Localized cyclic AMP-dependent protein kinase activity is required for myogenic cell fusion

Multinucleated myotubes are formed by fusion of mononucleated myogenic progenitor cells (myoblasts) during terminal skeletal muscle differentiation. In addition, myoblasts fuse with myotubes, but terminally differentiated myotubes have not been shown to fuse with each other. We show here that an adenylate cyclase activator, forskolin, and other reagents that elevate intracellular cyclic AMP (cAMP) levels induced cell fusion between small bipolar myotubes in vitro. Then an extra-large myotube, designated a "myosheet," was produced by both primary and established mouse myogenic cells. Myotube-to-myotube fusion always occurred between the leading edge of lamellipodia at the polar end of one myotube and the lateral plasma membrane of the other. Forskolin enhanced the formation of lamellipodia where cAMP-dependent protein kinase (PKA) was accumulated. Blocking enzymatic activity or anchoring of PKA suppressed forskolin-enhanced lamellipodium formation and prevented fusion of multinucleated myotubes. Localized PKA activity was also required for fusion of mononucleated myoblasts. The present results suggest that localized PKA plays a pivotal role in the early steps of myogenic cell fusion, such as cell-to-cell contact/recognition through lamellipodium formation. Furthermore, the localized cAMP-PKA pathway might be involved in the specification of the fusion-competent areas of the plasma membrane in lamellipodia of myogenic cells.     

Regulation of protein kinase C by cyclic adenosine 3':5'-monophosphate and a tumor promoter in skeletal myoblasts

The specific activity of protein kinase C in rat skeletal myoblasts decreased when they were exposed for very short periods to isoproterenol, forskolin, dibutyryl cyclic AMP (Bt2cAMP), or the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA). In the presence of Bt2cAMP or forskolin only the cytosolic but not the membrane-bound kinase activity was found to decrease. Treatment with TPA, however, led to a decrease in the activity of the enzyme both in the cytosolic as well as the membrane fractions. The effects observed in vivo could be duplicated in crude extracts of myoblasts incubated with cAMP analogues or TPA. In the presence of ATP, protein kinase C activity decreased considerably in crude cytosolic fractions treated with the cAMP analogues, but a requirement for ATP was not evident for the decrease in activity brought about by TPA. For the cAMP analogues the decrease in protein kinase C was also prevented by incubation of the extracts with an inhibitor of cAMP-dependent protein kinase. The regulation of protein kinase C by Bt2cAMP (but not by TPA) was altered in Rous sarcoma virus-transformed myoblasts. It is considered likely that a component affected by cAMP (probably a substrate for cAMP-dependent protein kinase) participates in the regulation of protein kinase C activity, and it is altered in unknown ways in transformed myoblasts.     

The cyclic adenosine monophosphate phosphodiesterases of myoblasts, fibroblasts, and their somatic cell hybrids.

Three forms of cAMP phosphodiesterases are found in mouse L cells (fibroblasts) and rat skeletal myoblasts. The myoblast enzymes can be resolved by chromatography on DEAE-cellulose and the fibroblast enzymes by chromatography on DEAE-Biogel. The myoblast enzymes are "high affinity" cAMP specific forms and have different molecular weights, while all L-cell enzymes have an apparent molecular weight of 450,000. Only one of the L-cell enzymes is able to hydrolyze both cyclic guanosine monophosphate (cGMP) and cAMP. Hydrolysis of the latter is stimulated by micromolar amounts of cGMP. The myoblast x L cell hybrids possess at least five phosphodiesterases, three of which can be identified as being of myoblast or fibroblast origin. One of the fibroblast enzymes appears to be modified in hybrids. The entire phosphodiesterase regulatory system of the myoblasts is active in the hybrids.     

The effect of cholera toxin on myogenesis in rat skeletal muscle cultures

Cholera toxin, when added to rat primary embryonic muscle cultures, stimulates intracellular cyclic AMP and cell fusion. The effect on cell fusion can be mimicked by daily addition of dibutyryl cyclic AMP, but not by choleragenoid, which like cholera toxin binds to the ganglioside G_M1, but does not stimulate adenyl cyclase. The effects on fusion of three other agents known to affect intracellular cyclic AMP levels, indomethacin, isobutylmethyl xanthine, and isoproterenol were also studied. It is concluded that intracellular cyclic AMP levels are important in the control of rat skeletal muscle cell fusion.     

Hepatic cyclic AMP generation and ornithine decarboxylase induction by glucagon and beta adrenergic agonists

The relationship of hepatic ornithine decarboxylase (ODC) activity to cyclic AMP levels and nutritional status was studied in the pre-weanling rat. Previous studies demonstrated that 2 hr without food causes a loss of hepatic ODC induction after glucagon or catecholamine injection. Isoproterenol or glucagon administration produced increased hepatic cyclic AMP and tyrosine aminotransferase activity which were not prevented by nutritional deprivation. Blockade of hepatic beta 2 receptors by the selective antagonist ICI 118,551 prevented increased cAMP levels and ODC activity after isoproterenol administration. Blockade of beta 1 receptors by atenolol did not prevent increased cAMP levels or ODC induction by isoproterenol although it did block activation of cardiac ODC. The phosphodiesterase inhibitor RO20-1724 increased hepatic cAMP levels as well as ODC and TAT activities, although the increase in ODC activity was attenuated by nutritional deprivation. RO20-1724 also potentiated the induction of hepatic ODC after glucagon or isoproterenol administration. Administration of 8-bromo cAMP elevated hepatic ODC activity regardless of nutritional status but also elevated serum levels of growth hormone and corticosterone. Hepatic ODC induction by glucagon or beta 2 agonists can be dissociated from changes in cAMP levels during nutritional deprivation.     

Changes in cyclic AMP, adrenylate cyclase and protein kinase levels during the development of embryonic chick skeletal muscle.

The levels of cyclic AMP (cAMP) and activities of adenylate cyclase and protein kinase have been examined in chick skeletal muscle tissue between the 7th and 15th day of its embryonic development. The tissue cAMP levels were found to increase in two main phases; from 8–10 days and from 12–15 days of development. Parallel increases between the 8th and 10th day of development were also found in the basal enzyme activities of both adenylate cyclase and protein kinase. The maximum values of all three parameters coincided with the onset of cell fusion in the tissue. The results are compared with the findings of a similar study carried out on differentiating myoblasts cultured in vitro, and are assessed in terms of the possibility that cAMP levels control the expression of myoblast differentiation.     

Differential regulation of surface Ig- and Lyb2-mediated B cell activation by cyclic AMP. I. Evidence for alternative regulation of signaling through two different receptors linked to phosphatidylinositol hydrolysis in murine B cells.

The differential effect of cAMP on the regulation of early biochemical and cellular functions mediated through two different receptors on murine B cells are reported here. Surface IgM, the Ag receptor, and Lyb2, a 45-kDa differentiation Ag are concomitantly expressed on mature murine B lymphocytes. Triggering of B cells through these molecules, independently, resulted in inositol 1,4,5-triphosphate (IP3) generation, increase in intracellular Ca2+ levels, and cell enlargement associated with progression of cells from G0 to G1 ultimately resulting in DNA synthesis. Pretreatment of resting B cells with cholera toxin as well as other agents that raise the intracellular cAMP [(cAMP)i] such as forskolin, N6,2'-O-dibutyryl cyclic AMP, and 3-isobutyl-1 methyl xanthine inhibited the Ag receptor but not Lyb2-mediated DNA synthesis. The elevation of (cAMP)i inhibited the surface IgM but not Lyb2-mediated IP3 generation, Ca2+ response, and progression from G0 to G1 phase of the cell cycle. Failure of forskolin or N6,2'-O-dibutyryl cyclic AMP to inhibit Lyb2-mediated responses did not appear to be due to induction of cAMP-specific phosphodiesterase activity. Concentrations of H8 [N-(2-(methylamino)-ethyl)-5-isoquinoline sulfonamide, diHCl] inhibitory to cAMP dependent PKA prevented the inhibitory effect of forskolin on surface IgM-mediated Ca2+ response, suggesting that cAMP exerted its effects through PKA. These findings suggest that distinct PLC-coupled receptors, such as sIgM and Lyb2 molecules in B cells, may use either alternative mechanisms for phosphatidylinositol 4,5-bisphosphate hydrolysis or may use different intermediary transducer molecules that differ in their sensitivity to increased (cAMP)i levels. Thus "cross-talk" among cAMP and phosphatidylinositol signaling pathways was demonstrated for IgM but not Lyb2-mediated B cell activation.     

Inhibition of taurolithocholate 3-sulfate-induced apoptosis by cyclic AMP in rat hepatocytes involves protein kinase A-dependent and -independent mechanisms

The mechanisms underlying the inhibition of bile acid-induced apoptosis by cyclic AMP (cAMP) were studied in 24-h-cultured rat hepatocytes. Taurolithocholate 3-sulfate (TLCS, 100 micromol/l) led to a sustained activation of mitogen activated protein (MAP) kinases (JNK, p38(MAPK), and ERKs), dephosphorylation of protein kinase B (PKB), activation of caspases 3 and 8, and hepatocyte apoptosis. cAMP prevented TLCS-induced apoptosis, shifted the persistent TLCS-induced MAP kinase response to a transient pattern, and prevented PKB dephosphorylation. TLCS-induced CD95 and TRAIL receptor-2 trafficking to the plasma membrane were significantly inhibited. Blockade of protein kinase A (PKA) abolished the inhibitory effect of cAMP on TLCS-induced CD95 membrane targeting, but not TRAIL receptor-2 membrane targeting, PKB and MAP kinase responses. H89, an inhibitor of PKA, had no effect on cAMP-induced inhibition of TLCS-triggered poly(ADP) ribose polymerase (PARP) cleavage and caspase activation, but abolished the cAMP-induced inhibition of TLCS-triggered TUNEL- and Annexin V staining. It is concluded that cAMP inhibits bile acid-induced apoptosis via PKA-dependent and -independent mechanisms.     

Cyclic AMP regulates the rate of differentiation of oligodendrocytes without changing the lineage commitment of their progenitors

Oligodendrocytes differentiate in primary cultures of rat brain cells on a specific schedule similar to that observed in vivo. We show that the pace of this developmental schedule is accelerated by the addition of the cyclic AMP analogs dibutyryl cAMP (dbcAMP) or 8-bromo cAMP. Dibutyryl cAMP also inhibits DNA synthesis in A2B5-positive oligodendrocyte-type 2 astrocyte (O-2A) progenitor cells, consistent with the relationship between cessation of proliferation and onset of differentiation observed in vivo and in vitro. Treatment of cultures with dbcAMP has no effect on the proportion of O-2A progenitors that become oligodendrocytes rather than type 2 astrocytes and thus does not affect progenitor lineage decisions. Thus, cyclic AMP analogs accelerate the differentiation of cells apparently already determined to become oligodendrocytes.     

Cyclic AMP delays neutrophil apoptosis via stabilization of Mcl-1

Human neutrophils underwent spontaneous apoptosis, which was accompanied by degradation of Mcl-1, but not other anti-apoptotic molecules (cIAP1, cIAP2, A1, survivin and Bcl-2). Spontaneous neutrophil apoptosis and Mcl-1 degradation were prevented by cyclic AMP (cAMP) agonists (dibutyryl cAMP and prostaglandin E(1)), and the effects of cAMP agonists on neutrophils were highly resistant to cycloheximide, a protein synthesis inhibitor, although slight increase in Mcl-1 mRNA expression was induced by cAMP agonists. Proteasome inhibitors (epoxomicin and lactacystin) also prevented spontaneous neutrophil apoptosis and Mcl-1 degradation to the same extent as cAMP agonists, and no additive effect was obtained by combination of cAMP agonists and proteasome inhibitors. These findings suggest that cAMP agonists, like proteasome inhibitors, delay neutrophil apoptosis primarily via stabilization of Mcl-1.     

Effects of glucagon and insulin on the cyclic AMP binding capacity of hepatocyte cyclic AMP-dependent protein kinase

Extracts obtained from rat hepatocytes incubated with saline, glucagon or insulin were electrophoresed on polyacrylamide gels and then assayed for cyclic (³H)AMP binding capacity. Analysis of the binding patterns demonstrated that glucagon dissociated a holoenzyme of cyclic AMP-dependent protein kinase in a dose-dependent manner. The increase in free regulatory subunits and, hence, in free catalytic subunits explains the activation of this enzyme by glucagon in the liver. Insulin decreased both the amount of cyclic (³H)AMP bound to the holoenzyme and the capacity of the enzyme to be dissociated when the extracts were incubated with increasing concentrations of this cyclic nucleotide. We propose that these insulin-induced effects are determined by an inhibition of the cyclic AMP binding capacity of this protein kinase. This mechanism could account for the inactivation of cyclic AMP-dependent protein kinase that insulin causes in the liver.Abbreviations cAMP (cyclic AMP), Adenosine 3,5 monophosphate - (³H)cAMP cyclic (³H)AMP - MIX 1-methyl-3-isobutylxanthine     

Effects of exogenous cyclic AMP on growth characteristics and radiation response of Reuber H35 hepatoma cells

Reuber H35 rat hepatoma cells, clone KRC, were used to study the effect of cyclic AMP on radiation-induced cell death. Treatment of logarithmically growing cultures with 0.5 mM cAMP for 17 hr prior to irradiation resulted in a decreased cell survival. Similar results were obtained with cultures irradiated after treatment with Bt2cAMP. Treatment of H35 cells with cAMP or Bt2cAMP caused inhibition of their proliferation and resulted in an accumulation of cells in early S phase and a depletion of G2-phase cells. In synchronized cultures cells were relatively radioresistant during their S phase. In addition to single-dose treatment with X rays, the effect of Bt2cAMP on radiation-induced cell death was studied during fractionated irradiation with 2.5 Gy per day. This fractionated irradiation resulted in a dose-reduction factor of 1.6 at the 10% survival level and a 10-fold decrease in the surviving cell population due to the cooperative effects of Bt2cAMP on growth rate and radiation survival. The effect of cAMP on radiation-induced mitotic delay was also studied. It appeared that whereas cAMP had no effect on the progression of G2 cells into mitosis, it prevented cells from recovery from the X-ray mitotic delay in G2.     

Inhibitory action of forskolin on adenylate cyclase activity and cyclic AMP generation

In testicular Leydig cells, forskolin causes the expected stimulation of cAMP and testosterone production and potentiates gonadotropin-induced responses, when present in concentrations of 1-10 microM. In addition, when added at lower doses that did not affect cAMP generation and testosterone responses (100 nM), forskolin caused an increase in sensitivity to hormonal stimulation for all cAMP pools (extracellular, intracellular, and receptor-bound) and a 70% reduction in the ED50 for human chorionic gonadotropin (hCG) stimulation of testosterone production. Forskolin-induced increases in receptor-bound cAMP were less effective than those elicited by hCG in stimulating steroidogenesis. In contrast to the well-known stimulatory actions of forskolin, low doses of the diterpene (in the picomolar to nanomolar range) markedly inhibited the production of cAMP and testosterone. Such inhibitory actions of low-dose forskolin were prevented by preincubation of Leydig cells with pertussis toxin before addition of forskolin and/or hCG. Low concentrations of forskolin also inhibited adenylate cyclase activation by GTP and luteinizing hormone, and this effect was prevented by pretreatment of cell membranes with pertussis toxin. These studies have defined the stimulatory effects of forskolin on Leydig-cell cAMP pools, including potentiation of the hormonal increase in receptor-bound cyclic AMP by forskolin, and have provided additional evidence for the functional importance of cAMP compartmentalization during hormonal stimulation of steroidogenesis. We have also demonstrated a novel, high-affinity inhibitory action of forskolin upon adenylate cyclase activity and cyclic AMP generation, an effect that appears to be mediated by the Ni guanine nucleotide regulatory subunit of adenylate cyclase.     

The antilipolytic action of insulin on adrenocorticotrophin-stimulated rat adipocytes. The roles of adenosine 3',5'-monophosphate and the protein kinase dependent on adenosine 3',5'-monophosphate

The extent to which a fall in cellular cyclic AMP could account for the antilipolytic action in rat epididymal adipocytes incubated with adrenocorticotrophic hormone was studied. The antilipolytic effect, measured by suppression of glycerol release, was always associated with a decrease in cyclic AMP, but the magnitude of the fall was modified by several factors. For example, it was greater when the cAMP level was high, as when it is at its peak after hormone stimulation, or when cell concentrations are low. Glucose did not modify appreciably the insulin effect on the nucleotide level. The inhibitory effects of insulin on corticotrophin-stimulated lipolysis and cyclic AMP levels were detectable at the concentrations of 1 microU/ml and were biphasic, with maximal effects at 10-100 microU/ml. Protein kinase activity ratio was similarly affected. Activity of cyclic-AMP-dependent protein kinase conformed closely to the level of cyclic AMP. There was no indication that insulin modified the sensitivity of the kinase to cyclic AMP. Insulin did not alter the relationship of cellular cyclic AMP levels to glycerol when adipocytes were incubated with various concentrations of corticotrophin. This was true, irrespective of whether measurements were made when cyclic AMP was on the upward rise after hormone stimulation, or on the decline. The curves obtained with and without insulin were superimposable. It is concluded that the inhibitory action of insulin on lipolysis in fat cells can be fully accounted for by a decrease in cyclic AMP.     

Interaction of "aza" and "deaza" analogs of adenosine cyclic 3', 5'-phosphate with some enzymes of adenosine cyclic 3', 5'-phosphate metabolism: evidence that the lone pair electrons of N-3 are involved in the binding of adenosine cyclic 3', 5'-phosphate to type II adenosine cyclic 3', 5'-phosphate-dependent protein kinase.

Five hetercyclic analogs of adenosine cyclic 3',5'-phosphate (cyclic AMP) were examined for their ability (1) to stimulate type II cyclic AMP-dependent kinases from bovine brain, bovine heart, and rat liver; (2) to serve as substrates for "high Km" (Km for cyclic AMP = 0.13-0.43 mM) cyclic nucleotide phosphodiesterases from bovine heart, rabbit kidney, and rat liver; and (3) to inhibit the hydrolysis of cyclic AMP catalyzed by "low Km" (Km for cAMP = 0.32-1.5 muM) cyclic nucleotide phosphodiesterases from bovine brain, bovine heart, dog heart, rabbit liver, rat brain and rat liver. The analogs all had a purine ring system which had been modified by replacement of a ring carbon with nitrogen or vice versa to yield 2-aza-cAMP (7-amino-4-beta-D-ribofuranosylimidazo [4,5-d] -v-triazine cyclic 3',5'-phosphate); 8-aza-cAMP (7-amino-3-beta-D-ribofuranosyl-v-triazolo-[4,5-d]-pyrimidine cyclic 3',5'-phosphate); 1 deaza-cAMP (7-amino-3-beta-D-ribofuranosylimidazo [4,5-b[pyridine cyclic 3',5'-phosphate); 3-deaza-cAMP (4-amino-1-beta-D-ribofuranosylimidazo[4,5-c]pyridine cyclic 3',5'-phosphate) and 7-deaza-cAMP (7-amino-4-beta-D-ribofuranosylpyrrolo[2,3-d]pyrimidine cyclic 3',5'-phosphate).     

Mechanism of hormonally induced refractoriness of ovarian adenylate cyclase to luteinizing hormone and prostaglandin E.

Stimulation by prostaglandinE2 (PGE2) or luteinizing hormone (LH) of cyclic AMP (cAMP) production by rat Graafian follicles was reduced when the follicles were cultured for 3-6 hours in PGE2 or 12-24 hours in cAMP. The follicles regained adenylcyclase response to PGE2 when held in a PG-free medium, but refractoriness to LH remained even after culture without LH for 8 hours or in anti-LH antiserum. Follicle desensitization to LH was not associated by a decrease in total number of LH-binding sites, nor by an altered activity of cAMP phosphodiesterase. Desensitized follicles responded fully to NaF, quanosine triphosphate (GTP), or guanylimidodiphosphate (Gpp(NH)p). Actinomycin D or cycloheximide prevented the development of refractoriness to PGE2 when added with PGE2. Actinomycin D also prevented desentization to LH. Therefore desensitization may involve synthesis of a protein that couples hormone reception to adenyl cyclase.     

Analogs of cyclic AMP as chemoattractants and inhibitors of Dictyostelium chemotaxis.

Aggregative amoebae of Dictyostelium discoideum, D. mucoroides, D. purpureum, and D. rosarium react chemotactically to cyclic AMP (cAMP). We measured the chemotactic activity of 14 cAMP analogs and found that these four species have a similar sensitivity to chemical modifications of cAMP; this suggests that the cAMP receptor is identical in all of these species. Besides the induction of a chemotactic response, cAMP analogs also may delay or prevent cell aggregation. cAMP analogs like N1-O-cAMP, 2'-H-cAMP, and 5'NH-cAMP are chemotactically nearly as active as cAMP and induced no, or only a short, delay of cell aggregation. Other cAMP derivatives, such as 6-Cl-cPMP and 8-Br-cAMP, are chemotactically active only at high concentrations and delayed cell aggregation for several hours. Still other cAMP analogs, which do not induce a chemotactic reaction in D. mucoroides, D. purpureum, and D. rosarium, either prevented cell aggregation [cAMPS(S), cAMPS(R), and 3'-NH-cAMP[ or had no effect on cell aggregation [cAMPN(CH3)2(S) and cAMPN(CH3)2(R)]. cAMP analog 3'-NH-cAMP prevented cell aggregation by the inhibition of chemotaxis, whereas cell locomotion was not affected. Although we cannot provide a satisfactory explantation for these observations, our data suggest that occupation and activation of the cAMP receptors do not always induced a chemotactic response.     

Effect of 1,25-dihydroxyvitamin D-3 on phosphate uptake into chick intestinal brush border membrane vesicles

The production of collagenase by human skin explants in culture is prevented by 10(-8) M dexamethasone, 5 . 10(-4) M dibutyryl cyclic AMP, or 2.5 . 10(-3) M theophylline. Decreases in collagenase activity are paralleled by reductions in the degradation of explant collagen during the culture period. Progesterone, which effectively inhibits collagenase production in rat uterine explant cultures, has no effect on human skin explants. The inhibition by cyclic AMP is nucleotide specific. When partially inhibitory concentrations of dexamethasone and dibutyryl cyclic AMP, or dexamethasone and theophylline, are added to culture medium together, the resultant inhibition is that predicted by additivity. Synergistic inhibition, as observed in rat uterus between progesterone and dibutyryl cyclic AMP, fails to occur. Dexamethasone inhibits the production of collagenase by cultured explants of rat uterus, with complete inhibition occurring at 10(-7) M steroid. Synergism between glucocorticoids and dibutyryl cyclic AMP or between dexamethasone and progesterone could not be demonstrated in the uterine culture system. These results suggest the existence of three regulatory systems for the control of collagenase production in mammalian tissues, and that cooperativity between systems may occur on a tissue-specific basis.     

A new role for enteric glucagon-37: acute stimulation of glucose absorption in rat small intestine

Glucagon-37 is secreted by intestinal L-cells following carbohydrate uptake. It is known to inhibit gastric acid secretion (hence also named oxyntomodulin) and appears to increase intracellular cyclic AMP concentrations. Since cyclic AMP could enhance intestinal glucose absorption, a possible stimulatory effect of glucagon-37 on glucose transport was examined. Glucagon-37 acutely increased glucose absorption in the isolated, vascularly perfused small intestine and in isolated enterocytes of the rat. In these cells the stimulation by glucagon-37 could be completely blocked by the cAMP antagonist Rp-cAMPS and was therefore mediated by cAMP. The stimulation of intestinal glucose absorption by glucagon-37 appears to be a major new physiological function.     

Autophagocytosis: in vitro induction by microtuble poisons.

In the rat liver in vivo autophagy has been shown to be induced by glucagon, cyclic AMP (cAMP), dibuturyl-cyclic AMP (db-cAMP) and vinblastine administration. Vinblastine and demecolcine were shown in this study to be potent inducers of autophagy also in Ehrlich ascites tumor cells in vitro. It is suggested that this effect is rather dependent on direct effect on membranes of endoplasmic reticulum than on the breakdown of microtubules by these compounds.