Recovery from ethyl methanesulphonate-induced genetical damage in barley. Independence of sodium azide treatment

Barley seeds were treated for 3 h at 25°C with 240 mM ethyl methanesulphonate (EMS), washed for 18 h, treated with various concentrations of unbuffered sodium azide (pH 6.7–7.3) for 3 h at 25°C, re-dried to 30% water content and either sown immediately or stored at 25°C for 12 days and then sown. The synergistic action of sodium azide post-treatment has been demonstrated only for the EMS-induced M₁ germination reduction, while the EMS-induced M₁ sterility and the yield of M₂ chlorophyll mutants were unaffected. The ?storage” recovery from EMS-induced mutagenic effects was insensitive to sodium azide post-treatment. The 12 day-seed storage at 25°C brought about an improvement of M₁ germination, M₁ survival, M₁ fertility and a decrease in the amount of M₂ mutants, regardless of whether sodium azide post-treatment was applied or not.     

Additive coclastogenicity of sodium selenite and caffeine in CHO cells treated withN-methyl-N′-Nitro-N-Nitrosoguanidine

The clastogenic effect ofN-methyl-N′-nitro-N-nitrosoguanidine (MNNG) in Chinese hamster ovary (CHO) cells and its modulation by Na₂SeO₃ and caffeine were studied by metaphase analysis of chromosome aberrations (CA) as well as by measuring the formation and repair of single-strand (ss) DNA breaks employing hydroxylapatite chromatography. Treatment of CHO cells with MNNG (1.25 or 2.5 × 10-5M) for 3 h caused CA in 11 and 19% of metaphases scored, respectively. Pretreatment of cells with Na₂SeO₃ (1–5 μg/mL) or caffeine (0.2–2.0 mg/mL) for 2 h resulted in a 2–3.5-fold increase of CA frequency. Addition of both modulators during the mutagen exposure tended to cause a slight inhibition of clastogenic activity of MNNG (1.25 × 10⁻⁵ M) or had no effect on CA number when MNNG was used at a concentration of 2.5 × 10−5M. Posttreatment of CHO cells with Na₂SeO₃ for 20 h after MNNG was ineffective in influencing the number of metaphases with CA, whereas, at these conditions, caffeine enhanced up to 6-7-fold the clastogenic activity of MNNG. Addition of both modulators during the whole experiment, 2 h pretreatment included, resulted in a further significant increase of CA frequency up to the total pulverization of chromosomes in all metaphases scored. The coclastogenic effect of caffeine was greater in this case. The enhancement of chromosome-damaging activity of MNNG by selenite and caffeine was better expressed when this carcinogen was applied at the higher concentration used. An additive coclastogenic effect was observed in CHO cells treated simultaneously with Na₂SeO₃ and caffeine plus MNNG. In addition, the treatment of CHO cells with MNNG (5 × 10⁻⁶ M) caused a rapid increase of ssDNA breaks number reaching maximal values after 30–45 min. However, up to 50–60% of MNNG-induced ssDNA breaks were repaired during the first 60–150 min after the mutagen exposure. The 2 h pretreatment of CHO cells with Na₂SeO₃ (2 μg/mL) or the addition of this trace element after MNNG had no effect on formation and repair of MNNG-induced ssDNA breaks. The coclastogenic effect of Na₂SeO₃ in CHO cells treated with MNNG was not directly linked to the induction and disappearance of ssDNA breaks measured by hydroxylapatite chromatography.     

Complex interactions of caffeine and its structural analogs with ultraviolet light in cell killing

We measured the clonogenic survival response of cultured mouse $\text{10}\text{T}{}^{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ cells exposed to UV light and caffeine post-treatment. When 0.5 and 1 mM caffeine were present for 24 h immediately following UV, the D₀ values of the biphasic survival curves suggest that one subpopulation was sensitized and one subpopulation was protected from killing by UV light. A cloned survivor from the radioprotected subpopulation responded to UV plus caffeine in identical manner as the parent cells. When the caffeine exposure was prolonged to 48 h, only the radiosensitizing effect was observed. Two demethylated analogs of caffeine were also tested. The response of $\text{10}\text{T}{}^{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ cells to 1 mM theophylline present for 24 h after UV irradiation was approximately the same as that for the same treatment with 1mM caffeine. However, prolonging the theophylline exposure to 48 h failed to produce the same kind of potentiation of cell killing as that observed for caffeine. Xanthine by itself was as toxic to $\text{10}\text{T}{}^{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}$ cells as caffeine, but had no synergistic effect as caffeine when given to UV-irradiated cells for 24 or 48 h. It is therefore unlikely that all the effects of caffeine on UV-irradiated cells are mediated by its demethylated metabolites.     

The effect of post-treatment with caffeine on survival and UV-induced mutation frequencies in Chinese hamster and mouse lymphoma cells in vitro

The effect of post-treatment with caffeine on the survival of a number of cell lines after UV-irradiation has been studied. The mouse lymphoma cell lines P388 and L5178YS were sensitized by caffeine but only after UV doses of 50 erg/mm² and above. V79 cells also showed sensitization by caffeine but CHO cells and two cell lines YS and YR derived from Yoshida sarcoma of rats, sensitive and resistant to UV radiation, respectively, showed no effect.P388 and V79 cells were both mutable by UV, and caffeine, when studied at a single expression time (42–48 h) and at a single dose level (0.5 M and 0.75 M, respectively) suppressed the UV-induced mutation frequency in both cell lines. L51788YS cells although sensitized by caffeine showed no increase in frequency of thymidine-resistant (TdR^r) colonies when irradiated with UV.On more detaled examination, caffeine was found to delay the expression of UV-induced mutations inV79 cells, and the delay was dependent on the dose of caffine used. The effect on expression time was less when caffeine was present 0–48 h than when it was present throughout the post-irradiation incubation period. Similar results were obtained in P388 cells.The data are discussed in relation to those of other workers and to the concept that caffeine inhibits an error prone post-replication repair process in mammalian cells     

THE EFFECTS OF CAFFEINE ON OXYGEN CONSUMPTION AND CELL DIVISION IN THE FERTILIZED EGG OF THE SEA URCHIN,ARBACIA PUNCTULATA

1. By means of the Warburg-Barcroft microrespirometer apparatus and the Warburg direct method, the relative effect of caffeine upon the O₂ consumption of the fertilized egg of Arbacia punctulata was shown for the following concentrations in sea water: 0.002 per cent (M/10,000), 0.004 per cent (M/5,000), 0.02 per cent (M/1,000), 0.1 per cent (M/200), 0.2 per cent (M/100), 0.5 per cent (M/40), and 2 per cent (M/10). 2. In comparison with the normal eggs (uninhibited, non-caffeine-treated controls), caffeine in concentrations including and greater than 0.1 per cent (M/200) depressed the average uptake from approximately 25 to 61 per cent over the 3 hour period. In a number of instances, as typified by Experiment 10, the effective inhibitory concentration ranged from 0.02 per cent (M/1,000) upward and the degree of depression of the O₂ consumption ranged from 10.6 per cent to 60.6 per cent. 3. All caffeine concentrations including and above 0.02 per cent (M/1,000) in the series used, resulted in decreasing the normal rate of cleavage division in the fertilized Arbacia eggs. 4. The higher concentrations (0.5 and 2 per cent) produced a complete blockage of the cleavage process. 5. Complete cleavage inhibition was noted only when the O₂ uptake had been depressed to 50 per cent or more of the normal controls. 6. O₂ consumption-time relationship data indicate an average depression, in O₂ consumption over a 3 hour period, ranging from 25 per cent with a caffeine concentration of 0.1 per cent to a 61 per cent inhibition with a concentration of 2 per cent. 7. Concentrations of less than 0.1 per cent (certainly of less than 0.02 per cent) give variable results and indicate no significant effect. 8. It is inferred from the respiration data presented that it is probable that the inhibition of the O₂ consumption in fertilized Arbacia eggs is due to the influence of caffeine upon the main (activity or primary) pathway. It will be observed that there are certain similarities of the caffeine data to the degree of inhibition accomplished by sodium cyanide. Moreover, it has been demonstrated that the cyanide probably acts on the cytochrome oxidase step in the cytochrome oxidase-cytochrome chain of reactions constituting the O₂ uptake phase of respiratory metabolism. It is not improbable, therefore, that caffeine also may act upon the cytochrome oxidase enzyme. 9. From the viewpoint of environmental conditions influencing reproductive phenomena, it is of interest that caffeine can affect the normal metabolism of the zygote.     

Failure of caffeine to influence induced mutation frequencies and the independence of cell killing and mutation induction in V79 Chinese hamster cells

Using V79 Chinese hamster cells and replating assay, no effect of caffeine post-treatment on spontaneous or UV- or EMS-induced mutation frequencies to 8-azaguanine resistance was demonstrable. However, considerable potentiation of cell killing was observed. Previous reports that caffeine enhances induced mutation frequencies are explained by an artefact in the in situ method used; a similar artefact may also explain the cumulative in situ mutation dose-responde curves. Furthermore, the relationship between mutation induction and dose has been shown to be qualitatively distinct from that between cell killing an dose. These differences suggest that cell killing and mutation induction are mediated via independent mechanisms and that pre-mutational lesions may be qualitatively distinct from pre-lethal lesions.     

Perinatal Caffeine,Acting on Maternal Adenosine A1 Receptors,Causes Long-Lasting Behavioral Changes in Mouse Offspring

Background

There are lingering concerns about caffeine consumption during pregnancy or the early postnatal period, partly because there may be long-lasting behavioral changes after caffeine exposure early in life.

Methodology/Principal Findings

We show that pregnant wild type (WT) mice given modest doses of caffeine (0.3 g/l in drinking water) gave birth to offspring that as adults exhibited increased locomotor activity in an open field. The offspring also responded to cocaine challenge with greater locomotor activity than mice not perinatally exposed to caffeine. We performed the same behavioral experiments on mice heterozygous for adenosine A₁ receptor gene (A₁RHz). In these mice signaling via adenosine A₁ receptors is reduced to about the same degree as after modest consumption of caffeine. A₁RHz mice had a behavioral profile similar to WT mice perinatally exposed to caffeine. Furthermore, it appeared that the mother''s genotype, not offspring''s, was critical for behavioral changes in adult offspring. Thus, if the mother partially lacked A₁ receptors the offspring displayed more hyperactivity and responded more strongly to cocaine stimulation as adults than did mice of a WT mother, regardless of their genotype. This indicates that long-term behavioral alterations in the offspring result from the maternal effect of caffeine, and not a direct effect on fetus. WT offspring from WT mother but having a A₁R Hz grandmother preserved higher locomotor response to cocaine.

Conclusions/Significance

We suggest that perinatal caffeine, by acting on adenosine A₁ receptors in the mother, causes long-lasting behavioral changes in the offspring that even manifest themselves in the second generation.     

Agonist-Evoked Ca2+ Mobilization from Stores Expressing Inositol 1,4,5-Trisphosphate Receptors and Ryanodine Receptors in Cerebellar Granule Neurones

Abstract: The mechanisms involved in Ca²⁺ mobilization evoked by the muscarinic cholinoceptor (mAChR) agonist carbachol (CCh) and N-methyl-d -aspartate (NMDA) in cerebellar granule cells have been investigated. An initial challenge with caffeine greatly reduced the subsequent intracellular Ca²⁺ concentration ([Ca²⁺]_i) response to CCh (to 45 ± 19% of the control), and, similarly, a much reduced caffeine response was detectable after prior stimulation with CCh (to 27 ± 6% of the control). CCh-evoked [Ca²⁺]_i responses were inhibited by preincubation with thapsigargin (10 µM), 2,5-di(tert-butyl)-1,4-benzohydroquinone (BHQ; 25 µM), ryanodine (10 µM), or dantrolene (25 µM). BHQ pretreatment was found to have no effect on the sustained phase of the NMDA-evoked [Ca²⁺]_i response. Both CCh (1 mM) and 1-aminocyclopentane-1S,3R-dicarboxylic acid (ACPD; 200 µM) evoked a much diminished increase in [Ca²⁺]_i in granule cells pretreated with CCh for 24 h compared with vehicle-treated control cells (CCh, 23 ± 14%; ACPD, 27 ± 1% of respective control values). In contrast, a 24-h CCh pretreatment decreased the subsequent inositol 1,4,5-trisphosphate (InsP₃) response to CCh to a much greater extent compared with responses evoked by metabotropic glutamate receptor (mGluR) agonists; this suggests that the former effect on Ca²⁺ mobilization represents a heterologous desensitization of the mGluR-mediated response distal to the pathway second messenger. Furthermore, [Ca²⁺]_i responses to caffeine and NMDA were unaffected by a 24-h pretreatment with CCh. This study indicates that ryanodine receptors, as well as InsP₃ receptors, appear to be crucial to the mAChR-mediated [Ca²⁺]_i response in granule cells. As BHQ apparently differentiates between the CCh- and NMDA-evoked responses, it is possible that the directly InsP₃-sensitive pool is physically different from the ryanodine receptor pool. Also, activation of InsP₃ receptors may not contribute significantly to NMDA-evoked elevation of [Ca²⁺]_i in cerebellar granule cells. A model for the topographic organization of cerebellar granule cell Ca²⁺ stores is proposed.     

Influence of caffeine and 3-aminobenzamide in G2 on the frequency of chromosomal aberrations induced by thiotepa,mitomycin C and N-methyl-N-nitro-N′-nitrosoguanidine in human lymphocytes

The effects of post-treatments with caffeine in G₂ on the frequency of chromosomal aberrations induced by thiotepa, mitomycin C and N-methyl-N-nitro-N′-nitrosoguanidine were studied in human lymphocytes. Caffeine was found to potentiate the frequency of chromatid aberrations induced by all 3 S-dependent agents tested; the most striking enhancement being obtained when caffeine was present during the last 1.5 h before harvesting. Post-treatments in G₂ with 3-aminobenzamide had no influence on the aberration frequency induced by thiotepa and N-methyl-N-nitro-N′-nitrosoguanidine.     

Chronic Effects of Xanthines on Levels of Central Receptors in Mice

1.Chronic ingestion of caffeine causes a significant increase in levels of A₁-adenosine, nicotinic and muscarinic receptors, serotonergic receptors, GABA_A receptors and L-type calcium channels in cerebral cortical membranes from mice NIH Swiss strain mice.2.Chronic theophylline and paraxanthine had effects similar to those of caffeine except that levels of L-type channels were unchanged. Chronic theobromine, a weak adenosine antagonist, and 1-isobutyl-3-methylxanthine (IBMX), a potent adenosine antagonist and phosphodiesterase inhibitor, caused only an increase in levels of A₁-adenosine receptors. A combination of chronic caffeine and IBMX had the same effects on receptors as caffeine alone. Chronic 3,7-dimethyl-1-propargylxanthine (DMPX), a somewhat selective A_2A-antagonist, caused only an increase in levels of A₁-adenosine receptors. Pentoxyfylline, an adenosine-uptake inhibitor inactive at adenosine receptors, had no effect on receptor levels or calcium channels.3.A comparison of plasma and brain levels of xanthines indicated that caffeine penetrated more readily and attained somewhat higher brain levels than theophylline or theobromine. Penetration and levels were even lower for IBMX, paraxanthine, DMPX, and pentoxyfylline.4.The results suggest that effective blockade of both A₁ and A_2A-adenosine receptors is necessary for the full spectrum of biochemical changes elicited by chronic ingestion of xanthines, such as caffeine, theophylline, and paraxanthine.     

Cyclic nucleotides modulate lipoxygenase activity and reproduction in oomycetes

Previous studies in our laboratory demonstrated that epoxy alcohols produced from C₂₀ fatty acids by lipoxygenase activity are associated with maintaining vegetative growth. We have also shown the specific down-regulation of lipoxygenase activity in reproductively competent oomycetes in response to cues which trigger reproduction. Other workers have suggested that cyclic nucleotides may also play a role in the switch between vegetative and reproductive growth of fungi. Reproductive activity was assayed in Achlya americana. Oogonium production was eliminated or reduced in the presence of cAMP, dibutyryl cAMP (0.5 mM), or the phosphodiesterase inhibitors caffeine (0.1, 1 mM) and theophylline (1 mM) and increased by 0.5 mM cGMP. Levels of cAMP were significantly higher in vegetative mycelium and were increased fourfold by exposure to 0.1 mM caffeine. These data suggest that an accumulation of cAMP inhibits reproductive activity while cGMP promotes it. Lipoxygenase activity was determined in the presence of cAMP, cAMP phosphodiesterase inhibitors, and cGMP to determine the interaction between cyclic nucleotides and lipoxygenase activity. Lipoxygenase activity in reproductive mycelium of A. americana or Saprolegnia ferax was reduced compared to vegetative mycelium. Lipoxygenase activity of cultures grown and starved in the presence of cAMP (0.5 mM) or caffeine (0.1 mM) showed significant increases over the comparably treated reproductive controls. Exposure to cGMP had no affect on lipoxygenase activity in A. americana. These data suggest that cAMP may maintain vegetative growth by maintaining relatively high lipoxygenase activity levels while the reproduction promoting effect of cGMP is not via lipoxygenase activity down-regulation. Adenylate cyclase activity was significantly higher in vegetative, compared to reproductive, mycelium of both A. americana and S. ferax. Elevated adenylate cyclase activity in vegetative mycelium supports the hypothesis that cAMP maintains vegetative growth by maintaining high lipoxygenase activity.     

Effects of caffeine or EDTA post-treatment on EMS mutagenesis in soybean

Seeds of soybean cultivar LD4 were mutagenically treated with EMS (0.3, 0.5, 0.6, 0.9, 0.5 and 1.8%) for 3 h only or plus caffeine (50 mM) or EDTA (1 mM) post-treatment for 5 h. The experimental results indicated that: (1) of the different concentrations of EMS treatment, the M2 mutation frequency induced with 0.6% EMS was the highest (9.7%). When the EMS concentration was over 0.9%, the mutation frequency decreased rapidly. (2) Of the EMS treatments plus caffeine or EDTA post-treatment, the mutagenic effect of 0.6% EMS was the best for inducing morphological variations. Caffeine post-treatment decreased notably the mutation frequency of EMS treatment; when concentrations of EMS were very high (1.5% and 1.8%), mutation frequencies of EDTA post-treatment were still 5.0% and 4.88%, but no mutants were found in EMS treatment or plus caffeine post-treatment. (3) In the M2 mutation spectrum, 11 kinds of mutant types were observed in EMS treatment or plus caffeine or EDTA post-treatment. Relative frequencies of some mutant types (growth period, plant height, grain size, leaf shape and sterility, etc.) were similat among the three treatments, but EDTA post-treatment could change the relative frequencies of yield characteristics (number of pods and grains, grain weight/plant) induced by EMS treatment only.     

Muscarinic acetylcholine receptor compounds alter net Ca<Superscript>2+</Superscript> flux and contractility in an invertebrate smooth muscle

Responses of a holothurian smooth muscle to a range of muscarinic (M₁ to M₅) acetylcholine receptor (mAChR) agonists and antagonists were surveyed using calcium (Ca²⁺)-selective electrodes and a mechanical recording technique. Most of the mAChR agonists and antagonists tested increased both contractility and net Ca²⁺ efflux, with M₁-specific agents like oxotremorine M being the most potent in their action. To investigate the possible sources of Ca²⁺ used during mAChR activation, agents that disrupt intracellular Ca²⁺ ion sequestration [cyclopiazonic acid (CPA), caffeine, ryanodine], the phosphoinositide signaling pathway [lithium chloride (LiCl)], and L-type Ca²⁺ channels (diltiazem and verapamil) were used to challenge contractions induced by oxotremorine M. These contractions were blocked by treatment with CPA, caffeine, LiCl, and by channel blockers, diltiazem and verapamil, but were unaltered by ryanodine. Our data suggest that this smooth muscle had an M_1,3,5-like receptor that was associated with the phosphoinositide signaling pathway that relied on intracellular Ca²⁺ stores, but secondarily used extracellular Ca²⁺ via the opening of L-type channels.     

Opioid-Induced Increase in [Ca2+]i in ND8-47 Neuroblastoma × Dorsal Root Ganglion Hybrid Cells Is Mediated Through G Protein-Coupled δ-Opioid Receptors and Desensitized by Chronic Exposure to Opioid

Abstract: δ-Receptor agonists induce a concentration-dependent increase in intracellular calcium concentration ([Ca²⁺]_i) in ND8-47 cells by activating dihydropyridine-sensitive Ca²⁺ channels. The role of G proteins in transducing the opioid effect has been studied. Pretreatment of cells with pertussis toxin (100 ng/ml, 24 h) almost completely blocked [d -Ser²,Leu⁵]enkephalin-Thr (DSLET)-induced increase in [Ca²⁺]_i. Cholera toxin (10 nM, 24 h) had no effect on DSLET-induced response. Pretreatment of the cells with 1 µM DSLET for 1 h resulted in a 30% inhibition of DSLET-induced increase in [Ca²⁺]_i and a 78% inhibition after exposure for 24 h. After 1 h of exposure to DSLET, there was a decrease in agonist affinity with no significant changes in receptor density. Cells exposed to 1 µM DSLET for 24 h demonstrate a nearly 90% decrease in [³H]diprenorphine binding, with a decrease in affinity for agonist at the remaining binding sites. G protein subunits α_i2, α_i3, α_s, and α_q were detected in ND8-47 cell membranes by western blot; α_o and α_i1 were not present. Chronic DSLET treatment had no significant effect on the quantity of each of the α-subunits. These results suggest that the DSLET-induced increase in [Ca²⁺]_i is mediated through pertussis toxin-sensitive G proteins (probably G_i2 or G_i3) and the attenuation of this response in chronically treated cells is associated with a relatively rapid reduction in receptor affinity to DSLET and a slow reduction in receptor density.     

Genome-Wide Screen of Genes Required for Caffeine Tolerance in Fission Yeast

Background

An excess of caffeine is cytotoxic to all eukaryotic cell types. We aim to study how cells become tolerant to a toxic dose of this drug, and the relationship between caffeine and oxidative stress pathways.

Methodology/Principal Findings

We searched for Schizosaccharomyces pombe mutants with inhibited growth on caffeine-containing plates. We screened a collection of 2,700 haploid mutant cells, of which 98 were sensitive to caffeine. The genes mutated in these sensitive clones were involved in a number of cellular roles including the H₂O₂-induced Pap1 and Sty1 stress pathways, the integrity and calcineurin pathways, cell morphology and chromatin remodeling. We have investigated the role of the oxidative stress pathways in sensing and promoting survival to caffeine. The Pap1 and the Sty1 pathways are both required for normal tolerance to caffeine, but only the Sty1 pathway is activated by the drug. Cells lacking Pap1 are sensitive to caffeine due to the decreased expression of the efflux pump Hba2. Indeed, ?hba2 cells are sensitive to caffeine, and constitutive activation of the Pap1 pathway enhances resistance to caffeine in an Hba2-dependent manner.

Conclusions/Significance

With our caffeine-sensitive, genome-wide screen of an S. pombe deletion collection, we have demonstrated the importance of some oxidative stress pathway components on wild-type tolerance to the drug.     

The interaction between caffeine and calcium in the desensitization of muscle postjunctional membrane receptors

The interaction between caffeine and calcium on the rate of desensitization of muscle postjunctional membrane (PJM) receptors during the sustained application of 0.27 mM carbamylcholine (CARB) has been studied in vitro on the sartorius muscle of the frog. The rate of PJM repolarization with CARB added to the solution bathing the muscle or the recovery of the effective transmembrane resistance (EMR) during the microperfusion of CARB directly onto the end-plate region of individual fibers was used as an index of the rate of desensitization. Caffeine (1.5 mM) increased the rate of PJM repolarization with bulk application of CARB in a 1.8 or 10 mM calcium Ringer solution but had no effect on PJM repolarization in a calcium-deficient, 4 mM magnesium Ringer solution. For EMR measurements the preparation was rendered mechanically quiescent by repeated challenges with isotonic KCl during an exposure of several hours to a calcium-free, 4 mM magnesium-1 mM EGTA Ringer solution. In these fibers, the microperfusion of 0.27 mM CARB together with 1.8 mM calcium plus 1.5 mM caffeine significantly increased the rate of EMR recovery above that observed in the absence of caffeine. Raising the calcium concentration to 10 mM had a similar effect; however, no additional increase was noted by the inclusion of 1.5 mM caffeine. It is suggested that the major role of caffeine in PJM desensitization is to increase the calcium permeability of the surface membrane. The transmembrane movement of calcium and the consequent intracellular accumulation of calcium is seen as a critical factor in controlling the rate of PJM desensitization.     

Caffeine and excitation-contraction coupling in the guinea pig taenia coli

The effects of caffeine (0.2–10 mM) on the electrical and mechanical activities of guinea pig taenia coli were investigated with the double sucrose-gap method. Caffeine evoked a small tension with a latency of 20–30 sec, then phasic contraction developed and finally relaxation. The initial tension development also appeared in the Na-free solution without any marked changes in the membrane potential and membrane resistance. The phasic contraction disappeared in the Na-free solution. The relaxation in the presence of caffeine was accompanied by depolarization block of the spike generation. The minimum concentration of Ca ion needed to evoke the tension development by the caffeine was 10^-7 M. Caffeine also potentiated the twitch tension below a concentration of 5 mM either in the Na-free solution or at low temperature (5°C). NO₃ ^- and Br^- showed a similar response to caffeine on the potentiation of the twitch tension at low temperature.     

Culture requirements for optimal expression of 1α,25-dihydroxyvitamin D3-enhanced thyrotropin secretion

Summary An effect of the hormone, 1α,25-dihydroxyvitamin D₃ [1,25(OH)₂D₃] on hormone secretion by normal rat pituitary cells was investigated in vitro. Based on previous findings using GH₄C₁ cells, dispersed anterior pituitary cell cultures were prepared and maintained in serum-free conditions for up to 6 d. Under these circumstances, there was no effect of 1,25(OH)₂D₃ to alter medium or cell-associated levels of thyrotropin (TSH), prolactin (PRL), or growth hormone (GH). Cultures maintained under these conditions had lower medium and cell-associated hormone levels and lesser responses to agonists than cultures maintained in serum-supplemented medium. In the presence of 10% charcoal-treated fetal bovine serum, treatment with 10⁻⁸ M 1,25(OH)₂D₃ for 24 h selectively increased TRH (10⁻¹⁰ to 10⁻⁷ M)-induced TSH secretion (P<0.001), with maximal enhancement observed at 10⁻⁹ M TSH-releasing hormone (TRH). Enhancement of TSH secretion by 1,25(OH)₂D₃ was detected after 15 min exposure to TRH. There was no effect on agonist-induced PRL or GH secretion or on cell-associated hormone levels. The effect was evident after 24 h treatment with 1,25(OH)₂D₃, and decreased thereafter. Several other steroid hormones had no effect on 10⁻⁹ M TRH-induced TSH secretion. These data contrast with the effect of 1,25(OH)₂D₃ in GH cells. They suggest that 1,25(OH)₂D₃ may act selectively in the normal pituitary to modulate TSH secretion.     

Imaging of caffeine-inducible release of intracellular calcium in cultured embryonic mouse telencephalic neurons

To gain a better understanding of Ca²⁺-induced Ca²⁺ release in central neurons, we have studied the increase in intracellular Ca²⁺ concentration ([Ca²⁺]_i) induced by application of caffeine to cells cultured from embryonic mouse telencephalon (hippocampus or cortex). The magnitudes and distributions of changes in [Ca²⁺]_i in neuron somata were measured by quantitative video microscopy. We observed that application of caffeine to pyramidally shaped neurons typically initiated an increase in [Ca²⁺]_i in the cytoplasmic region between the nucleus and the base of a major dendrite. [Ca²⁺] in this region increased over a period of 3 to 6 s and was followed by, with a slight delay, a surge of Ca²⁺ that moved across the soma and into or over the nucleus. Similar Ca²⁺ that moved across the soma and into or over the nucleus. Similar Ca²⁺ responses to caffeine were observed in Ca²⁺-containing and nominally Ca²⁺-free external solutions, suggesting that caffeine was inducing Ca²⁺ release from intracellular stores. Ca²⁺ responses to caffeine were potentiated by inducing a tonic Ca²⁺ influx through N-methyl-D-aspartate (NMDA)-type glutamate receptors activated by 0.3 μM glutamate and multiple responses to caffeine could be elicited by using this Ca²⁺ influx to refill the intracellular stores. Ryanodine inhibition of caffeine-induced Ca²⁺ release was use- and concentration-dependent; the median effective concentration EC₅₀ for ryanodine declined from 22 μM for the first application of caffeine to 20 nM for the fourth. We conclude, based on these responses to caffeine, that ryanodine-sensitive mechanisms of intracellular Ca²⁺ release are active in hippocampal and cortical neurons and may be involved in generation of directed Ca²⁺ waves that engulf the nucleus. © 1995 John Wiley & Sons, Inc.