Adenosine 3'':5''-monophosphate content and actions in the division cycle of synchronized HeLa cells

The involvement of adenosine 3':5'-monophosphate (cAMP) in the regulation of the cell cycle was studied by determining intracellular fluctuations in cAMP levels in synchronized HeLa cells and by testing the effects of experimentally altered levels on cell cycle traverse. Cyclic AMP levels were lowest during mitosis and were highest during late G-1 or early S phase. These findings were supported by results obtained when cells were accumulated at these points with Colcemid or high levels of thymidine. Additional fluctuations in cAMP levels were observed during S phase. Two specific effects of cAMP on cell cycle traverse were found. Elevation of cAMP levels in S phase or G-2 caused arrest of cells in G-2 for as long as 10 h and lengthened M. However, once cells reached metaphase, elevation of cAMP accelerated the completion of mitosis. Stimulation of mitosis was also observed after addition of CaCl2. The specificity of the effects of cAMP was verified by demonstrating that: (a) intracellular cAMP was increased after exposure to methylisobutylxanthine (MIX) before any observed effects on cycle traverse; (b) submaximal concentrations of MIX potentiated the effects of isoproterenol; and (c) effects of MIX and isoproterenol were mimicked by 8-Br-cAMP. MIX at high concentrations inhibited G-1 traverse, but this effect did not appear to be mediated by cAMP. Isoproterenol slightly stimulated G-1 traverse and partially prevented the MIX-induced delay. Moreover, low concentrations of 8-Br-cAMP (0.10-100 muM) stimulated G-1 traverse, whereas high concentrations (1 mM) inhibited. Both of these effects were also observed with the control, Br-5'-AMP, at 10-fold lower concentrations.     

Elevations of intracellular cAMP result in a change in cell shape that resembles dome formation in cultured rat glomerular epithelial cells

Summary Cultured glomerular epithelial cells form a continuous monolayer of polyhedral-shaped cells. PGE₂ (1 μg/ml) in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine (MIX) markedly raises intracellular and medium cyclic AMP (cAMP) levels at 20 min (intracellular: MIX alone, 112 ± 6.6 pmol cAMP/mg protein, MIX plus PGE₂, 2252±63 pmol cAMP/mg protein; medium: MIX, 20.6±2.1 pmol cAMP/mg protein; MIX plus PGE₂, 117±3.8 pmol cAMP/mg protein). By 2 h, when cellular and medium cAMP levels were still elevated, the cells underwent a change in shape that was similar to dome formation (15 to 20% of the monolayer changing shape). Derivatives of cAMP [i. e. dibutyryl and 8-(4-chlorophenylthio)-cAMP], when added to the incubation medium also caused shape change in glomerular epithelial cells at 2 h; cAMP itself did not. The formation of domes has been used as a morphological indicator of the vertorial transport of salt and water in other cultured epithelial cells. This work was supported by grant AM 29787 from the National Institutes of Health, Bethesda, MD.     

Inhibition of prostacyclin synthesis in endothelial cells by methylisobutylxanthine is not mediated through elevated cAMP level

Methylisobutylxanthine (MIX) raised cAMP levels and inhibited prostacyclin synthesis and arachidonic acid release in endothelial cells from both pig aorta and human umbilical vein. These effects were reversible and dose dependent on MIX concentrations. Dibutyryl cAMP (3 mM) alone did not inhibit prostacyclin synthesis or arachidonic acid release. When added with MIX, dibutyryl cAMP did not enhance the inhibition elicited by MIX. MIX inhibited the formation of lysophospholipids, 1,2-diacylglycerol and phosphatidic acid in bradykinin-stimulated pig endothelial cells, suggesting that the inhibition of prostacyclin synthesis resulted from an apparent inhibition of both phospholipase A2 and phospholipase C. Other phosphodiesterase inhibitors, theophylline and mopidamole, also raised cAMP levels and inhibited arachidonic acid release. However, there was no correlation between cAMP levels and these inhibitions. Forskolin, an adenylate cyclase activator, elevated intracellular cAMP levels with no apparent inhibition on prostacyclin synthesis. We conclude that the inhibitory effect of MIX on phospholipase A2 and phospholipase C is probably through mechanisms other than the elevation of the cAMP level.     

Temporal sequence of cell shape changes in cultured rat sertoli cells after experimental elevation of intracellular cAMP

The ability of FSH and pharmacological agents to induce changes in the shape of cultured rat Sertoli cells has been studied by using time-lapse phase-contrast microscopy and scanning electron microscopy (SEM). Morphological studies were combined with an immunocytochemical method for the localization of cAMP in Sertoli cells and the results correlated with determinations of protein-bound cAMP in Sertoli cells. A variable number of Sertoli cells were converted from a flat, epithelial-like morphology into a stellate morphology after exposure to FSH, isobutyl-methylxanthine (MIX), dibutyryl cyclic AMP (db-cAMP) and an FSH-MIX mixture. The morphological changes followed a time- and biological agent-dependent alteration and recovery pattern. While a 120 min exposure to FSH induced shape changes in 38% of the cells, MIX, db-cAMP and FSH-MIX effected shape changes in 75 % of cells. The morphological conversion induced by MIX, db-cAMP and FSH-MIX persisted as long as these biological agents were present in the medium, whereas the effects induced by FSH alone were transient. The flat-to-stellate transition was preceded by an increase in intracellular protein-bound cAMP, a form of cyclic nucleotide which may account for cAMP immunoreactivity observed in morphologically responsive and non-responsive Sertoli cells. From these data and from previous experimental findings of androgen-binding protein (ABP) immunoreactivity in the cytoplasm of responsive and non-responsive Sertoli cells, we conclude that a surge of cAMP triggers a still undefined mechanism by which Sertoli cells modify their shape in coincidence with a progressive depletion of cytoplasmic secretory granules.     

Adipose conversion of 3T3-L1 cells in a serum-free culture system depends on epidermal growth factor, insulin-like growth factor I, corticosterone, and cyclic AMP.

A culture system for 3T3-L1 preadipocytes based on a serum-free chemically defined medium containing fetuin, transferrin, and pantothenate is described. In this system, adipose conversion depends on the following conditions. 1) In the presence of high insulin concentrations (1 microM), addition of corticosterone together with 1-methyl-3-isobutylxanthine (MIX) for not more than the first 4 days after confluence to the culture medium induces maximal adipose conversion within 12-14 days. MIX may be replaced by forskolin or permeable analogues of cAMP, indicating that its effect is due to elevated cellular cAMP levels. 2) At low insulin concentrations (1 nM), adipose conversion is reduced. Growth hormone or insulin-like growth factor I together with epidermal growth factor have to be present as a medium supplement together with corticosterone and MIX to get maximal adipose conversion. 3) The induction of adipose conversion by corticosterone and MIX in the presence of either high insulin concentrations or insulin-like growth factor I together with epidermal growth factor is accompanied by post-confluent mitoses. Inhibitors of DNA replication markedly reduce adipose conversion. Fibroblast growth factor and platelet-derived growth factor, although acting as potent mitogens on 3T3-L1 cells, do not support adipose conversion induced by corticosterone and MIX.     

The differential activation of ornithine decarboxylase in synchronized cultures maintained with a salts/glucose medium

Asparagine and cAMP caused differential activation of ornithine decarboxylase activity that was dependent upon the cell cycle phase of Chinese Hamster Ovary cells maintained with a salts/glucose medium. Prior to incubation in the salts/glucose medium, stationary phase cultures were stimulated to proliferate by refeeding with fresh complete growth medium. Induction of ornithine decarboxylase activity was dependent upon two conditions: (1) the salts/ glucose medium required supplementation with an appropriate amino acid and cAMP; (2) cultures had to be in late G1/early S phase when placed in the salts/glucose medium. Cultures in G0 phase had moderate capacity for ornithine decarboxylase enhancement but lost this capacity as they traversed into early G1 or into mid S phase. These results demonstrate the importance of the cell cycle in modulating the activation of ornithine decarboxylase by asparagine and cAMP.     

Vasoactive intestinal peptide and forskolin regulate proliferation of the HT29 human colon adenocarcinoma cell line.

Although several lines of evidence implicate cAMP in the regulation of intestinal cell proliferation, the precise role of this second messenger in the control of the human colon cancer cell cycle is still unclear. In order to investigate the role of cAMP in HT29 cell proliferation, we have tested the effect of vasoactive intestinal peptide (VIP) and forskolin on DNA synthesis and cell number, focusing on the time-dependent efficacy of the treatment. The cells were arrested in G0/G1 phase by incubation for 24 h in serum-free medium and proliferation was re-initiated by addition of either 85 nM insulin or 0.5% fetal calf serum. In the presence of fetal calf serum, G1/S transition was found to occur earlier than with insulin. Exposure of the HT29 cells to 10(-5) M forskolin in the early stages of growth induction (within 12 h from FCS addition or within 14 h from insulin treatment) resulted in a significant inhibition of DNA synthesis and a delayed entry in the S phase. By contrast, VIP (10(-7) M) was inhibitory only when added within a narrow window (10 to 12 h or 12 to 14 h following FCS or insulin addition, respectively). The difference in efficiency of forskolin and VIP to inhibit cell proliferation may be correlated with their own potency to promote long-lasting cAMP accumulation. The combination of VIP plus forskolin had synergistic effects on both cAMP accumulation and cell-growth inhibition. Taken together, our data indicate that cAMP may act at a step in the late G1 or G1/S transition.     

Reverse transformation of Chinese hamster ovary cells by methyl xanthines : Structure-function relationships

Using a number of drugs that increase cellular cAMP levels, alterations in the amount of cell surface fibronectin and other transformation parameters were studied in Chinese hamster ovary (CHO) cells. The drugs include db-cAMP, different methylxanthines (theophylline, aminophylline, methyl isobutyl xanthine (MIX), caffeine and theobromine), papaverine and cholera toxin. Methylxanthines that have a methyl group at the seventh position lack reverse transforming potential; those that lack a methyl group at the seventh position induced reverse transformation in CHO cells, causing an increase in surface fibronectin, cell substratum adhesive strength and anchorage dependence for growth. Further, as methyl xanthines are substituted in other positions different from the seventh position, the more efficient they become in restoring normal phenotypic properties; the later agents also induced low saturation density via a cytostatic state causing accumulation of cells in the S and G2 phases of the cycle in contrast to the G1 arrest of normal cells at low saturation density. db-cAMP and cholera toxin induced cell elongation but like caffeine and theobromine, did not induce surface fibronectin. The non-methylxanthine phosphodiesterase inhibitor papaverine induced neither cell elongation nor surface fibronectin but produced a cytostatic effect similar to aminophylline and MIX. These studies suggest that the reverse transformation properties fall into two groups: (a) Differentiation-related properties including cell morphology, parallel alignment and surface matrix fibronectin, etc.; (b) cell cycle-related properties-low saturation density, cell arrest at G1 phase and anchorage-dependent growth. Phosphodiesterase inhibitors reversibly eliminate indefinite division potential of CHO cells by inducing a cytostatic situation and not by inducing a G1-specific arrest.     

Regulation of murine oocyte meiosis: evidence for a gonadotropin- induced, cAMP-dependent reduction in a maturation inhibitor

We have developed an assay that can detect relative changes in the amount of a non-cAMP inhibitor of maturation present in cumulus cells (Eppig et al., 1983, Dev. Biol., 100:39-49). Using this assay in which accelerated maturation of a group of treated cumulus cell-oocyte complexes relative to untreated complexes indicates a decrease in the amount of inhibitor, results of the experiments described here suggest a possible relationship between elevation of cAMP levels and subsequent decreased amounts of a non-cAMP inhibitor. Mouse oocytes obtained from cumulus cell-oocyte complexes treated with luteinizing hormone (LH) resumed meiosis prior to oocytes obtained from untreated complexes; the degree of acceleration of maturation was dependent on LH concentration. A similar result was obtained with follicle-stimulating hormone (FSH). Correlated with LH- or FSH-acceleration of maturation was an LH- or FSH-induced elevation of cumulus cell cAMP levels. Inhibiting LH-induced elevation of cumulus cell cAMP levels inhibited LH-induced acceleration of maturation. An initial incubation of complexes in medium containing dibutyryl cAMP (dbcAMP) also promoted acceleration of maturation. In contrast, maturation of denuded oocytes was not altered by treatment with either LH, FSH, or dbcAMP. Complexes initially incubated in dbcAMP-containing medium still demonstrated acceleration of maturation after a subsequent 2 h incubation in dbcAMP-free medium. Relative to untreated complexes, none of these treatments disrupted intercellular communication between cumulus cells and the oocyte. Elevating follicle cAMP levels with cholera toxin induced maturation of follicle-enclosed oocytes when cumulus cell-oocyte coupling was still fully maintained. These results are interpreted to indicate that gonadotropin-mediated acceleration of maturation is via a cAMP-dependent reduction in the level of a maturation inhibitor present in granulosa/cumulus cells.     

Cyclic AMP dependent regulation of mitosis in human lymphoid cells

Intracellular levels of cyclic AMP (cAMP), cAMP-dependent phosphodiesterase activity, and adenylate cyclase activity are examined in an established line of human lymphoid cells synchronized by either excess thymidine or by colcemid treatment. cAMP levels and adenylate cyclase activities during the two G periods are high when compared with the values in M. cAMP-dependent phosphodiesterase activity, which is low during early G 2, is shown to increase during G 2 and reach a maximum activity during M. Agents such as dibutyryl cAMP, 1-methyl-3-isobutyl xanthine, noradrenaline, and isopropyl noradrenaline, which increase the levels of intracellular cAMP were examined to determine their effects on mitosis and on DNA synthesis. In thymidine-synchronized cells the onset of mitosis is prevented by increasing or maintaining high levels of cAMP during G 2. The specificity of inhibition of DNA synthesis or mitosis by dibutyryl cAMP is a function of the time, during the cell cycle, when the analogue is added. The elevation of cAMP by methyl xanthine results in a more general inhibition of nucleic acid synthesis and mitosis. Although both catecholamine hormones inhibit mitosis, isopropylnoradrenaline also inhibits DNA synthesis while noradrenaline treatment does not result in such inhibition.     

TGF-beta-induced G2/M delay in proliferating rabbit articular chondrocytes is associated with an enhancement of replication rate and a cAMP decrease: possible involvement of pertussis toxin-sensitive pathway.

This study was undertaken to gain more insight into the mechanism whereby TGF-beta influences the cell cycle progression of cultured rabbit articular chondrocytes. Using proliferating chondrocytes in fetal calf serum-containing medium, we have previously shown that TGF-beta induced a recruitment of cells at the end of the S phase (G2/M) observed 24 h after addition. The delayed cells may then be released, producing a proliferative effect at 48 h, provided a substantial amount of FCS (10%) is present in the medium. Otherwise, in low level of serum (2% FCS, for example), only inhibition of cell proliferation is observed. In chondrocytes synchronized in S phase by a thymidine block, we investigated here the time-course incorporation of [3H]-thymidine into DNA, the cell cycle traverse by flow cytofluorometric study of DNA content, the expression of PCNA (Proliferating Cell Nuclear Antigen), and cAMP levels. The data demonstrate that TGF-beta provoked a decrease of cAMP content (0.5-1 h) followed by an enhancement of the DNA synthesis rate (4 h) which was detectable through cytofluorometric analysis and [3H]-thymidine labeling and correlated with the PCNA expression. In contrast, addition of cAMP analogues to the cultures resulted in an inhibition of replication rate. We also showed that pertussis toxin produced a decrease of the DNA synthesis rate, in a transient manner and only in the presence of TGF-beta. All these results suggest that TGF-beta may accelerate the replication process of cyclized chondrocytes, making then accumulate at the G2/M boundary, via a mechanism that could involve the adenylate cyclase activity and a Gi-protein. The factor might be responsible for producing a pool of cells having already replicated their DNA and therefore capable of re-entering the cell cycle without delay. This cell population could serve as a tissue reserve able to induce a mitosis wave when necessary--for example, in the repair of tissue damage.     

A possible role for cyclic GMP in mediating the effect of luteinizing hormone releasing hormone on gonadotropin release in dispersed pituitary cells of the female rat.

In continuing studies on cyclic nucleotide involvement in the regulation of gonadotropin release, we have measured the cyclic nucleotide content and rate of LH and FSH release during stimulation by LHRH of dispersed overnight cultured cells from the pituitaries of adult female rats. The minimal effective concentration of LHRH was 0.1 nM and half maximal stimulation of gonadotropin release was observed in the presence of 1.0 nM LHRH. Significant release of both LH and FSH was detectable after only 10 min in the presence of 5 nM LHRH. The presence of fetal calf serum (FCS) in the overnight culture medium increased basal cGMP levels significantly, whereas horse serum (HS) had no effect, therefore all experiments were conducted on cells cultured in the presence of HS. Treatment of the cultured cells with the phosphodiesterase inhibitors theophylline (TH) or isobutyl-methyl-xanthine (MIX) revealed a preferential stimulatory effect of TH on basal cAMP levels and of MIX on cGMP levels. Throughout these experiments, LHRH had no effect on cAMP levels. In the presence of MIX, concentrations of the releasing hormone as low as 1 nM induced a significant rise in the level of cGMP whereas in its absence, cGMP levels appeared to be unchanged by LHRH. The increase was detectable after 10 min of incubation. MIX alone slightly increased LH and FSH release and significantly potentiated the response of the cells to increasing doses of LHRH up to, but not beyond, 10 nM. The data support the possibility that cGMP may be involved in the mechanism of action of LHRH.     

Messenger RNAs coding for enzymes of polyamine biosynthesis are induced during the G0-G1 transition but not during traverse of the normal G1 phase

The events occurring during emergence of cells from quiescence ("G0") are not necessarily identical to those in the G1 phase of continuously dividing cells. Cellular levels of the mRNAs coding for ornithine decarboxylase (ODC) and S-adenosyl-methionine decarboxylase (SDC), key enzymes in polyamine synthesis, increased maximally within 5 h after addition of serum to resting 3T3 cells, following a kinetic course similar to that of c-myc mRNA. In a pure early G1 population of cells, prepared by centrifugal elutriation of growing fibroblasts, the levels of ODC and SDC mRNAs were not significantly lower than in other phases of the cell cycle and approximated serum-induced levels rather than the reduced values found in serum-starved cells. Thus, we conclude that the mRNAs coding for the polyamine biosynthetic enzymes, like c-myc, are growth controlled, but not regulated during traverse of a normal cell cycle.     

H-ras gene is expressed at the G1 phase in primary cultures of hepatocytes

The expression of c-H-ras and proliferating cell nuclear antigen (PCNA) in primary cultures of rat hepatocytes was determined in order to elucidate the relationship between the c-H-ras gene and the S phase of the cell cycle. In cells treated with EGF, elevation of c-H-ras expression was detected at the 22nd, 34th, 44th, and 54th h after plating, PCNA expression and DNA synthesis were detected at the 44th and 54th h. In cells without EGF treatment, only c-H-ras expression was detected at the 44th and 54th h. In our previous report, we showed that c-myc expression increased within several hours after plating, suggesting that isolated hepatocytes traverse from G0 to G1 under culture conditions, regardless of EGF treatment. These results clearly showed that the c-H-ras gene of adult rat hepatocytes was expressed in the mid-to-late G1 phase of the cell cycle as well as in the early S phase in primary culture.     

Calcium Dependence of Vasoactive Intestinal Peptide-Stimulated Cyclic AMP Accumulation in Rat Hippocampal Slices

Previous work has shown that incubation of hippocampal slices in medium without added calcium markedly attenuates the capacity of vasoactive intestinal peptide (VIP) to elevate cyclic AMP levels. The present studies examined the mechanism that confers calcium dependence on VIP stimulation of cyclic AMP accumulation in hippocampal slices. Calcium dependence was apparent immediately on slice preparation and was reversible only if calcium ions were added back very early during slice incubation (within 5 min). The cyclic AMP response to VIP was not abolished by preincubating slices in 100 microM adenosine, suggesting that calcium-dependent, VIP-induced release of adenosine does not mediate VIP elevation of cyclic AMP. VIP-stimulated cyclic AMP accumulation was not decreased by agents that block calcium influx (verapamil, nifedipine, magnesium ions), or by calmodulin antagonists (trifluoperazine, calmidozolium). In fact both verapamil (100 microM) and magnesium (14 mM) augmented VIP stimulation of cyclic AMP generation. Incubation of slices with the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine (MIX) did not affect VIP activation of cyclic AMP accumulation if slices were incubated without added calcium, but MIX did enhance VIP elevation of cyclic AMP content in slices incubated with calcium. Thus calcium dependence of the cyclic AMP response to VIP in hippocampal slices is unlikely to result from VIP-dependent calcium influx, from interactions with calmodulin, or from calcium-inhibited phosphodiesterase(s).(ABSTRACT TRUNCATED AT 250 WORDS)     

Various stimulators of the cyclic AMP pathway fail to promote adipose conversion of porcine preadipocytes in primary culture

The cyclic adenosine-monophosphate (cAMP) pathway is generally recognized as one of the essential pathways for the adipose conversion of rodent preadipocytes in vitro. However, divergent effects of cAMP on adipocyte differentiation have also been reported. Since there is very little data on non-rodent preadipose cells, the aim of the present work was to analyze the effects of classic activators of the cAMP pathway on the proliferation and differentiation of porcine preadipocytes grown either in serum-free or in serum-containing medium. In both media, the addition of 10 microM forskolin from day 1 after cell plating to day 3 or 7 did not affect cell proliferation. Such stimulations also failed to enhance preadipocyte differentiation, as assessed by the measurement of lipoprotein lipase (LPL) and glycerol 3-phosphate dehydrogenase (GPDH) activities, two markers of adipose conversion. Similar results were obtained when various concentrations of forskolin (0.1 nM-100 microM) were added for 2 days either during the growth phase (days 1-3) or after confluence (days 5-7). Addition of methylisobutylxanthine (MIX) or 8-bromo-cAMP was also found inefficient to stimulate porcine preadipocytes differentiation clearly. By contrast, post-confluence treatment of the murine 3T3-L1 cell line with either forskolin or MIX markedly enhanced lipid accumulation and led to a dramatic increase in GPDH activity (up to 120 times). This indicates that similar culture conditions are adipogenic for the murine 3T3-L1 preadipocytes but not for porcine preadipose cells. In summary, this work clearly highlights the finding that porcine preadipocytes do not respond to classic activators of the cAMP pathway like rodent cells do. This calls in question again the general model proposed for the action of this pathway in adipose conversion and suggests that the mechanisms regulating adipocyte differentiation may differ among species.     

Lack of evidence of chalone activity in used medium and extract of JB-1 tumor cells in vitro. A flow cytometry study.

In cell-free mouse ascites fluid from the JB-1 ascites tumor in the plateau phase of growth low-molecular chalone substances have been found which reversibly and specifically arrest JB-1 cells in the G1 and G2 phase of the cell cycle. The aim of this study was to investigate whether chalones were involved in the regulation of in vitro growth of JB-1 tumor cells. Used medium and cell extract from confluent, stationary JB-1 cell cultures were investigated for proliferation-inhibitory properties. JB-1 cells from stationary cultures were explanted in test cultures and the traverse of cells through the S phase was investigated by means of flow cytometry (FCM). Inhibition--expressed as a delay of the traverse of cells through the S phase--was not observed when a surplus of used medium, concentrated and fractionated used medium or concentrated and fractionated cell extract from JB-1 cells in vitro was added to test cultures. On the contrary, used medium and concentrated and fractionated used medium stimulated growth. Thus, no involvement of chalones in the growth regulation of JB-1 tumor cells in vitro was detected.     

Total disappearance of cell proliferation in the lens of a hypophysectomized animal: in vivo and in vitro maintenance of inhibition with reversal by pituitary factors.

Cell cycle kinetics of lens epithelium were studied in frogs following hypophysectomy, and subsequent replacement therapy with bovine growth hormone (bGH). Hypophysectomy led to a complete absence of cells in DNA synthesis and mitosis within 4 weeks. A small number of G2 nuclei was present in all preparations, but the number was much reduced with time after surgery. Occasional preparations with a significant G2 population were encountered. The major block to cycle traverse appeared to be in the G0-G1 segment. Mechanical injury to the lenses of hypophysectomized animals caused the cells to move closer to S without, however, reaching it. The in vivo block to cycle traverse persisted in organ-cultured lenses maintained in medium containing serum of hypophysectomized animals. The block to cycle traverse was reversed when the lenses were cultured in medium containing the serum of hypophysectomized animals that received replacement therapy with bGH. The serum became effective between 1 and 2 days after the star of replacement therapy. The lens epithelial cells from hypophysectomized frogs incur a deficit such that a protracted prereplicative phase is detected when favourable growth conditions are restored.     

Regulation of abalone sperm cyclic AMP concentrations and the acrosome reaction by calcium and methylxanthines

When Ca2+ is added to abalone sperm (Haliotis rufescens) in Ca2+-free artificial seawater (CaFASW) to a final concentration of 9.6 mM a 4-fold elevation in sperm cAMP occurs within 15-30 sec. The methylxanthines, theophylline and 1-methyl-3-isobutylxanthine (MIX), also elevate sperm cAMP concentrations. In CaFASW, either compound causes up to a 3-fold increase in cAMP within 15-30 sec. MIX (150 microM), added to sperm in the presence of 9.6 mM Ca2+, elevates sperm cAMP 100-fold within 15-30 sec and also triggers the acrosome reaction (AR) in the same period. Under identical conditions theophylline (1.67 mM) is much less potent at elevating cAMP and inducing the AR. The effects of methylxanthines on cAMP of sperm incubated in the presence of Ca2+ appear to represent a potentiation by these compounds of the action of Ca2+. Neither compound induces the AR in the absence of Ca2+. All of the observed effects on sperm cAMP and the AR are dependent on Ca2+ and methylxanthine concentrations. Added cyclic nucleotides or their derivatives do not induce the AR in either the absence or presence of Ca2+. Experiments with isolated sperm heads and flagella indicate that the dramatic stimulatory response of sperm cAMP to Ca2+ plus MIX is present in the head region (acrosome, nucleus, midpiece) of the cell. The data suggest that the dramatic elevation of cAMP by MIX in the presence of Ca2+ may occur directly by an inhibition of phosphodiesterase activity and indirectly by an increase in cellular Ca2+. A strong temporal correlation between the cAMP elevation and the abalone AR exists, although cAMP elevation by itself does not act as the primary mediator of this exocytotic event.