Action of insulin and cell calcium: effect of ionophore A23187.

We have measured the effects of the carboxylic Ca++ ionophore A23187 on muscle tension, resting potential and 3-O-methylglucose efflux. The ionophore produces an increase in tension that is dependent on external Ca++ concentration since (a) the contracture was blocked by removing external Ca++ and (b) its size was increased by raising outside Ca++. Neither resting potential nor resting and insulin-stimulated sugar efflux were modified by the ionophore. These data imply that the action of insulin is not mediated by increasing cytoplasmic [Ca++]. Additional support for this conclusion was obtained by testing the effects of caffeine on sugar efflux. This agent, which releases Ca++ from the reticulum, did not increase resting sugar efflux and inhibited the insulin-stimulated efflux. Incubation in solutions containing butyrated derivatives of cyclic AMP or cyclic GMP plus theophylline did not modify the effects of insulin on sugar efflux. Evidence suggesting that our experimental conditions increased the cytoplasmic cyclic AMP activity was obtained.     

The influence of low and high doses of theophylline on spontaneous motility and cyclic 3',5' AMP content in isolated rat uterus

It was found in isolated rat uterus that 5 × 10^?4 N theophylline inhibited spontaneous contractions which were restituted by increasing extracellular calcium 4-fold. Tissue level of cyclic 3′, 5′ AMP was not affected. On the other hand, 10^?2 M theophylline elevated cyclic 3′, 5′ AMP by 170 % for at least 60 minutes. The concomitant inhibition of spontaneous uterine motility could neither be restituted by increasing calcium up to 40-fold nor by washing. It was suggested that cyclic 3′, 5′ AMP was involved in theophylline-induced uterine relaxation when the drug was administrated in high amounts able to inhibit phosphodiesterase. Small doses of theophylline (5 × 10^?4 M) were supposed to initiate relaxing effects by a calcium-antagonistic intrinsic activity.     

Differential inhibition of cyclic AMP and cyclic GMP hydrolysis in rat renal cortex.

Adenosine 3′,5′-monophosphate (cyclic AMP) and guanosine 3′,5′-monophosphate (cyclic GMP) metabolism in rat renal cortex was examined. Athough the cyclic AMP and cyclic GMP phosphodiesterases are similarly distributed between the soluble and particulate fractions following differential centrifugation, their susceptibility to inhibition by theophylline, dl-4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone (Ro 20-1724), and 1-methyl-3-isobutylxanthine (MIX) are quite different. Ro 20-1724 selectively inhibited both renal cortical-soluble and particulate cyclic AMP degradation, but had little effect on cyclic GMP hydrolysis. Theophylline and MIX effectively inhibited degradation of both cyclic nucleotides, with MIX the more potent inhibitor. Effects of these agents on the cyclic AMP and cyclic GMP content of cortical slices corresponded to their relative potency in broken cell preparations. Thus, in cortical slices, Ro 20-1724 (2 mm) had the least effect on basal (without agonist), carbamylcholine, and NaN₃-stimulated cyclic GMP accumulation, but markedly increased basal and (parathyroid hormone) PTH-mediated cyclic AMP accumulation, MIX (2 mm) which was as effective as Ro 20-1724 in potentiating basal and PTH-stimulated increases in cyclic AMP also mediated the greatest augmentation of basal, carbamylcholine, and NaN₃-stimulated accumulation of cyclic GMP. By contrast, theophylline (10 mm) which was only 12% as effective as Ro 20-1724 in increasing the total slice cyclic AMP content in the presence of PTH was much more effective than Ro 20-1724 in potentiating carbamylcholine and NaN₃-mediated increases in cyclic GMP. These results demonstrate selective inhibition of cyclic nucleotide phosphodiesterase activities in the rat renal cortex and support the possibility of multiple cyclic nucleotide phosphodiesterases in this tissue. Furthermore, both cyclic nucleotides appear to be rapidly degraded in the renal cortex.     

IC50 of trifluoperazine and RMI 12330A for the theophylline and phloretin-induced increase in intestinal D-galactose accumulation

The effect of trifluoperazine and RMI 12330A on D-Galactose accumulation was studied in isolated rat intestinal mucosa. Both drugs inhibited the theophylline and phloretin-induced increase in tissue sugar accumulation in a concentration-dependent fashion, with IC50 values close to 10(-6) M. These findings suggest that calmodulin might mediate the theophylline and phloretin actions on galactose transport in intact rat ileum.     

Inhibition of "spontaneous," notochord-induced, and collagen-induced in vitro somite chondrogenesis by cyclic AMP derivatives and theophylline.

The present study represents a first step in investigating the possible involvement of cyclic AMP in the stimulation of somite chondrogenesis elicited by extracellular matrix components produced by the embryonic notochord. Dibutyryl cyclic AMP (db-cAMP) at 1.0 mM severely impairs “spontaneous” somite chondrogenesis, i.e., inhibits the formation of the small amount of cartilaginous matrix normally formed by embryonic somites in vitro in the absence of inducing tissues. This inhibition of cartilaginous matrix formation is reflected in a 30–40% reduction in sulfated glycosaminoglycan (GAG) accumulation. 8-Bromo-cyclic AMP also severely inhibits cartilage formation and sulfated GAG accumulation by somite explants. This impairment is limited to cyclic AMP derivatives; dibutyryl cyclic GMP, 5′-AMP, and 2′,3′-AMP have no effect. The inhibitory effect of cyclic AMP derivatives is mimicked by the cyclic AMP-phosphodiesterase inhibitor, theophylline, and potentiated by the addition of both db-cAMP and theophylline. Dibutyryl cyclic AMP and/or theophylline also inhibit the stimulation of cartilaginous matrix formation and sulfated GAG accumulation normally elicited by the embryonic notochord, reducing accumulation to a level similar to that found in somite explants without notochord. The inhibition of chondrogenesis by cyclic AMP in notochord-somite explants appears to result from an inability of somites to respond and not from an effect on the inductive capacity of the notochord, since db-cAMP has no detectable effect on the synthesis of molecules (sulfated GAG and collagen) by the notochord that have been implicated in its inductive activity. Finally, db-cAMP and/or theophylline inhibit the stimulation of somite chondrogenesis normally elicited by purified Type I collagen substrates. Dibutyryl cyclic AMP and theophylline reduce sulfated GAG accumulation by somites cultured on collagen to a level even below that accumulated by somites cultured in the absence of collagen, i.e., on Millipore filters.     

Action of insulin and cell calcium: Effect of ionophore A23187

Summary We have measured the effects of the carboxylic Ca⁺⁺ ionophore A23187 on muscle tension, resting potential and 3-O-methylglucose efflux. The ionophore produces an increase in tension that is dependent on external Ca⁺⁺ concentration since (a) the contracture was blocked by removing external Ca⁺⁺ and (b) its size was increased by raising outside Ca⁺⁺. Neither resting potential nor resting and insulin-stimulated sugar efflux were modified by the ionophore. These data imply that the action of insulin is not mediated by increasing cytoplasmic [Ca⁺⁺]. Additional support for this conclusion was obtained by testing the effects of caffeine on sugar efflux. This agent, which releases Ca⁺⁺ from the reticulum, did not increase resting sugar efflux and inhibited the insulin-stimulated efflux. Incubation in solutions containing butyrated derivatives of cyclic AMP or cyclic GMP plus theophylline did not modify the effects of insulin on sugar efflux. Evidence suggesting that our experimental conditions increased the cytoplasmic cyclic AMP activity was obtained.     

Effect of hexoses and mannoheptulose on cyclic AMP accumulation and insulin secretion in rat pancreatic islets.

The effects of various sugars on the simultaneous release of insulin and accumulation of cyclic AMP were studied in collagenase isolated rat pancreatic islets. D-Glucose stimulated the formation of cyclic AMP at 3 and 60 min of incubation, whether measured by a label incorporation technique, or by the protein kinase binding assay of Gilman. Only D-glucose and D-mannose were able to stimulate insulin release and cyclic [3H]AMP accumulation in the absence of other substrate. D-fructose had a stimulatory effect in the presence of 3.3 mM D-glucose only at a high concentration (33.8 mM), and enhanced the effects of 8.3 mM glucose when added at the concentration of 8.3 mM. D-Galactose was effective only together with 8.3 mM D-glucose. The order of potency of these hexoses, both regarding insulin secretion and cyclic [3H]AMP accumulation, was glucose-mannose-fructose-galactose. L-Glucose and 3-O-methylglucose had no effects at 60 min when incubated together with 8.3 mM D-glucose, whereas at 3 min, 3-O-methylglucose induced a small stimulation of the cyclic [3H]AMP response. D-mannoheptulose and D-glucosamine inhibited the insulin and cyclic [3H]AMP responses to 27.7 mM glucose. Mannoheptulose suppressed completely the glucose effect on cyclic nucleotide accumulation within 90 s. Although under all incubation conditions, the threshold stimulatory or inhibitory concentration of a given agent was identical for insulin release and cyclic [3H]AMP accumulation, these two variables showed quantitative differences in incubations of 60 min, the magnitude of the changes in insulin secretion being larger than that for the cyclic nucleotide. It is suggested that modulation of islet cyclic AMP level is an important step in the transmission of the effect of various sugars on insulin release; however, glucose and possibly other sugars may also enhance insulin release by additional mechanisms not involving the adenylate cyclase-cyclic AMP system of the beta-cell.     

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.     

Opposing actions of methylxanthines and dibutyryl cyclic AMP on 1,25 dihydroxyvitamin D3 production and calcium fluxes in isolated chick renal tubules

In contrast to dibuturyl cyclic AMP, the methylxanthine phosphodiesterase inhibitors theophylline and caffeine were found to inhibit the conversion of 25 hydroxyvitamin D₃ to 1,25 dihydroxyvitamin D₃ in isolated renal tubules from vitamin D deficient chicks. This inhibition occurred at concentrations of methylxanthines which were shown to increase renal tubule cyclic AMP levels. No effect of theophylline or caffeine on 25 hydroxyvitamin D₃ metabolism in isolated chick renal mitochondria was detected. Because of a demonstrated inhibitory action of calcium (10 and 20 μmol/l) on renal mitochondrial conversion of 25 hydroxyvitamin D₃ to 1,25 dihydroxyvitamin D₃, the effect of theophylline and dibutyryl cyclic AMP on cellular calcium-45 efflux and total renal tubule calcium content was estimated. Theophylline 10 mmol/l was found to inhibit renal tubular calcium efflux and to increase total cellular calcium content, while dibutyryl cyclic AMP 1 mmol/l had the reverse effect on both parameters. Divergent actions of the methylxanthines and dibutyryl cyclic AMP on the formation of 1,25 dihydroxyvitamin D₃ and renal tubule calcium efflux and content support the hypothesis that intracellular calcium is an important regulator of renal vitamin D metabolism. The results indicate that observed actions of methylxanthines cannot always be ascribed to cyclic AMP accumulation.     

Dibutyryl-cyclic AMP inhibits cholesterol esterification in J 774 monocyte-like cells

The effect of dibutyryl-cyclic AMP (dbcAMP) and theophylline was investigated on oleic acid incorporation into cholesteryl esters and triacylglycerols in the mouse monocyte-macrophage cell line J 774. 24h pretreatment of macrophages with dbcAMP decreased cholesteryl ester formation in a dose-dependent manner (about 4 fold reduction for dbcAMP 10(-4)M + theophylline 10(-3)M), while oleic acid incorporation into triacylglycerols was markedly (2 to 3 fold) enhanced. The catabolism of acetylated LDL was only slightly affected (about 15-20% reduction with dbcAMP 5 X 10(-4)M + theophylline 10(-3)M). Acyl Coenzyme A: cholesterol-O-acyl-transferase activity, measured in vitro on cell homogenates, was reduced in dbcAMP-treated cells, whereas diacylglycerol acyltransferase activity was increased. These results suggest that cyclic AMP can modulate cholesteryl ester and triacylglycerol formation in macrophages, and that these metabolisms are inversely regulated. Agents which increase cyclic AMP intracellular level could be of interest for reducing cholesteryl ester accumulation in macrophages.     

Adenosine and adenine nucleotides stimulation of skin (epidermal) adenylate cyclase

Adenosie, AMP, ADP and ATP activated adenylate cyclase in pig skin (epidermis) slices resulting in the accumulation of cyclic AMP. This effect was highly potentiated by the addition of the cyclic AMP-phophodiesterase inhibitor, papaverine. But another inhibitor, theophylline, strongly blocked the activation of adenylate cyclase by adenosine and adenine nucleotides. Theophylline apparently competed with adenosine for the cell suface receptor. Like theophylline, the addition of adenine alone caused no accumulation of cyclic AMP, but it significantly inhibited the stimulatory effect of adenosine. Guanosine, or guanine, cytidine, uridine, or thymidine nucleotides has no effect on the accumulation of cyclic AMP. Among other adenine nucleotides was tested, adenosine 5′-monophosphoramidate, but not adenosine 5′-monosulfate, significantly increased cyclic AMP especially with the addition of papaverine. Neither 2′- nor 3′-adenylic acid were effective. Our data indicate that pig epidermis has four specific and independent adenylate cyclase systems for adenosine (and adenine nucleotides), histamine, epinephrine and prostaglandin E.     

Tyrosinase maturation and pigment expression in B16 melanoma: relation to theophylline treatment and intracellular cyclic AMP.

We have studied the effects of theophylline treatment on pigmentation characteristics and growth of two B16 melanoma cell lines, HFH-18 and P/140. Cell counts of control and theophylline-treated cultures confirmed that the drug inhibits cell growth. Light and electron microscope cytochemistry with the L-dopa reaction indicated that the two cell lines differ in their ability to transfer Golgi-associated tyrosinase to developing premelanosomes. The results of these experiments, considered with results of electrophoretic analyses and activity measurements by the Pomerantz method, also provide evidence that increased tyrosinase synthesis occurs in response to theophylline treatment. In addition, results indicate that theophylline induces changes in the rate of synthetic or degradative posttranslational modification of tyrosinase. Measurements of intracellular cyclic AMP levels by radioimmunoassay in control cultures and in theophylline- and alpha-MSH-treated cultures were made. Although the hormone induced spectacular increases in cyclic AMP levels, theophylline produced no detectable change. These results indicate that theophylline differs from alpha-MSH because theophylline-induced changes in pigmentation may not require the participation of intracellular cyclic AMP.     

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.     

Calcium-dependence of sugar transport in rat small intestine

The involvement of Ca2+ in the theophylline action on sugar transport was investigated in isolated rat small intestinal mucosa. Theophylline significantly increased cell water free sugar accumulation and reduced mucosal to serosal sugar fluxes both in the presence and absence of calcium, but the effects of theophylline were significantly less in calcium free media. In theophylline untreated tissues, calcium-deprived bathing solutions decreased tissue galactose accumulation and increased mucosal to serosal sugar flux. The calcium-channel blocker verapamil produced similar effects on intestinal galactose transport to those induced by low extracellular calcium activity. RMI 12330A and the calmodulin antagonist trifluoperazine abolished the theophylline-effects on intestinal galactose transport. Both drugs also affected sugar transport in basal conditions. These studies suggest that calcium might modulate sugar permeability across the basolateral boundary of rat enterocytes, and that its effect may be mediated by calmodulin.     

Elevation of cyclic GMP levels in central nervous system by excitatory and inhibitory amino acids

—Guanosine 3′,5’cyclic monophosphate (cyclic GMP) levels in incubated slices of mouse cerebellum are increased 10-fold by glutamate and two-to three-fold by glycine or γ-aminobutyric acid (GABA). Glutamate also produces a 10-fold increase in adenosine 3′,5’cyclic monophosphate (cyclic AMP) in the same tissue. However, GABA decreases cyclic AMP levels 30-40 per cent, and glycine produces only a transient 50 per cent accumulation of this cyclic nucleotide. Theophylline slightly augments the accumulation of cyclic GMP produced by all three amino acids but markedly attenuates the accumulation of cyclic AMP produced by glutamate. In the absence of Ca²⁺, none of the three amino acids has any effect on cyclic GMP levels, and glutamate produces only a 50 per cent rise in cyclic AMP levels. The decrease of cyclic AMP levels produced by GABA is not affected by theophylline or by the absence of Ca²⁺. These data suggest an involvement of both cyclic GMP and cyclic AMP in the neurochemical actions of glutamate, GABA and glycine.     

Contribution of villus and intervillus epithelium to intestinal transmural potential difference and response to theophylline and sugar.

A chamber design is described which permits isolation of villus or intervillus epithelium from proximal segments of Amphiuma intestine and measurement of the transpithelial potential difference (psi ms) and short-circuit current (Isc) produced by each. In media containing Cl- and 10 mequiv./l HCO3- the villus generated a basal psi ms of 0.8 mV (serosa negative) and Isc of 12 microA/cm2 while the intervillus psi ms and Isc were not different from zero. Acetazolamide altered the villus psi ms by 1.2 mV; the intervillus psi ms by only 0.3 mV. Transepithelial gradients of HCO3- appeared to generate diffusion potentials across the intervillus but not the villus epithelium. The actively transported sugar galactose elevated psi ms by 0.6 +/- 0.1 mV in the intervillus epithelium and by 1.5 +/- 0.2 mV in the villus epithelium for a response ratio (0.6/1.5) = 0.4. The response ratio for valine was 0.3. In contrast, the response ratios for theophylline (0.7) and cyclic AMP (0.7) were significantly higher. These observations indicate that the entire epithelium is responsive to theophylline and cyclic AMP while Na+-dependent solute transport and the basal electrogenic ion transport processes are primarily functions of the cells lining the intestinal villus.     

Metabolic control mechanisms in mammalian systems. Involvement of adenosine 3′:5′-cyclic monophosphate in androgen action

1. The ability of exogenously administered cyclic AMP (adenosine 3':5'-monophosphate) to exert andromimetic action on certain carbohydrate-metabolizing enzymes was investigated in the rat prostate gland and seminal vesicles. 2. Cyclic AMP, when injected concurrently with theophylline, produced marked increases in hexokinase, phosphofructokinase, glyceraldehyde phosphate dehydrogenase, pyruvate kinase, and two hexose monophosphate-shunt enzymes, as well as alpha-glycerophosphate dehydrogenase activity in accessory sexual tissues of castrated rats. The 6-N,2'-O-dibutyryl analogue of cyclic AMP caused increases of enzyme activity that were greater than those induced by the parent compound. 3. Time-course studies demonstrated that, whereas significant increases in the activities of most enzymes occurred within 4h after the injection of cyclic AMP, maximal increases were attained at 16-24h. 4. Increase in the activity of the various prostatic and vesicular enzymes was dependent on the dose of cyclic AMP; in most instances, 2.5mg of the cyclic nucleotide/rat was sufficient to elicit a statistically significant response. 5. Administration of cyclic AMP and theophylline also produced stimulation of enzyme activities in secondary sexual tissues of immature rats. 6. Cyclic AMP and theophylline did not affect significantly any of the enzymes studied in hepatic tissue. 7. Stimulation of various carbohydrate-metabolizing enzymes in the prostate gland and seminal vesicles by cyclic AMP was independent of adrenal function. 8. Concurrent treatment with actinomycin or cycloheximide prevented the cyclic AMP- and theophylline-induced increases in enzyme activities in both castrated and adrenalectomized-castrated animals. 9. Administration of a single dose of testosterone propionate (5.0mg/100g) to castrated rats caused a significant increase in cyclic AMP concentration in both accessory sexual tissues. 10. In addition, treatment with theophylline potentiated the effects of a submaximal dose of testosterone (1.0mg/100g) on all those prostatic and seminal-vesicular enzymes that are increased by exogenous cyclic AMP. 11. The evidence indicates that cyclic AMP may be involved in triggering the known metabolic actions of androgens on secondary sexual tissues of the rat.     

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.     

Synergistic Effects of Adenosine and Compounds Related to Adenosine 3': 5'-cyclic Monophosphate on Dedifferentiating Iris Epithelial Cells in Culture

Addition of adenosine or 5' AMP to the primary culture of newt iris epithelial cells produces an extensive array of fine cytoplasmic processes in a fraction of the cell population. Dibutyryl cyclic AMP, monobutyryl cyclic AMP, cyclic AMP and theophylline have the same effect, but the minimum effective concentrations of the latter four compounds are higher than those of the former two. When the primary cultures are treated simultaneously with two effective compounds at various concentrations a synergis-tic effect is observed between dibutyryl cyclic AMP and theophylline; cyclic AMP and theophylline; adenosine and theophylline; adenosine and cyclic AMP. The results support the interpretation that an increase in cellular level of cyclic AMP, which is produced by exogenous adenosine or 5' AMP as well as by exogenous cyclic AMP, its derivatives or theophylline, is responsible for the formation of radial cytoplasmic processes. The morphogenetic response does not depend on the presence of serum in the culture medium. The possibility is discussed that the cellular level of cyclic AMP is involved as one link of the sequential events which control the dedifferentiation of iris epithelial cells in cell-type conversion.     

Stimulation of the glucose transport system in isolated mouse pancreatic acini by cholecystokinin and analogues.

Cholecystokinin and analogues increased the uptake of 2-deoxy-D-glucose and 3-O-methylglucose into isolated mouse pancreatic acini. This uptake was mediated by a facilitated glucose transport system that was saturable, stereospecific, and was inhibited by both phloretin and cytochalasin B. In agreement with previous studies of acinar function, caerulein was more potent and pentagastrin less potent than cholecystokinin in increasing sugar transport. The cholinergic analogue carbachol mimicked the effect of caerulein; atropine completely abolished the effects of carbachol but was without influence on the effects of the polypeptide hormones. In contrast, secretion, as well as dibutyryl cyclic AMP and dibutyryl cyclic GMP, had no effect on 2-deoxy-D-glucose uptake. Two lines of evidence suggested that hormonal stimulation of this sugar transport system was related to mobilization of cellular Ca2+. First, depletion of cellular Ca2+ by incubation of acini with ethylene glycol bis(beta-aminoethyl ether) N,N,N',N'-tetraacetic acid (EGTA) reduced the effect of caerulein. Second, the Ca2+ ionophore A23187 mimicked the effects of caerulein on 2-deoxy-D-glucose uptake when Ca2+ was present in the medium.