde acts on the oocyte surface to produce a cytoplasmic maturation-promoting factor (MPF), which in turn brings about germinal vesicle breakdown and subsequent process of oocyte maturation. The participation of germinal vesicle material in the production of MPF was investigated with oocytes of the starfish, Asterina pectinifera. When enucleated oocytes or oocyte fragments without germinal vesicles were treated with 1-MeAde, MPF was found to be produced. However, the amount of MPF produced was small as compared with that in the case of intact oocytes with germinal vesicles. The capacity of the enucleated oocytes to produce MPF was restored when germinal vesicle material was injected. On the other hand, it has been known that the amount of MPF increases when MPF is injected into intact oocytes (amplification of MPF). However, in the case of enucleated oocytes such increase of MPF was no longer observed, suggesting that germinal vesicle material is required for MPF amplification.     

The kinetics of cellular commitment during stimulation of lymphocytes by lectins

The kinetics of cellular commitment in the stimulation of lymphocytes by concanavalin A (Con A) has been analyzed by measurement of DNA synthesis, autoradiography, and histologic staining techniques. If the competitive inhibitor α-methyl-D-mannoside (αMM) is introduced into cultures of mouse spleen cells at various times after the addition of Con A, there is a gradual decrease in its capacity to inhibit the lectin-stimulated incorporation of [³H]thymidine. Addition of the saccharide 20 h after exposure of the cells to Con A had no effect on the level of the cellular response to the lectin. With increasing periods of contact with Con A, the percentage of blast cells and the percentage of [³H]thymidine-labeled blast cells increased in parallel with the total radioactive thymidine incorporated while the average number of autoradiographic grains per labeled blast cell remained relatively constant. These observations suggest that the rising level of [³H]thymidine incorporation results from an increase in the number of cells that respond to lectin stimulation and become refractory to inhibition with αMM. Once such cells become committed, they synthesize DNA at a rate independent of the length of exposure to the lectin. The combined results indicate that mouse splenic lymphocytes are heterogeneous in their capacities to respond to Con A and that different cells require different induction periods to be stimulated.     

Facilitation of adenylate cyclase stimulation in macrophages by lectins.

Preincubation of guinea pig peritoneal macrophages with concanavalin A (Con A) markedly enhanced the accumulation of 3′,5′-cyclic-adenosine monophosphate (cAMP) in response to the adenylate cyclase (AC) stimulators prostaglandin E₁ (PGE₁) and isoproterenol (IP). Basal cAMP levels were not altered. Maximal enhancement of cAMP accumulation was induced by preincubation with 50–100 μg/ml Con A for 10 min at 37 °C. Con A-induced facilitation of macrophage responsiveness was prevented by α-methyl-d-mannoside (αMM). No facilitation was induced by the divalent derivative, succinyl-Con A or by Con A immobilized on Sepharose beads. Con A-induced facilitation developed normally in macrophages treated with the microfilament blocking agent, cytochalasin B. The responsiveness of macrophages to PGE₁ and IP was also augmented by phytohemagglutinin (PHA) but wheat germ agglutinin (WGA), soy bean agglutinin (SBA), pokeweed mitogen (PWM), and Lotus tetragonolobus lectin (LL) showed no enhancing effect. The effect of Con A on cAMP levels was the result of augmented cAMP synthesis and not of reduced degradation or a block in cAMP egress from the cells. Lectin-induced facilitation of AC stimulation could be mediated via one of the following mechanisms: (i) induction of receptor clustering; (ii) causing a conformational change in the receptors; (iii) inhibition of negative cooperativity; (iv) causing an increase in membrane fluidity; (v) disruption of microtubules by acting as a Ca²⁺ ionophore; or (vi) inactivation of a sugar-containing inhibitor of AC.