Effects of purine cyclic nucleotides on the growth of neonatal rat hepatocytes in primary tissue culture

cGMP and db-cGMP administered for 20–24 h to neonatal rat hepatocytes in primary culture stimulated their DNA synthesis and proliferation only at concentrations higher than the physiological one, whereas at concentrations equal to or lower than the physiological concentration they were ineffective or inhibitory for both activities. Induction of DNA synthesis to be effected by cGMP required 15 h of treatment, preceded, however, by inhibition of the same process between the 6th and the 14th hour of exposure. In contrast, cAMP and db-cAMP stimulated the flow of cultivated hepatocytes into the S and M stages of their mitotic cycle when administered at very wide concentration range, including the physiological for cAMP and the sub-physiological for db-cAMP. cAMP was effective after 12–14 h of treatment. Equimolar mixtures of cGMP with cAMP and of db-cGMP with db-cAMP also stimulated the proliferative activity of primary hepatocytes, but only at very low doses, which induced a first peak of DNA synthesis between the 2nd and the 6th hour of treatment and a second peak at about the 18th hour. These actions of the cyclic compounds, employed singly or in equimolar combination, were shown to be specific, since they could not be reproduced by their main metabolites. The present results strengthen the view that cAMP plays a pre-eminent role in the positive regulation of hepatocyte proliferation. Contrary to the postulate of the dualistic doctrine, cGMP by itself is not proliferogenic in the physiological range; in fact, cGMP acts as an ancillary, possibly dispensable, compound whose physiological role may be to help, in cooperation with cAMP, liver cells to cross the G1/S boundary of their growth-division cycle.     

Calcium and cyclic nucleotide regulation in incubated mouse retinas.

When retinas from dark-adapted C57BL/6 mice were incubated in the dark for 5 min at 37 degrees C in Earle's medium, they contained 80-120 pmol/mg protein of cGMP and about 13 pmol/mg protein of cAMP. When the incubation in darkness was in calcium-deficient Earle's medium with 3 mM EGTA, a 10-20 fold increase occurred in the cGMP level, peaking at 2-3 min, but no change occurred in cAMP. This elevated level fell in 3 min to normal dark levels on return to normal Earle's medium, but was still about three times that of control levels after 15 min in EGTA-containing solution. Bright light after 2 min of dark incubation of dark-adapted retinas resulted in a 40-50% fall in cGMP, and bright light sharply reduced the elevated dark cGMP level of retinas in calcium-deficient media with 3 mM EDTA. However, no depression of normal dark levels of cGMP has thus far been obtained by increasing external calcium levels, even in the presence of the ionophore A23187. All the above phenomena involving dark cGMP levels and calcium are similar in Earle's medium with 100 mM of K+ substituted for Na+. Congenic rodless (rd/rd) mouse retinas have less than 5% of control cGMP and show only traces of calcium sensitivity. Thus, the above phenomena in controls are likely to be largely occurring in rods. The data suggest a dependency of the dark cGMP level on the calcium level, but that the light-induced fall in cGMP may largely be calcium insensitive.     

Cyclic Guanosine Monophosphate in Primary Cultures of Glial Cells

Cyclic GMP was found in primary cultures of glial cells obtained by dissociation of newborn mouse brain hemispheres. Its basal level (0.52 pmoles/mg cell protein) was as high as that found in adult mouse brain cortex but 10 times lower than in cerebellum. When glia were grown in the presence of dBcAMP, astrocytes changed their morphology; cGMP level increased and reached about 8 to 10 times the basal value. This increase was dose dependant with cAMP and was enhanced by the presence of 5mM Theophylline. Two hypothesis are discussed, either a direct action oc cAMP on glial cGMP metabolism or an indirect one on the protein activator of cGMP phosphodiesterase.     

The effect of ovine trophoblast protein-one on endometrial protein secretion and cyclic nucleotides

The effect of ovine trophoblast protein-one (oTP-1) on endometrial protein secretion was examined by using a dual radioisotope technique in which 3H- and 35S-methionine were employed to measure relative rates of protein release into the medium by endometrial explant cultures (Exp. I). Endometrium (200 mg) from Day (D) 12 of the cycle was cultured with either 5 micrograms/ml oTP-1, 5 micrograms/ml bovine serum albumin (BSA) or 1 mM dibutyryl cyclic adenosine 3',5'-monophosphate (DbcAMP). Culture media from control BSA and treated explant cultures were mixed. Proteins were separated by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) and detected by fluorography. Individual protein spots were punched from gels, extracted, and their radioactive content measured. Ratios of 3H:35S were used to determine treatment effects. In Experiment II, 3H- and 14C-leucine were used for the dual radiolabel, and the DbcAMP treatment was omitted. In both experiments, a protein having a molecular weight (Mr) of about 70,000 and a pI approximately equal to 4 was increased (p less than 0.01) 200-400% by oTP-1. Secretion of several other endometrial proteins was also amplified in the presence of oTP-1. The polypeptides that increased in response to oTP-1 were inhibited by DbcAMP, and vica versa. In Experiment III, endometrial explants from D12 cyclic ewes were cultured for 4 h with either 5 micrograms/ml oTP-1 or 5 micrograms/ml BSA to determine whether oTP-1 influenced concentrations of 3',5'-cyclic adenosine monophosphate (cAMP) and 3',5'-cyclic guanosine monophosphate (cGMP). Concentrations of cAMP in oTP-1-treated endometrium were lower (p less than 0.1) than in BSA-treated endometrium (0.29 vs. 0.41 pmoles/mg tissue, respectively). Levels of cGMP were unaffected by oTP-1. In Experiment IV, endometrium from D14 of the cycle was incubated in medium alone or in medium containing either 2 micrograms/ml oTP-1, 1 microgram/ml oxytocin (OXY), or oTP-1-plus-OXY. None of the treatments significantly affected cAMP levels. In Experiment V, D16 endometrium was collected from pregnant and nonpregnant ewes that had received either 0 or 10 IU OXY i.v. cAMP was higher (p less than 0.01) in endometrium from pregnant ewes compared to nonpregnant ewes (27.9 vs. 13.0 pmoles/mg tissue, respectively), but OXY had no detectable effect on endometrial content of cAMP in either nonpregnant or pregnant ewes.(ABSTRACT TRUNCATED AT 400 WORDS)     

Regulation of Sertoli cell cyclic adenosine 3':5' monophosphate phosphodiesterase activity by follicle stimulating hormone and dibutyrl cyclic AMP

Total phosphodiesterase activity was measured in Sertoli cell culture after exposure to isobutyl-methyl-xanthine, dibutyryl cyclic AMP and FSH. After 24 hr of incubation both FSH and dibutyryl cAMP caused a significant increase in total phosphodiesterase activity of Sertoli cell homogenates (control: 66 ± 16 pmoles/min/mg protein; FSH: 291 ± 25 pmoles/min/mg protein; dibutyryl cAMP: 630 ± 70 pmoles/min/mg protein). FSH stimulation was potentiated by isobutyl-methyl-xanthine. Both in the presence and absence of xanthine, the induction of phosphodiesterase was dependent on the FSH concentration, with maximal stimulation achieved with 0.5–1.0 μg FSH/ml. The induction of phosphodiesterase activity by hormone was abolished by cycloheximide treatment. The data suggest that FSH regulates phosphodiesterase activity via changes of cAMP levels in Sertoli cell in culture.     

The role of cyclic nucleotides in the regulation of mitotic activity in SSPE virus-infected human brain tissue.

The intracellular level of cGMP was independent of the rate of cell division in cells derived from virally infected brain tissue. The phosphodiesterase inhibitor R07-2956 (4-dimethoxybenzyl-2-imidazolidinone) increased the intracellular level of cGMP in virally infected brain cells, but it did not effect the level of cAMP. There was no correction between the increase in cGMP levels following addition of R07-2956 and changes in mitotic activity in the brain cell cultures. Experimental manipulations which increased the cAMP level were accompanied by a decreased mitotic rate indicating there was a correlation between mitotic activity and the level of cAMP in the same cells. Raising the intracellular level of cAMP by exogenous db-cAMP or cAMP or the use of other phosphodiesterase inhibitors routinely increased the level of cGMP as well. Conversely increasing the intracellular cGMP level by adding the exogenous cGMP increased the level of both cGMP and cAMP.A tissue culture system was used with the cell line derived from viral infected human brain tissue originally obtained from a patient with subacute sclerosing panencephalitis (SSPE). The intracellular levels of cAMP and cGMP were monitored by radioimmunoassay following manipulation of the system by addition of exogenous cGMP (0.05 mM), addition of exogenous db-cAMP (0.5 mM), or cAMP (0.5 mM) and the use of phosphodiesterase inhibitors: theophylline (1.0 mM), papaverine (50 μg/ml), 4-3-butoxy-4-methoxy benzyl-2-imidozalidinone (R020-1724) and R07-2956. Cell division was monitored in treated and non-treated cultures at 24 h intervals by analyzing the cell number and mitotic index.High levels of cGMP were found in cells which were not actively dividing but high levels were just as apt to be present in dividing cells. There was an inverse relationship between cell division and the level of cAMP.     

Bombesin-like peptides stimulate phosphatidylinositol turnover in rat brain slices

The ability of bombesin (BN)-like peptides to stimulate phosphatidylinositol turnover in rat brain slices was investigated. BN (1 μM) significantly stimulated inositol-1-phosphate (IP₁) but not inositol-4,5-biphosphate (IP₂) or inositol-1,4,5-trisphosphate (IP₃) production using frontal cortex slices in the presence of LiCl (7.5 mM); BN had no effect on cAMP or cGMP levels. BN and the structurally-related gastrin releasing peptide (GRP) elevated IP₁ levels in a dose-dependent manner. Similarly, nanomolar concentrations of the GRP fragment (Ac-GRP^20–27) significantly elevated IP₁ levels, whereas micromolar concentrations of the inactive GRP^1–16 did not. BN significantly elevated IP₁ levels in those brain regions enriched in BN receptors such as the olfactory bulb, hippocampus, striatum, thalamus and frontal cortex, whereas IP₁ levels were not significantly increased in areas which have a low density of BN receptors such as the cerebellum, medulla/pons and midbrain. These data suggest that CNS BN receptors may utilize phosphatidylinositol as a second messenger.     

Studies of cAMP metabolism in cultured hepatoma cells: presence of functional adenylate cyclase despite low cAMP content and lack of hormonal responsiveness.

The ability of isoproterenol, glucagon, PGE1 and cholera toxin to stimulate the synthesis of cAMP and protein kinase activity in line of liver cells (BRL) and a line of rat hepatoma cells (H35) has been determined. The concentration of cAMP in BRL cells (approximately 10 pmoles/mg protein) is in the range reported for other cultured cell lines but H35 cells contain extraordinarily low amounts of this cyclic nucleotide (approximately 0.05 pmoles/mg protein). Isoproterenol and PGE1 caused an increase in cAMP content, and protein kinase activation in BRL cells, although glucagon was ineffective. H35 cells, in contrast, were completely insensitive to all hormonal agonists. Despite this fact, cholera toxin was able to produce a marked increase in cAMP content, adenylate cyclase activity and protein kinase activation in H35 cells. binding studies with [125 I]-iodohydroxybenzylpindolol, a specific beta-adrenergic receptor antagonist, revealed that each H35 cell possesses fewer than 10 beta-adrenergic receptors whereas BRL cells contain 2-5,000 receptors per cell. The low level of cAMP in H35 cells appears to result from a combination of totally unstimulated adenylate cyclase and apparently elevated phosphodiesterase activities.     

Effects of ethanol on gastric mucosal adenosine 3', 5' monophosphate (cAMP)

The effects of ethanol on the gastric mucosal adenosine 3′, 5′-monophosphate (cAMP) system were evaluated. The activity of adenylate cyclase (AC), phosphodiesterase (PDE), and tissue content of cAMP were determined in the presence of ethanol. NaF stimulated AC in rat gastric mucosa was inhibited in vitro and in vivo by 20% ethanol. Basal AC activity was so low (0.05 ± 0.10 pmoles cAMP formed/min/mg protein) that consistent results without NaF could not be obtained. The PDE activity (172 ± 11 pmoles cAMP consumed/min/mg protein) was approximately 350 fold greater than the basal AC activity. All levels of ethanol tested (2.0–20.0%) significantly inhibited (p<0.05) PDE in vitro. Gastric mucosal levels of cAMP are not measurably altered by ethanol in vivo (5–20%).     

Immunocytochemical localization of cAMP and cGMP in cells of the rat carotid body following natural and pharmacological stimulation

Summary Although the chemoreceptive function of the carotid body has been known for many decades, the cellular mechanisms of sensory transduction in this organ remain obscure. Common elements in the transductive processes of many cells are the cyclic nucleotide second messengers, cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP). Studies from our laboratory have revealed stimulus-induced changes in cyclic nucleotide levels in the carotid body as measured by RIA, but such changes in second messenger levels have not been localized to specific cellular elements in the organ. The present immunocytochemical study utilized the avidin-biotin-peroxidase method to investigate the distribution of cAMP and cGMP in the rat carotid body and to assess changes in the intensity of immunostaining following in vitro stimulation by hypoxia, forskolin, sodium nitroprusside, high potassium, and atrial natriuretic peptide. Both cAMP and cGMP immunoreactivity were localized to type I cells of organs maintained in vivo and fixed by perfusion. Organs exposed to 100% O₂-equilibrated media in vitro produced low but visible levels of cAMP immunoreactivity in a majority of type I cells; hypoxia (5% O₂-equilibrated media) for 10 min moderately increased the level of immunoreactivity; forskolin (10^–5 M), or forskolin combined with hypoxia, dramatically increased cAMP levels in virtually all cells. Moderate levels of cGMP immunoreactivity in control carotid bodies in vitro were strikingly reduced by hypoxia; a significant increase in cGMP levels occurred following incubation in high potassium (100 mM), and under these conditions, the decrease in cGMP immunoreactivity with hypoxia was much more pronounced. The synthetic analog of atrial natriuretic peptide, atriopeptin III (10^–7 M), greatly elevated cGMP immunoreactivity in the type I cells. On the other hand, sodium nitroprusside (1 mM) elevated cGMP staining mostly in vascular elements of the carotid body in vitro. The data implicate the involvement of cyclic nucleotides in transduction of natural chemosensory stimuli by the type I cells in rat carotid body.     

Control of blastema cell proliferation by possible interplay of calcium and cyclic nucleotides during newt limb regeneration

The effects of the divalent cation ionophore A23187, papaverine, and chlorpromazine on the mitotic index and cyclic nucleotide levels in newt limb regeneration blastemata (Notophthalmus viridescens) were assessed. The results of the experiments suggest that an intracellular increase in divalent cation (Ca2+) concentration results in elevated cGMP levels, suppressed cAMP levels, and a corresponding increase in blastema cell proliferation. The results also suggest that the converse conditions, namely, calcium efflux or inhibition of calmodulin activation (i.e., inhibition of Ca2+ binding), yields elevated cAMP levels, suppressed cGMP levels, and a corresponding decrease in blastema cell divisions.     

The effect of heat-stable Escherichia coli enterotoxin, theophylline and forskolin on cyclic nucleotide levels and mucosal surface (acid microclimate) pH in rat proximal jejunum in vivo

The normally acidic mucosal surface pH of 6.24 +/- 0.02(30) in rat proximal jejunum in vivo is effectively neutralised by 30 min exposure to heat-stable Escherichia coli (STa) enterotoxin (14 micrograms/ml) to 6.80 +/- 0.07 (n = 5) or to a forskolin/theophylline combination (1 mM:20 mM) to 7.10 +/- 0.07(7) while perfusion with Krebs-phosphate buffer alone without glucose left the mucosal surface pH unchanged at a pH of 6.21 +/- 0.02(9). Forskolin alone had no effect, and 20 mM theophylline moderately elevated the surface pH to 6.52 +/- 0.03(5). Theophylline, forskolin and their combination all elevated cAMP levels per mg tissue DNA above control values while STa enterotoxin was without effect. In contrast, all agents elevated cGMP levels per mg tissue DNA above control levels. These findings indicate that surface pH is only moderately affected by changes in cAMP levels and is affected to a much greater extent by altered cGMP levels.     

Enrichment of Triadic and Terminal Cisternae Vesicles from Rabbit Skeletal Muscle

An enriched triad and terminal cisternae preparation was achieved from skeletal muscle through alterations of the differential centrifugation and muscle homogenization protocols. Both yield and specific activity (pmoles of radioligand binding per mg protein) were optimized for ³H-PN200-l10 (transverse tubule marker) and ³H-ryanodine (terminal cisternae marker) binding sites. By pelleting crude microsomes between 2,000 an 12,000 × g without any rehomogenizations, we improved both the yield and specific activity of transverse tubule and terminal cisternae markers in crude microsomes by approximately 4-fold to 1000–3000 pmoles binding sites (starting material: approximately 400 grams wet weight fast twitch skeletal muscle), with 10–15 pmoles/mg. Rehomogenization of the 1,000 × g pellet, which is typically discarded, allowed recovery of an additional 5000 pmoles PN200-110 binding sites and an additional 8000 pmoles ryanodine binding sites. Crude microsomes from the rehomogenized 1,000 × g pellets typically displayed specific activities of 20–25 pmoles binding/mg for both ³H-PN200-110 and ³H-ryanodine. Separation of crude microsomes on a sucrose gradient increased specific activity up to a maximum of 50 pmoles/mg in a specific fraction, a five- to ten-fold increase over standard triadic or terminal cisternae preparations. The mean specific activity for enriched triads was 30–40 pmoles/mg for both PN200-110 and ryanodine in pooled fractions, while pooled fractions of enriched terminal cisternae displayed low ³H-PN200-110 binding (3–5 pmoles/mg) and high ³H-ryanodine-specific activity (30–40 pmoles/mg).     

Plasma cyclic nucleotide levels in patients with refractory anaemia with excess of blasts

To verify the clinical usefulness of extracellular cyclic nucleotide determinations as tumour markers in preneoplastic syndromes, plasma cyclic AMP (cAMP) and cyclic GMP (cGMP) levels were monitored in 47 patients with refractory anaemia with excess of blasts (35 RAEB and 12 RAEBt), 20 of whom progressed to acute leukaemia during the observation period. The control group consisted of 45 healthy subjects matched for age and sex. In all groups of patients plasma cAMP levels were within the normal range, whereas plasma cGMP levels were significantly higher than those of normal subjects in both RAEB and RAEBt patients, and increased further when progression to acute leukaemia occurred. These data suggest that serial determinations of plasma cGMP may be useful to monitor the progression of the disease, though there is no evidence that cGMP values at diagnosis may have a prognostic significance.     

氨甲酰胆碱(Carbamylcholine)对大鼠缺血心室致颤阈值的影响及其与cAMP、cGMP的关系

本实验以心室颤动阈(VFT)作为心室易颤性的指标,观察胆碱类物质氨甲酰胆碱对大鼠缺血心室 VFT 的影响及其与心肌 cAMP 和 cGMP 水平的关系。实验结果表明,氨甲酰胆碱可提高正常心脏和急性局部缺血心脏的 VFT,提高缺血和未缺血心肌的 cGMP 水平,但明显降低缺血心肌 cAMP 水平,使缺血和未缺血心肌的 cAMP/cGMP 比值显著降低,其作用与肾上腺素正好相反。实验结果还表明,急性局部缺血心脏的 VFT 与缺血心肌 cAMP/cGMP 比值之间有密切的负相关关系,相关系数 r=-0.905(n=22,P<0.001)。上述结果提示缺血心肌 cAMP/cGMP 比值的提高可能是急性心肌梗塞早期发生心室纤维性颤动的重要因素。     

The effects of nonsuppressible insulin-like protein (NSILP) on cyclic nucleotide metabolism in rat liver.

Nonsuppressible insulin-like protein (NSILP), 100 ng/ml, inhibited cyclic AMP accumulation in rat liver, as stimulated by glucagon, 10^?7M, from 493 ± 12 to 183 ± 7 pmoles/gm tissue (p<0.001), but did not alter basal levels of cyclic AMP, 143 ± 2 pmoles/gm tissue. NSILP, 100 ng/ml, also inhibited cyclic AMP accumulation, stimulated by epinephrine, 5 × 10^?4M, from 387 ± 12 to 233 ± 9 pmoles/gm tissue. With 1 μM as substrate, NSILP, 100 ng/ml, increased cAMP-dependent phosphodiesterase activity in liver slices from 19.08 ± 0.18 to 24.94 ± 0.38 pmoles cAMP hydrolyzed/mg protein/min (p<0.001), but did not alter this enzyme activity in broken cell preparations of rat liver. Cyclic GMP levels in liver slices, 22.5 ± 0.3 pmoles/gm tissue, were increased by NSILP to 36.3 ± 0.5 pmoles/gm tissue (p<0.01). NSILP had no effect on adenylate cyclase activity. These changes, caused by NSILP in cyclic nucleotide metabolism in liver, resemble those described for insulin, and suggest that alterations in cyclic nucleotide levels in liver may be relevant to other hepatic effects of NSILP.     

Nontransferrin-bound Iron in Serum of Patients Receiving Bone Marrow Transplants

Nontransferrin-bound iron (NTBI) and other parameters of iron status were measured in 40 patients undergoing bone marrow transplantation (BMT) prior to conditioning therapy (between day −10 and −7), at the time of BMT (day 0), and 2 weeks later (day +14). Serum iron and transferrin saturation values were normal before conditioning therapy. At day 0 serum iron values were high and median transferrin saturation was 98% (changes in the values of both serum iron and transferrin saturation, p < .0001). Transferrin saturation values were still elevated 2 weeks posttransplant (day +14 vs. baseline values, p = .0001). Starting at low NTBI levels pretransplant (median 0.4 , range 0–4.2 , controls: ≤ 0.4 ), all patients revealed high levels on day 0 (median 4.0 , range 1.9–6.9 , p < .0001) and 2 weeks posttransplant (median 2.7 , range 0–6.2 , p < .0001). These observations indicate that the plasma iron pool in patients undergoing BMT increases to a level at which the normal ability to sequestrate iron becomes exhausted and considerable amounts of NTBI appear in serum. This “free” form of iron can mediate the production of reactive oxygen species and may cause organ toxicity in the early posttransplantation period. © 1997 Elsevier Science Inc.     

Calcium effects on frog retinal cyclic guanosine 3’,5’- monophosphate levels and their light-initiated rate of decay

When retinal sections were isolated from dark-adapted bullfrogs and placed in normal ringer’s solution, they contained 40.7 +/- 0.2 pmol cGMP/mg protein (mean +/- SEM, 30 samples). When isolated, dark-adapted retinal sections were removed from normal ringer’s solution and placed in calcium-deficient ringer’s solution with 3 mM EGTA, there was about a threefold rise in cyclic GMP (cGMP) levels by 1.5 min and about a 10-fold rise by 5 min. The cGMP level remained high with no detectable decrease for at least 40 min (the longest time measured). When isolated, dark- adapted retinal sections were removed from normal ringer’s solution and placed in ringer’s solution which contained high- calcium (20 mM CaCl(2)), there was a slow but significant decrease in cGMP levels. After 20 min in high-calcium ringer’s solution the cGMP level was 0.58 +/- 0.07 (mean +/- SEM, eight samples) of the cGMP level in normal ringer’s solution incubated for the same time. The rate at which 10-fold elevated cGMP levels in low calcium decreased upon illumination was examined using quick-freezing techniques on the retinal sections. The elevated cGMP level in retinal sections incubated in low-calcium decreased upon illumination was examined using quick-freezing techniques on the retinal sections. The elevated cGMP level in retinal sections incubated in low-calcium ringer’s solution was found to decay about 15-fold faster than cGMP levels in retinal sections incubated in normal ringer’s solution. The CGMP level in low calcium was significantly different (P=0.005) after 1 s illumination, whereas the cGMP level in normal calcium was not significantly different.     

Exogenous cAMP and cGMP modulate branching in fusarium graminearum.

A study was made of the effects of adenosine 3',5'-cyclic monophosphate (cAMP), guanosine 3',5'-cyclic monophosphate (cGMP) and choline on the morphology and growth of a wild-type strain (A 3/5) and a highly branched, 'colonial' mutant strain (C106) of Fusarium graminearum. Addition of up to 50 mM-cAMP or cGMP to the medium had no effect on the specific growth rate of strain A 3/5. For strain A 3/5, but not for strain C106, exogenous cAMP caused significant decreases in both mean hyphal extension rate (E) and hyphal growth unit length (G), i.e. cAMP caused mycelia of strain A 3/5 to branch profusely. By contrast, for both strains, cGMP caused significant increases in both E and G, i.e. exogenous cGMP caused mycelia to branch more sparsely. The effects of exogenous cGMP and choline in increasing E and G were synergistic, but the effects of cGMP and choline counteracted the effect of cAMP. The mutant phenotype of strain C106 was not correlated with altered levels of endogenous cAMP or cGMP.     

The measurement of adenosine 3,5-monophosphate in bone.

The binding of adenosine 3′,5′-monophosphate (cAMP) to its specific protein kinase in the presence of hydroxyapatite, collagen and chondroitin sulfate was studied. Only hydroxyapatite inhibited cAMP binding to the protein kinase. To overcome this inhibition, a new and simple technique for the extraction of cAMP from chick and cat bone was developed in which cation interference was minimized. The new methodology consisted of first cleansing fresh bone of marrow and mechanically pulverizing it. the bone fragments are then mixed with water, boiled and homogenized. The homogenate is centrifuged and aliquots of the supernatant fraction assayed for cAMP. The cAMP concentrations of cat and chick bone were found to be between 0.21 and 0.40 pmoles/mg of bone. Furthermore, in response to parathyroid hormone, elevated cAMP levels were detected. The precision, reproducibility and sensitivity of the technique is high. Additional studies with phosphodiesterase confirmed that the method is specific for the cyclic nucleotide.