Control of ciliary beat frequency in the gill of Mytilus--II. Effects of saponin and Brij-58 on the lateral cilia

The effects of saponin and Brij-58 on the beat activation of the lateral cilia on the gill of Mytilus edulis were investigated. The ciliary activation by 5-hydroxytryptamine (5HT) decreased as the saponin-induced permeabilization progressed, increasing the reactivation of the ciliary beat by extracellularly applied ATP (1 mM). The cilia were activated by 5HT even after the treatment with saponin (0.01 and 0.02% w/v) or Brij-58 (0.07%) rendered the preparation capable of the reactivation by ATP. The saponin treatment itself stimulated the beat of the cilia. Theophylline (1 mM) augmented the saponin-induced activation of the cilia.     

Glucose synthesis by isolated guinea-pig hepatocytes. Effect of cyclic AMP and dibutyryl cyclic AMP.

In isolated guinea-pig hepatocytes, dibutyryl cyclic AMP stimulated gluconeogenesis from 2 mM galactose by 25 and 40% respectively. In the presence of 0.5 mM theophylline, cyclic AMP (0.1 mM) increased glucose synthesis from lactate and galactose by 26 and 34% respectively.     

Insulin modifies the properties of glucose transporters in rat brown adipose tissue.

The influence of cyclic AMP on cartilage degradation was investigated by using phosphodiesterase inhibitors [theophylline and 3-isobutyl-1-methylxanthine (IBMX)], forskolin (which activates the catalytic subunit of adenylate cyclase) and cyclic AMP analogues (dibutyryl and 8-bromo). Breakdown was assessed by quantification of proteoglycans released into the media of 8-day bovine nasal-septum cartilage cultures. Theophylline (1-20 mM), IBMX (0.01-2 mM) and dibutyryl cyclic AMP (0.1-2 mM) had little or no influence on the rate of proteoglycan release from unstimulated (no-endotoxin) cartilages. A small but detectable increase in breakdown was observed with 8-bromo cyclic AMP (0.5-2 mM) and forskolin (50-75 micrograms/ml). To examine potential inhibitory influences of these agents, the cyclic AMP modulators were added to cultures simultaneously treated with Salmonella typhosa endotoxin (12-25 micrograms/ml), a potent stimulator of cartilage degradation. The 3-4-fold stimulation of breakdown by endotoxin was strikingly inhibited by all three classes of cyclic AMP regulators. Optimal inhibition was found at 10-20 mM-theophylline, 1-2 mM-IBMX, 50-75 micrograms of forskolin/ml, 2 mM-dibutyryl cyclic AMP and 2 mM-8-bromo cyclic AMP. Inhibition was shown to be reversible, indicating that cartilages were viable after treatment. Sepharose CL-2B chromatography of proteoglycan products released from treated cartilages showed that the endotoxin-stimulated shift to lower average Mr was significantly prevented by cyclic AMP analogues and phosphodiesterase inhibitors. Together, these results show that agents which increase cyclic AMP inhibit both quantitative and qualitative aspects of endotoxin-mediated cartilage degradation.     

Insulin release from BK virus-induced and in vitro maintained insulinoma cells of Syrian golden hamster

The pancreatic tumor cells (In 111) derived from BK virus-induced insulinoma of Syrian golden hamsters were maintained in culture for several passages and were studied for their insulin secretory ability under various stimulatory conditions. Insulin release was not increased by D-glucose stimulation (27.8 mM), while dibutyryl cyclic AMP (1 mM), theophylline (1 mM), 3-isobutyl-l-methylxanthine (0.1 mM) and elevation of medium calcium from 0.5 to 2.7 mM stimulated insulin release 2.5- to 4-fold. There was a concomitant increase of medium cyclic AMP with addition of theophylline. Streptozotocin (2 mM) treatment for 48 hours significantly reduced insulin release, while alloxan (2 mM), had no inhibitory effect on insulin release. The results indicate that while in vitro-maintained islet tumor cells, In 111, have a cyclic AMP-mediated process involved in insulin secretion analogous to normal beta cells, these cells lack the ability to recognize glucose as an insulin secretagogue probably due to a defect in the cell membrane, though the possibility of alteration in glucose metabolism cannot be fully excluded.     

Calcium requirement for the inhibition by theophylline of histamine release from mast cells

When added to Ca2+-free Hanks' solution, Ca2+ (0.1-2.5 mM) had no significant effect on antigen-induced histamine release from rat mast cells, but Sr2+ (1.0-3.0 mM) dose-dependently increased the release. Ba2+ (1.0 and 2.0 mM) also enhanced the release. Ca2+ and Ba2+ inhibited compound 40/80-induced histamine release, in a dose-dependent manner. In ordinary Hanks' medium, theophylline and 3-isobutyl-1-methylxanthine (IBMX) dose-dependently inhibited the antigen-induced histamine release but these drugs were ineffective in Ca2+-free medium. Theophylline (1.0 mM) also inhibited compound 48/80-induced histamine release in the presence but not absence of Ca2+. There was an optimal Ca2+ concentration for the theophylline effect. Sr2+ but not Ba2+ could substitute for Ca2+ in supporting the theophylline effect. Theophylline (1.0 mM) and IBMX (1.0 mM) increased mast cell cyclic AMP levels both in the presence and absence of Ca2+. These results suggest that Ca2+ is required in the interaction of theophylline and specific sites on mast cells or in the mast cell response to theophylline which probably does not involve the cyclic AMP increase and is linked to the inhibition of histamine release.     

Cyclic AMP level in relation to different conditions of sporulation rhythm regulation in Leptosphaeria michotii (West) Sacc

When Leptophaeria michotii was grown in conditions that permitted a stable periodicity of sporulation (asparagine 6.6 mM in darkness or asparagine 2.6 mM in continuous white light), the level of intracellular cyclic AMP was lower and the activity of the cyclic AMP phosphodiesterase higher in contrast to the cultures with an instable periodicity.With asparagine 6.6 mM and in darkness, theophylline (1 mM) increased the intracellular cyclic AMP level whereas caffeine (1 mM) had no effect. Theophylline (0.01 and 0.1 mM) or caffeine (0.01–1 mM) provoked a rhythm instability under these conditions. Isoproterenol (1 mM) increased the cyclic AMP level. Nevertheless, the instable rhythm observed in control fed with asparagine 2.6 mM in darkness, was partially stabilized with isoproterenol 0.01 M or 0.01–1 mM. Exogenous cyclic AMP (0.01–1 mM) provoked a complete regulation of the rhythm with asparagine 2.6 mM and a shortening of the stable period (from 27 to 21 h) when the fungus was grown on asparagine 6.6 mM.These results underlined the fact that Leptosphaeria rhythm regulation was not dependent on the cyclic AMP level only.     

Variation in the effects of antidiuretic hormone on the isolated skin of the toad, Scaphiopus couchi.

The rate of active sodium transport as measured by short-circuit current across the isolated skin of the toad, Scaphiopus couchi, was elevated following vasopressin (0.2 units/ml) or arginine vasotocin (0.1 units/ml) treatment of skins from active animals at all times of the year tested. Skins from dormant animals showed no such elevation at any time of the year. The rate of active sodium transport was elevated following treatment with dibutyryl cyclic AMP (2.5mM) plus theophylline (10 mM) in all skins tested. The hydraulic conductivity of isolated skins from both active and dormant animals showed no significant change following treatment with vasopressin (0.2 units/ml) or arginine vasotocin (0.1 units/ml except on the first day following emergence from dormancy in the field. A correlation was, therefore, observed between the occurrence of a hydroosmotic response to antidiuretic hormones and the seasonal exposure of S. couchi to standing water. A small but significant elevation of hydraulic conductivity was observed across the skins of dormant toads following treatment with dibutyryl cyclic AMP (2.5 mM) plus theophylline (10 mM) whereas a substantial elevation was observed with the skins of active animals.     

Effects of methylxanthines on gonadotropin-induced steroidogenesis and protein synthesis in isolated testis interstitial cells.

The effects of 1-methyl 3-isobutyl xanthine (MIX) and theophylline on basal and gonadotropin-stimulated production of cyclic AMP and testosterone were evaluated in enzyme-dispersed testicular interstitial cells. The actions of these compounds upon precursor incorporation into RNA and protein were also examined in the same cell preparation. The considerable higher potency of MIX as a phosphodiesterase inhibitor was accompanied by a steeper dose-response curve for cyclic AMP recovery in incubation media of hormone-treated cells. Both inhibitors caused increases in basal and hormone-stimulated cyclic AMP levels. Although low concentrations of theophylline and MIX had no effect on the maximum levels of hCG-stimulated testosterone production, 10 mM theophylline and 1 mM MIX significantly inhibited steroidogenesis. Conversely, basal testosterone levels were increased by MIX and theophylline. The higher concentrations of MIX and theophylline also significantly inhibited precursor incorporation into RNA and protein. These actions of phosphodiesterase inhibitors upon RNA and protein synthesis could contribute to their inhibitory effects at high concentrations upon gonadotropin-induced steroidogenesis.     

Cyclic AMP induces synthesis of prostaglandin E1 in platelets

Although platelets are known to synthesize small amounts of prostaglandin E1 the control of the formation of this prostanoid has not been investigated. Incubation of human platelet-rich plasma with various compounds which are known to increase cyclic AMP concentration in platelets and inhibit platelet aggregation also increased intracellular prostaglandin E1 synthesis. The prostaglandin E1 was isolated by high pressure liquid chromatography and definitively identified by negative and positive ionization mass spectroscopy. The amounts of prostaglandin E1 formed were proportional to the concentration of cyclic AMP in platelets. Prostacyclin (10 nM) which is the most potent stimulator of cyclic AMP formation increased intracellular cyclic AMP by 4.6 fold and prostaglandin E1 level by 3 fold over the basal levels. Addition of theophylline, a cyclic AMP phosphodiesterase inhibitor, together with prostacyclin increased cyclic AMP concentration 8.7-fold and prostaglandin E1 level 12-fold compared to basal concentrations. Dibutyryl cyclic AMP (2 mM) and 8-bromo cyclic AMP (0.1 mM) increased prostaglandin E1 levels by 3 fold and 2 fold over the basal level, respectively. Prostaglandin D2 (3 microM) when added to platelet-rich plasma increased the cyclic nucleotide levels by 2 fold concomitant with 2 fold increase in prostaglandin E1 concentration. In contrast prostaglandin E2 or prostaglandin F2 alpha which had no effect on cyclic AMP level did not affect the prostaglandin E1 synthesis. Addition of 2',5'-dideoxyadenosine, an inhibitor of adenylate cyclase, to platelet-rich plasma inhibited both the increase of intracellular prostaglandin E1 and cyclic AMP levels induced by prostacyclin.     

Effect of Isozyme-Selective Inhibitors of Phosphodiesterase on Histamine-Stimulated Cyclic AMP Accumulation in Guinea-Pig Hippocampus

Addition of histamine (0.1 mM) to guinea-pig hippocampal slices causes a 20- to 30-fold increase in the accumulation of cyclic AMP compared with basal levels. This accumulation represents a balance between cyclic AMP production by adenylate cyclase and cyclic AMP breakdown mediated by phosphodiesterase (PDE). However, brain tissues are known to contain several different PDE isozymes. To determine which are involved in this response to histamine, the effect of isozyme-specific PDE inhibitors on cyclic AMP accumulation was examined in the hippocampus. MB 22948 (0.1 mM), an inhibitor of PDEs I and II, had no significant effect on the response to either 1 microM or 0.1 mM histamine. SKF 94120 (0.1 mM), a PDE III inhibitor, was also without effect in the presence of 1 microM histamine, although with 0.1 mM histamine, it caused a weak (1.25-fold compared with control), but statistically significant, enhancement of cyclic AMP accumulation. However, both rolipram (0.1 mM), a PDE IV inhibitor, and 3-isobutyl-1-methylxanthine (0.1 or 1 mM), an inhibitor of all forms of PDE, significantly increased cyclic AMP accumulation (2.8- to 6.5-fold compared with controls), and the relative size of this effect decreased with increasing histamine concentration. It is concluded that PDE IV is the main PDE isozyme involved in cyclic AMP turnover in guinea-pig hippocampal slices responding to histamine.     

Multiple Neurite Formation in Neuroblastoma Cell Lines by Griseolic Acid, a Potent Inhibitor of Cyclic Nucleotide Phosphodiesterases

The morphological change of several neuroblastoma cell lines induced by griseolic acid, a novel and potent inhibitor of cyclic nucleotide phosphodiesterase (PDE), was examined. In the cell lines tested, Neuro-2a (a murine neuroblastoma cell line) showed dose-dependent (1 microM-1 mM) neurite extension. Griseolic acid markedly increased the intracellular cyclic AMP level of Neuro-2a cells, suppressed DNA synthesis (82% at 1 mM), and induced multipolar (multiple-neurite-bearing)-type neuritogenesis. A similar type of neurite outgrowth was induced by 8-bromo-cyclic AMP, which also elevated the intracellular cyclic AMP concentration. In contrast, when Neuro-2a cells were treated with retinoic acid, neurite formation was of the monopolar (single-neurite-bearing) type. Papaverine and theophylline, which have been frequently used as PDE inhibitors, failed to induce these morphological changes up to 1 mM, probably owing to the lesser potency of these compounds as compared with griseolic acid on the inhibition of PDE. Retinoic acid, theophylline, and papaverine were ineffective at elevating the intracellular cyclic AMP level. These results suggest that multipolar-type cell shape change in Neuro-2a cells is correlated with the accumulation of intracellular cyclic AMP and that griseolic acid is a useful compound to induce neuroblastoma cells into terminal differentiation.     

Inositol lipid turnover and adenosine 3,5 cyclic monophosphate in the salt-secreting rectal gland of the dogfish (Scyliorhinus canicula)

The rectal gland of the dogfish is rich in inositol lipids. Total phospholipids from the gland contained 9.1 mol% of phosphatidylinositol (PtdIns), 1.0 mol% of phosphatidylinositol 4-phosphate (PtdIns4P) and 0.9 mol% of phosphatidylinositol 4,5-biphosphate (PtdIns4,5P2). [32P]Orthophosphate was readily incorporated into PtdIns, phosphatidic acid (PtdA) and especially into PtdIns4P and PtdIns4,5P2 in salt gland slices incubated in elasmobranch Ringer with glucose and no other additions over a 2 hr period. The calcium ionophore A23187 stimulated incorporation into PtdIns and PtdA, but not into PtdIns4P or PtdIns4,5P2. Oxygen uptake by rectal gland slices was maximally stimulated by 0.08mM forskolin, 2.5mM 8-chlorophenylthio cyclic AMP, 2.0mM dibutyryl cyclic AMP and 0.25mM theophylline. Stimulated oxygen uptake was inhibited by 0.1mM ouabain in all cases. Incorporation of [32P]orthophosphate into PtdIns, PtdA, PtdIns4P and PtdIns4,5P2 was inhibited by 0.08mM forskolin and 2.0mM dibutyryl cyclic AMP over a 2 hr period. The results are discussed in relation to the control of salt secretion by the rectal gland.     

The pancreatic β-cell recognition of insulin secretagogues XIII effects of sulphydryl reagents on cyclic AMP

Chloromercuribenzene-p-sulphonic acid (0.1 mM) or 5,5′-dithiobis-(2-nitrobenzoic acid) (1 mM) alone had no effect on cyclic AMP in microdissected pancreatic islets of non-inbred ob/ob mice. In the presence of 1 mM 3-isobutyl-1-methylxanthine, the mercurial increased and the disulphide decreased the cyclic AMP content. Both sulphydryl reagents stimulated insulin release whether 3-isobutyl-1-methylxanthine was present or not. The effects of chloromercuribenzene-p-sulphonic acid on insulin release and cyclic AMP were markedly inhibited by 1 mM 4-acetamido-4′-isothiocyanostilbene-2,2′-disulphonic acid. In the absence of phosphodiesterase inhibitor, iodoacetamide (0.1 mM) potentiated insulin release in response to 20 mM glucose but had no demonstrable effect on cyclic AMP. In the presence of 20 mM glucose plus 1 mM 3-isobutyl-1-methylxanthine, however, iodoacetamide increased the cyclic AMP content although insulin release was not further enhanced. It is suggested that chloromercuribenzene-p-sulphonic acid and iodoacetamide may stimulate the formation of cyclic AMP in pancreatic islets. This effect could contribute to the insulin-releasing action of these stimuli, although promotion of cyclic AMP is probably not the sole mechanism by which sulphydryl reagents stimulate secretion.     

Biochemical studies of the excitable membrane of Paramecium tetraurelia VI. Endogenous protein substrates for in vitro and in vivo phosphorylation in cilia and ciliary membranes

The endogenous protein kinases of isolated Paramecium tetraurelia cilia phosphorylated approximately 30 ciliary polypeptides in vitro. Labeling with [gamma-32P]ATP was not proportional to the amount of each protein in cilia; some minor polypeptides (e.g., 67,000 and 180,000 mol wt) were more heavily labeled than some major polypeptides. Certain of the endogenous substrates for protein kinase were localized in the ciliary membrane (130,000, 86,000, 67,000, and 45,000 mol wt); others were found in axonemes or in both fractions. With cilia from bacterized cultures in the undefined Cerophyl medium, the labeling of specific endogenous phosphate acceptors was altered by pH, cyclic AMP, and cyclic GMP, but the labeling pattern was not affected by the presence of Na+ or K+ (15 mM), Ba++ (5 mM), Ca++ (10(-5) or 10(-4) M), or EGTA. Very similar results were obtained with cilia from cells grown axenically in a semidefined medium; the molecular weights and the extent of phosphorylation of the phosphopolypeptides were comparable to those of cilia from bacterized Cerophyl cultures, although no significant cyclic nucleotide effects were observed in the axenic cilia. Most of the phosphopolypeptides labeled in vitro also turned over rapidly in vitro. The phosphoprotein phosphatase responsible for turnover was partially inhibited by 5 mM NaF. The pattern of ciliary polypeptides labeled in vivo was similar to that observed in the in vitro experiments, although the relative intensities of labeling differed. Six behavioral mutants of Paramecium, known to have defects in the excitable membrane that regulates the ciliary beat, showed normal patterns of ciliary protein phosphorylation in vitro, with and without added cyclic nucleotides, at both pH 6.0 and pH 8.0. The mutants also had apparently normal phosphoprotein phosphatase. The Paranoiac A mutant, however, showed a reduction in cyclic GMP-stimulated protein kinase activity.     

Characterization of the soluble cyclic nucleotide phosphodiesterases in Xenopus laevis oocytes. Evidence for a calmodulin-dependent enzyme

Cyclic nucleotide phosphodiesterase activities (3',5'-cyclic nucleotide 5'-nucleotidohydrolase, EC 3.1.4.17) were found in the 40,000 X g supernatant fraction of homogenates of Xenopus laevis oocytes. In the supernatant, the ratio of the specific activity of cyclic AMP phosphodiesterase to that of cyclic GMP phosphodiesterase was 1.1 at the 1 micro substrate level. Two phosphodiesterase forms were isolated by centrifugation on sucrose gradient: a 3-4 S form hydrolyzing specificity cyclic AMP and a 6-7 S form hydrolyzing both cyclic nucleotides (cyclic AMP and cyclic GMP). The activity of the 6-7 S phosphodiesterase was characterized by its activation by 0.1 micro M calmodulin purified from beef pancreas in the presence of 50 micro M CA2+. The calmodulin dependence of this form was completely abolished in the presence of 1 mM ethyleneglycobis(beta-aminoethyl ether)-N-N,N',N'-tetraacetic acid (EGTA). Trifluoperazine at 0.1 mM inhibited both the freshly prepared crude enzyme and the partially purified 6-7 S form. On the other hand, no effect of cyclic GMP at 3 micro M was observed on cyclic AMP hydrolysis in the case of the supernatant or that of the partially purified phosphodiesterases. These data show the presence of a calmodulin-dependent phosphodiesterase in the soluble fraction of X. laevis oocytes.     

Effects of isoproterenol,theophylline and carbachol on cyclic nucleotide levels and relaxation of bovine tracheal smooth muscle

The effect of theophylline and isoproterenol on bovine tracheal smooth muscle tension and cyclic AMP levels was investigated. Concentrations of isoproterenol (4 × 10^?6 M) and theophylline (10 mM) that relaxed carbachol-contracted tracheal muscle by 85–95% did not significantly elevate control levels of cyclic AMP. In the absence of carbachol, several-fold increases in cyclic AMP were caused by isoproterenol although no elevations by theophylline were measurable. However, when isoproterenol and theophylline were administered together, theophylline potentiated the rise in cyclic AMP caused by isoproterenol. Phosphodiesterase studies in tracheal muscle showed the presence of a high and a low K_m enzyme which were inhibited by theophylline. Cyclic GMP levels were elevated in muscles contracted by carbachol as well as in carbachol-contracted muscles that had been relaxed by theophylline. In non-tension studies, in which the tracheal muscle was not under isometric tension, carbachol or theophylline alone increased cyclic GMP and together they synergistically elevated cyclic GMP. Atropine blocked the elevation caused by carbachol but not that caused by theophylline. In contrast to theophylline, isoproterenol did not elevate cyclic GMP, and in carbachol-contracted muscles that had been relaxed by isoproterenol, cyclic GMP levels were no different from control. Also, in non-tension studies, isoproterenol decreased basal cyclic GMP and antagonized the increase in cyclic GMP due to carbachol.The results indicate that whole-tissue levels of cyclic AMP and cyclic GMP do not correlate with the state of tracheal smooth muscle tension. Cyclic GMP levels do not clearly correlate with either contraction or relaxation. The inhibition by carbachol of increases in cyclic AMP due to isoproterenol and the inhibition by isoproterenol of increases in cyclic GMP due to carbachol provide evidence for a reciprocal cholinergic-adrenergic antagonism of cyclic AMP and cyclic GMP levels. The antagonism did not appear to be due to either cyclic nucleotide affecting the elevation of the other since the levels of both cyclic nucleotides were depressed.     

Cyclic nucleotide hydrolysis in the thyroid gland. General properties and key role in the interrelations between concentrations of adenosine 3':5'-monophosphate and guanosine 3':5'-monophosphate.

Phosphodiesterase activities of horse (and dog) thyroid soluble fraction were compared with either cyclic AMP (adenosine 3':3'-monophosphate) or cyclic GMP (guanosine 3':5'-monophosphate) as substrate. Optimal activity for cyclic AMP hydrolysis was observed at pH 8, and at pH 7.6 for cyclic GMP. Increasing concentrations of ethyleneglycol bis(2-aminoethyl)-N,N'-tetraacetic acid inhibited both phosphodiesterase activities; in the presence of exogenous Ca2+, this effect was shifted to higher concentrations of the chelator. In a dialysed supernatant preparation, Ca2+ had no significant stimulatory effect, but both Mg2+ and Mn2+ increased cyclic nucleotides breakdown. Mn2+ promoted the hydrolysis of cyclic AMP more effectively than that of cyclic GMP. For both substrates, substrate velocity curves exhibited a two-slope pattern in a Hofstee plot. Cyclic GMP stimulated cyclic AMP hydrolysis, both nucleotides being at micromolar concentrations. Conversely, at no concentration had cyclic AMP any stimulatory effect on cyclic GMP hydrolysis. 1-Methyl-3-isobutylxanthine and theophylline blocked the activation by cyclic GMP of cyclic GMP of cyclic AMP hydrolysis, whereas Ro 20-1724 (4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone), a non-methylxanthine inhibitor of phosphodiesterases, did not alter this effect. In dog thyroid slices, carbamoylcholine, which promotes an accumulation of cyclic GMP, inhibits the thyrotropin-induced increase in cyclic AMP. This inhibitory effect of carbamoylcholine was blocked by theophylline and 1-methyl-3-isobutylxanthine, but not by Ro 20-1724. It is suggested that the cholinergic inhibitory effect on cyclic AMP accumulation is mediated by cyclic GMP, through a direct activation of phosphodiesterase activity.     

D-galactose accumulation in rabbit ileum. Effects of theophylline on serosal permeability.

The effects of theophylline and dibutyryl cyclic AMP, on in vitro unidirectional galactose fluxes across the mucosal and serosal borders of rabbit ileum have been studied. 1. When Ringer [galactose] = 2mM, theophylline and dibutyryl cyclic AMP reduce both mucosal-serosal and serosal-mucosal galactose flux by approx. 50%. The K1 for theophylline inhibition of flux in both directions is 2 mM. 1 mM dibutyryl cyclic AMP elicits a maximal inhibitory response. Concurrent with the inhibition in transmural galactose fluxes, theophylline and dibutyryl cyclic AMP increase the tissue accumulation of [galactose] and the specific-activity ratio R of 3H : 14C-labelled galactose coming from the mucosal and serosal solutions respectively. It is deduced that theophylline and dibutyryl cyclic AMP are without effect on the mucosal unidirectional permeability to galactose but cause a symmetrical reduction in serosal entry and exit permeability. 2. Reduction in the asymmetry of the mucosal border to galactose by reducing Ringer [Na], raising Ringer [galctose] or adding ouabain reduces the theophylline-dependent increase in galactose accumulation. 3. Hypertonicity in the serosal solution increases the permeability of the serosal border to galactose and reduces tissue galactose accumulation. Serosal hypertonicity partially reverses the theophylline-depedent effects on galactose transport. Replacing Ringer chloride by sulphate abolishes the theophylline-dependent effects on galactose transport. 4. It is considered that the theophylline-dependent increase in galactose accumulation results from the reduction in serosal permeability. This is shown to be a quantitatively consistent inference. 5. Further support for the view that the asymmetric transport of galactose in rabbit ileum results from convective-diffusion is presented.     

Hormonal control of cyclic 3':5'-AMP levels and gluconeogenesis in isolated hepatocytes from fed rats.

Glucagon can stimulate gluconeogenesis from 2 mM lactate nearly 4-fold in isolated liver cells from fed rats; exogenous cyclic adenosine 3':5'-monophosphate (cyclic AMP) is equally effective, but epinephrine can stimulate only 1.5-fold. Half-maximal effects are obtained with glucagon at 0.3 nM, cyclic AMP at 30 muM and epinephrine at 0.2 muM. Insulin reduces by 50% the stimulation by suboptimal concentrations of glucagon (0.5 nM). A half-maximal effect is obtained with 0.3 nM insulin (45 microunits/ml). Glucagon in the presence of theophylline (1 mM) causes a rapid rise and subsequent fall in intracellular cyclic AMP with a peak between 3 and 6 min. Some of the fall can be accounted for by loss of nucleotide into the medium. This efflux is suppressed by probenecid, suggesting the presence of a membrane transport mechanism for the cyclic nucleotide. Glucagon can raise intracellular cyclic AMP about 30-fold; a half-maximal effect is obtained with 1.5 nM hormone. Epinephrine (plus theophylline, 1 mM) can raise intracellular cyclic AMP about 2-fold; the peak elevation is reached in less than 1 min and declines during the next 15 min to near the basal level. Insulin (10 nM) does not lower the basal level of cyclic AMP within the hepatocyte, but suppresses by about 50% the rise in intracellular and total cyclic AMP caused by exposure to an intermediate concentration of glucagon. No inhibition of adenylate cyclase by insulin can be shown. Basal gluconeogenesis is not significantly depressed by calcium deficiency but stimulation by glucagon is reduced by 50%. Calcium deficiency does not reduce accumulation of cyclic AMP in response to glucagon but diminishes stimulation of gluconeogenesis by exogenous cyclic AMP. Glucagon has a rapid stimulatory effect on the flux of 45Ca2+ from medium to tissue.     

Effects of theophylline on expression of the long cilia phenotype in sand dollar blastulae

Previously, increases in ciliary length have only been obtained through genetic mutation in Chlamydomonas or by incubation of swimming echinoderm blastulae in trypsin or elastase. We have found that the phenotypic switch from short to long cilia on sand dollar blastulae can also be effected by incubation in theophylline. Cilia detached from control blastulae have a mean length of 21 +/- 7 microns with 10% of the cilia being greater than 30 microns. Upon incubation in 10 mM theophylline additional long cilia appeared after 10 hours and by 24-32 hours 1/2-3/4 of the embryo was covered with long cilia. The percentage of long cilia increased to 65% with a mean length of 40.0 +/- 17.6 microns. Incubation in other methylxanthines, such as aminophylline, caffeine, or isobutylmethylxanthine, inhibited development but had no effect on ciliary length distribution. Dibutyryl cAMP, 8-bromoadenosine, and calcium ionophore also had no effect on ciliary length. Cyclic AMP levels were measured and showed only slight differences among controls and embryos incubated in trypsin, caffeine, or theophylline. These data suggest that theophylline may be altering ciliary length control through some mechanism other than elevations in cAMP.