In Vivo and In Vitro Manifestations of Adrenergic Blockade in Bordetella pertussis-vaccinated Mice

The in vivo metabolic events which follow the administration of epinephrine, norepinephrine, or isoproterenol were examined in normal, Bordetella pertussis-vaccinated, and alpha and beta adrenergically blocked mice. The normal hyperglycemic response to epinephrine was suppressed in all experimental groups. The pertussis-sensitized and beta-blocked animals produced similar split patterns of altered response not duplicated by the alpha-blocking compounds. Those catecholamines that normally increase free fatty acids and lactic acid in the circulation failed to do so in the pertussis-sensitized and beta-blocked animals; the inhibition of free fatty acid mobilization was also demonstrated with adipose tissue incubated in vitro. An extract of the pertussis organism added to incubation media prevented the catecholamine-induced free fatty acid response. The epinephrine-stabilizing effect of bovine serum albumin (Cohn-fraction V) was observed. The results of these studies further emphasize a correlation between pertussis-sensitized and beta-adrenergically blocked mice.     

Modulation of cyclic AMP in purified rat mast cells. I. Responses to pharmacologic, metabolic, and physical stimuli.

The cyclic adenosine 3', 5'-monophosphate (cAMP) content of isolated unstimulated mast cells and the changes induced by a variety of pharmacologic, metabolic, and physical stimuli were studied. A modified bovine serum albumin density gradient purification method consistently provided mast cell preparations which were 95% or more pure, without apparent damage, and a 73% recovery of the mast cells applied to the gradients. The measured cAMP in unstimulated mast cells was high, a mean of 16 picomoles per million cells. Moderate agitation or contact with glass increased cAMP content about 2-fold. When calcium was omitted from the medium mast cell cAMP was markedly elevated; incremental increases in added calcium ion concentration from 1 muM to 1 mM caused a linear decrease in cAMP content. Theophylline (3 to 20 mM) caused a dose-related increase in mast cell cAMP content, approximately 2-fold at 20 mM theophylline. Epinephrine (0.01 to 1 mM) caused a modest, dose-related increase in cAMP. In the presence of theophylline, epinephrine increased cAMP levels equal to or greater than the sum of the effects of the agents used individually. The increase in cAMP induced by epinephrine was completely inhibited by 100 muM propranolol and partially inhibited by 10 muM propranolol, thus suggesting that a beta adrenergic receptor is involved. Prostaglandin E1 (PGE1) and histamine (in the presence of theophylline) also raised cAMP. Carbamylcholine (1 nM) lowered cAMP 38%; Atropine (0.1 mM) inhibited the decrease in cAMP induced by 1 nM carbamylcholine by 83% indicating that a muscarinic receptor is involved. In these homogeneous single cell suspensions, therefore, cholinergic and beta adrenergic agents have opposing effects on cAMP levels. Diazoxide (10 muM) and adenine (1 muM) caused 37 and 32% decreases in cAMP, respectively. The availability of highly purified mast cells and the identification of agents which either decrease or increase cAMP content allows a direct examination of the role of cAMP in histamine release.     

Alpha 1-adrenergic regulation of TSH-stimulated cyclic AMP accumulation in rat thyroid cells

Addition of epinephrine to cultured FRTL-5 rat thyroid cells led to a concentration-dependent reduction of TSH- and forskolin-stimulated cAMP accumulation. Clonidine, which preferentially activates the alpha 2-adrenoreceptor, had no effect on cAMP levels. The reduction of cAMP levels by epinephrine was selectively blocked by prazosin, an alpha 1-adrenoreceptor antagonist, but not by yohimbine, an alpha 2-adrenoreceptor antagonist. Pretreatment of FRTL-5 cells with pertussis toxin failed to abolish the inhibitory effect of epinephrine on cAMP accumulation. The bioactivity of the pertussis toxin preparation in this cell line was verified by its ability to ADP-ribosylate the alpha-subunit of the inhibitory guanine nucleotide regulatory protein, Ni, as well as its ability to abolish the inhibitory effect of N6-[L-2-phenylisopropyl]-adenosine on TSH-stimulated cAMP formation. The inhibitory effect of epinephrine on cAMP levels was dependent on Ca2+ and was reversed by 3-isobutyl-1-methylxanthine. Taken together, these results suggest that epinephrine reduces cAMP levels via alpha 1-adrenoreceptors. The failure of pertussis toxin to abolish this alpha-adrenergic effect is consistent with the conclusion that epinephrine-induced attenuation of cAMP accumulation occurs through activation of a Ca2+-calmodulin-sensitive phosphodiesterase and does not involve Ni or Ni-like proteins.     

The effects of thyrotropin-releasing hormone on cyclic AMP accumulation in rabbit cerebral cortical tissue in the presence and absence of CNS depressants

The $\text{in vitro}$ effects of thyrotropin-releasing hormone on cAMP accumulation in cortical brain slices from rabbits is reported. Incubation of cortical tissue at three concentrations of thyrotropin-releasing hormone (1,2,5nM) had no discernible effects on baseline cAMP levels. When cortical tissue was incubated in the presence of pentobarbital (.5mM) or if cortical tissue was taken from animals pretreated with α-methyl-p-tyrosine (α-MPT), the baseline cAMP accumulation was depressed. This depression could be eliminated by the addition of TRH to the incubation media. Where cortical tissue from atropine-pretreated animals was used or when atropine was added to the incubation media, there was an increase in baseline cAMP accumulation which was unaffected by addition of TRH. These results show that TRH can modify cAMP accumulation in mammalian cortical brain tissue but this ability may only become evident in situations where normal cAMP concentration has been depressed.     

Effect of catecholamines and ovarian hormones on cyclic AMP accumulation in rat hypothalamus

Effect of different monoamines and estradiol were studied on cyclic AMP (cAMP) accumulation in hypothalami from 21 day old female rats. Incubation for 5 min with 10^?4M epinephrine, norepinephrine or dopamine resulted in an increase in cAMP accumulation in the hypothalamus. Incubation of hypothalamic tissue with estradiol (4 × 10^?7M to 2 × 10^?5M) also resulted in an increase in cyclic AMP levels. The increase caused by estradiol was observed only after 50 min of incubation period. The estradiol induced increase in cyclic AMP accumulation was abolished by both α and β blockers. These results suggest that the estradiol-induced increase in cyclic AMP may be mediated by a prior increase in catecholamines in the hypothalamic tissue.     

The role of calcium in regulation of cyclic nucleotide content in human umbilical artery.

In term gestational human umbilical artery segments incubated in room air at 37 degrees, histamine, acetylcholine, bradykinin, K+, and serotonin (agonists that cause contraction) cause accumulation of guanosine 3':5'-monophosphate (cGMP) without altering the content of adenosine 3':5'-monosphophate (cAMP); prostaglandin E1 (PGE1), which relaxes the artery, causes cAMP accumulation without affecting the cGMP content (Clyman, R. I., Sandler, J.A., Manganiello, V.C., and Vaughan, M. (1975) J. Clin. Invest., in press). It has been postulated that Ca-2+ is important in the regulation of cyclic nucleotides in other tissues. In the umbilical artery the control of cAMP content by PGE1 was independent of Ca-2+. After incubation in Ca-2+-free medium, the c GMP contentof the artery segments was decreased by 50% and was unaffected by histamine, acetylcholine, bradykinin, and K+. Readdition of Ca-2+ (2.7 mM) or Sr-2+ (3.6 mM) to the medium partially restored the basal cGMP content and the agonist effects on the cGMP content. However, Sr-2+ was not as effective as Ca-2+ in this regard. Ionophores A23187 and X537A (agents that facilitate Ca-2+ movement through membranes) mimicked the effects of these Ca-2+-dependent agonists on cGMP content. Incubation with the phosphodiesterase inhibitor 3-isobutyl-1-methyl xanthine (0.1 mM) increased both the basal content of cGMP and the histamine-induced accumulation 3-fold. This effect was dependent on the presence of Ca-2+ also. Accumulation of cGMP induced by serotonin, on the other hand, was not diminished in Ca-2+-depleted arteries and, in fact, seemed to be inhibited by 2.7 mM Ca-2+. These observations are consistent with the existence in the umbilical artery of two separate mechanisms for control of cGMP synthesis that are influenced differently by Ca-2+.     

Antigenic challenge of immunized mice induces endogeneous production of IL-3 that increases histamine synthesis in hematopoietic organs

Antigenic challenge of Nippostrongylus brasiliensis-infected mice induces a striking increase in histidine decarboxylase (HDC) activity in both spleen and bone marrow cells. This enhancement takes place within 1 h after injection, with a maximum at 4 h and a return to pretreatment values 20 h later. It is associated with the appearance of IL-3 in the sera of these mice. In addition, the intracellular histamine content in both hematopoietic organs is concomitantly increased. A similar injection of worm Ag into normal mice has no significant effect. Comparable enhancement of HDC activity and intracellular histamine content with almost identical kinetics is promoted by i.v. injection of rIL-3 into normal mice. Moreover, HDC levels in infected mice are increased to the same extent in response to either specific antigen or rIL-3 injection. Taken together these results support the conclusion that antigenic challenge of immunized mice induces endogeneous IL-3 which, in turn, promotes a rapid increase in histamine synthesis in hematopoietic organs.     

Age-related changes in the control of hepatic cyclic AMP levels by alpha 1- and beta 2-adrenergic receptors in male rats

Hepatocytes from juvenile male rats (80-110 g) showed a 12-fold elevation of cAMP in response to epinephrine, which was mediated by beta 2-adrenergic receptors. In these cells, either alpha 1- or beta 2-adrenergic stimulation alone activated phosphorylase and glucose release although the alpha 1-phosphorylase response was 10-fold more sensitive to epinephrine and resulted in more rapid (by 10-20 s) activation of the enzyme. This suggests that the beta 2-adrenergic response is functionally unimportant for glycogenolysis, even in juvenile rats. beta 2-Adrenergic stimulation did, however, produce an increase in the rate of gluconeogenesis from [U-14C] lactate in these cells. Aging in the male rat was associated with attenuation of the beta 2-adrenergic cAMP response coupled with the emergence of an alpha 1-receptor-mediated accumulation of cAMP. The order of potency displayed by the alpha 1-adrenergic/cAMP system to adrenergic agonists and antagonists was identical with that of the alpha 1-adrenergic/Ca2+ system. These data suggest that, in maturity, hepatic alpha 1-receptors become linked to 2 separate transduction mechanisms, namely Ca2+ mobilization and cAMP generation. Calcium depletion of hepatocytes from adult, but not juvenile, male rats increased the alpha 1-component of the cAMP response to epinephrine, but under these conditions, alpha 1-activation of phosphorylase occurred more slowly than in calcium-replete cells. Blockade of alpha 2-adrenergic receptors did not significantly modify catecholamine effects on hepatocyte cAMP or phosphorylase a levels in male rats at any age studied, suggesting a lack of functional significance for these receptors in the regulation of glycogenolysis.     

Stimulation of cyclic AMP in chondrocyte cultures: effects on sulfated-proteoglycan synthesis

The effects of N6,O2'-dibutyryladenosine 3':5'-cyclic monophosphate (DBcAMP), 8-bromoadenosine 3':5'-cyclic monophosphate (8Br-cAMP), 3':5'-cyclic monophosphate (cAMP), L-isoproterenol and L-epinephrine on sulfated-proteoglycan synthesis by rabbit articular chondrocytes were compared. DBcAMP and 8Br-cAMP in the presence or absence of 3-isobutyl-1-methylxanthine (IBMX) stimulated sulfated-proteoglycan biosynthesis after 20 h of incubation. cAMP had no significant effect. Both DBcAMP and 8Br-cAMP increased the hydrodynamic size of the newly synthesized proteoglycan monomer (A1D1) relative to control cultures. By contrast, although isoproterenol and epinephrine stimulated total cAMP synthesis, neither stimulated sulfated-proteoglycan synthesis. Whereas intracellular cAMP accumulated after incubation with DBcAMP and 8Br-cAMP, this was not the case with isoproterenol whether IBMX was present or not. Thus, stimulation of sulfated-proteoglycan synthesis by cAMP analogues in chondrocyte cultures appears to be dependent on increased intracellular cAMP accumulation rather than total cAMP biosynthesis.     

Angiotensin II inhibits hepatic cAMP accumulation induced by glucagon and epinephrine and their metabolic effects

Incubation of isolated hepatocytes containing normal Ca2+ levels with angiotensin II, vasopressin or A23187 caused significant inhibition of the cAMP response to glucagon. Angiotensin II also inhibited cAMP accumulation induced by either glucagon or epinephrine in Ca2+-depleted hepatocytes. When submaximal doses of hormone were employed such that cell cAMP was elevated only 3-4-fold (approximately 2 pmol cAMP/mg wet wt cells) inhibition by angiotensin II was correlated with a decrease in phosphorylase activation. The data demonstrate that inhibition of hepatic cAMP accumulation results in reduced metabolic responses to glucagon and epinephrine and do not support the contention that the hepatic actions of glucagon are independent of cAMP.     

Different lipolytic effects of theophylline and dibutyryl cyclic AMP in vivo and in vitro.

Both dcAMP and theophylline are known to promote lipolysis in vitro by increasing intracellular cAMP. Although theophylline stimulates FFA mobilization in vivo as well, a report of low circulating FFA levels in the rat given dcAMP suggested that dcAMP may inhibit lipolysis in the intact animal. To explore this possibility, a comparison of the in vitro and in vivo lipolytic effects of theophylline and dcAMP was made in the young dog. Circulating glycerol and FFA levels rose following the administration of theophylline. While glycerol and FFA fell slightly in puppies given dcAMP, only the FFA change was significant. Epinephrine infusions given alone produced sustained elevations of glycerol and FFA. When theophylline was given in conjunction with ongoing epinephrine infusions, plasma glycerol and FFA levels remained high. On the other hand, epinephrine-stimulated lipolysis was markedly inhibited by dcAMP, as shown by pronounced falls of glycerol and FFA from the elevated levels found with epinephrine alone. In vitro studies involving fragments of puppy adipose tissue reveal that epinephrine, theophylline, and dcAMP promoted glycerol release. In contrast to the in vivo observations, lipolysis was also stimulated by combinations of both epinephrine and theophylline as well as by epinephrine and dcAMP. Thus, theophylline stimulates lipolysis in vitro and in vivo in the puppy. In contrast, dcAMP stimulates lipolysis in vitro but inhibits this action in the intact animal. This important difference in the two pharmacologic agents suggests the need for caution when using them in in vivo studies involving the action of cAMP.     

Modulation of cyclic AMP in purified rat mast cells. II. Studies on the relationship between intracellular cyclic AMP concentrations and histamine release.

Changes in intracellular and extracellular rat mast cell adenosine 3':5' monophosphate (cAMP) concentrations during stimulation of histamine release by 48/80 were studied. There was a rapid and progressive fall in intracellular cAMP beginning within 10 sec after the addition of 48/80. The lowest cAMP values were obtained at 10 min, with return to control levels by 30 min. The fall in cAMP was dose-related with progressive decreases in 10-min cAMP measurements as the 48/80 concentration was increased from 0.25 to 1.00 mug/ml. There was a graded increase in histamine release over the same concentration range. Attempts to demonstrate significant amounts of cAMP in the medium during 48/80 stimulation were unsuccessful, indicating that the changes in cAMP intracellularly are not due to altered cellular permeability. There was a general correlation between the ability of pharmacologic agents to sustain high intracellular levels of cAMP in the presence of 48/80, and inhibition of histamine release. Theophylline (20 mM) which increased cAMP levels 2- 3-fold prevented a detectable decrease in cAMP after 1 mug/ml 48/80 (measured at 10 min) and almost completely inhibited histamine release. Prostaglandin E1 (27 muM) also raised cAMP levels, decreased the 48/80-induced fall in cAMP (by 42%). Epinephrine increased mast cell cAMP levels, but did not prevent the subsequent 48/80-induced decrease in cAMP and did not inhibit histamine release. Carbamylcholine (1 nM), adenine (1 muM), and diazoxide (10 muM) lowered mast cell cAMP and potentiated 48/80 induced release. In view of previous studies from this laboratory indicating that 48/80 stimulates mast cell phosphodiesterase, it seems likely that the 48/80-induced fall in cAMP is due, at least in part, to increased cAMP destruction. Since agents which prevent the fall in cAMP inhibit histamine release, it is apparent that cAMP is an important part of the control mechanism of histamine secretion. On the other hand, it cannot be concluded that a decrease in cAMP alone is sufficient to produce a response since carbamylcholine, diazoxide, and adenine which lower cAMP do not alter histamine release unless 48/80 is also present.     

Modulation of the alpha 1-adrenergic control of hepatocyte calcium redistribution by increases in cyclic AMP

The Ca2+ content of hepatocytes from juvenile male rats (80-110 g) or adult female rats (135-155 g) displayed a biphasic dose-response curve to epinephrine. Low concentrations (less than or equal to 10(-7) M) caused efflux of Ca2+ from the cells, while higher concentrations (10(-6) M and 10(-5) M) induced net Ca2+ uptake which correlated with a large beta 2-adrenergic-mediated increase in cAMP (Morgan, N. G., Blackmore, P. F., and Exton, J. H. (1983) J. Biol. Chem. 258, 5103-5109). Calcium accumulation could be induced in cells from older male rats (180-230 g) by combining a Ca2+-mobilizing hormone with either exogenous cAMP or glucagon (10(-8) M). Readdition of Ca2+ in the presence of glucagon to cells treated with ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid also resulted in enhanced Ca2+ accumulation compared with controls. Addition of vasopressin plus glucagon to the medium perfusing male rat livers also led to cell Ca2+ accumulation, as evidenced by uptake of Ca2+ from the perfusate. Incubation of hepatocytes with antimycin A, oligomycin, and carbonyl cyanide m-chlorophenylhydrazone prevented net Ca2+ accumulation suggesting that mitochondria play a role in the uptake response. This was confirmed by isolation of mitochondria from cells incubated under conditions which promote Ca2+ accumulation. Within 5 min of incubation, the Ca2+ content of these mitochondria was increased 2-fold relative to controls, an effect which was inhibited by oligomycin. These studies demonstrate that a rise in hepatic cAMP can reverse hormonally induced Ca2+ mobilization and point to a major role for the mitochondria in this effect.     

Role of histamine and cyclic nucleotides in implantation in the rabbit

Summary The effect of histamine on cAMP and cGMP levels in day 6 (144 h post coitum) rabbit blastocysts was determined. Histamine at 200 M and 1000 M concentrations stimulated the increased formation of cAMP in vitro, whereas stimulation of cGMP occurred only in the presence of 1000 M histamine. Furthermore, intrauterine injection of RMI-12330A (50 g or 500 g/uterine horn), an inhibitor of adenylyl cyclase, on day 5 of pregnancy interrupted embryro development and implantation of the embryo. The drug was also effective in reducing the cAMP level in the endometrial cells in vitro. A relationship between histamine and cyclic nucleotide changes in embryo development and implantation is suggested.     

The role of cyclic AMP in modulating cytotoxic T lymphocytes. II. Sequential changes during culture in responsiveness of cytotoxic lymphocytes to cyclic AMP-active agents

Agents that increase cyclic AMP (cAMP) levels inhibited the activity of cytotoxic T lymphocytes (CTL) obtained from spleens of mice immunized with allogeneic cells. Cultured CTL, however, were desensitized to cAMP-active agents, in that the capacity of these agents to inhibit the activity of cultured CTL was markedly reduced. The capacity to inhibit CTL activity was reduced more rapidly for some agents than for others; the percent inhibition by histamine and PGE2 was reduced after 4 hr and was reduced more than 20% after 24 hr, whereas the percent inhibition by dibutyryl cAMP, theophylline, and cholera enterotoxin was reduced less than 6% after 24 hr, and was reduced significantly only after 48 hr. Culture in the presence of antigen accelerated desensitization to the latter three agents. CTL populations were also tested for their capacity to increase cAMP levels in response to agonists. The capacity of histamine to increase cAMP levels of the CTL was lost within 4 hr (i.e., as rapidly as its capacity to inhibit CTL activity) and was never restored, whereas the capacity of PGE2 to increase cAMP levels persisted throughout culture. These results suggest that culture induces multiple alterations in cAMP metabolism of CTL. These alterations, which result in dissociation of CTL activity from cAMP-mediated regulatory steps, may include loss of histamine receptors and/or histamine receptor-adenylate cyclase coupling, and also loss of one or more biochemical reactions that link elevated cAMP levels to inhibition of lysis.     

Regulatory role of DOPA and components of the cyclic adenosine-3',5'-monophosphate system]

It was shown on albino mice that when DOPA-3H (20 muCi/mouse) was administered before nonradioactive DOPA (1 mg/mouse) tritium accumulation in the tissue of Harding-Passi's melanoma of these mice proved to increase. Melanoma radioactivity in this experimental group was double that in the tumour tissue of the animals to which DOPA-3H alone was administered. Examination of the adenylate cyclase, phosphodiesterase activity and of the level of cAMP in melanoma of mice 2 hours after DOPA administration (1 mg/mouse) showed accumulation of cAMP and an increase in the phosphodiesterase activity; as to adenylate cyclase activity--it fell. It is suggested that DOPA realizes its effect not only as melanin precursor, but also through the cAMP system, influencing the melanogenesis enzymes activity.     

Matrix metalloproteinase-9 deficiency results in enhanced allergen-induced airway inflammation

Matrix metalloproteinases (MMPs) are a large family of endopeptidases that proteolytically degrade extracellular matrix. Many different cells produce MMP-9, and levels have been shown to be up-regulated in patients with allergic asthma. The aim of this study was to investigate the in vivo role of MMP-9 during allergen-induced airway inflammation. Acute allergic pulmonary eosinophilia was established in MMP-9 knockout (KO) and wild-type (WT) control mice by sensitization and challenge with OVA. Cell recruitment was significantly increased in both bronchoalveolar lavage (BAL) and lung tissue compartments in MMP-9 KO mice compared with WT mice. This heightened cell recruitment was primarily due to increased eosinophils and Th2 cells in the BAL and lung tissue of MMP-9 KO mice in comparison with WT controls. Moreover, levels of the Th2 cytokines, IL-4 and IL-13, and the chemokines eotaxin/CCL11 and macrophage-derived chemokine/CCL22 were substantially increased in MMP-9 KO mice compared with WT after OVA challenge. Resolution of eosinophilia was similar between MMP-9 KO and WT mice, but Th2 cells persisted in BAL and lungs of MMP-9 KO mice for longer than in WT mice. Our results indicate that MMP-9 is critically involved in the recruitment of eosinophils and Th2 cells to the lung following allergen challenge, and suggest that MMP-9 plays a role in the development of Th2 responses to allergen.     

Functional compartmentalization of arginine-vasopressin-activated cyclic AMP in anterior pituitary gland: the presence of a compartment activated by prostaglandin E2

AVP(10(-8)-10(-6)M) increased ACTH as well as PGE2 release from rat anterior pituitary quarters in vitro in a concentration dependent manner. IBMX (0.1 mM), a phosphodiesterase inhibitor, increased the ACTH response to AVP. The cAMP content in pituitary tissue was increased by AVP. Cyclooxygenase inhibition by indomethacin(1.4 X 10(-5) M) or diclofenac (1.8 X 10(-5)M) led to a potentiation of AVP-evoked ACTH secretion and to a decrease in AVP-stimulated cAMP formation. PGE2(10(-6)M) significantly increased pituitary cAMP content and indomethacin did not affect cAMP levels activated by PGE2. PGE2 attenuated the AVP-induced ACTH release. These results indicate that at least two functional compartments of AVP-activated cAMP responses are involved in the AVP-induced ACTH release. One compartment is directly activated by AVP and participates in the propagation of AVP-induced ACTH release. The second compartment is activated by PGE2. The contribution of the second compartment to the regulation of ACTH secretion is not well understood since PGE2 shows an inhibitory effect on AVP-induced ACTH secretion.     

Modulation by thyroid status of cyclic AMP-dependent and Ca2+-dependent mechanisms of hormone action in rat liver cells. Possible involvement of two different transduction mechanisms in alpha 1-adrenergic action

The actions of hormones which are associated to cAMP-dependent and calcium-dependent mechanisms of signal transduction were studied in hepatocytes obtained from rats with different thyroid states. In cells from euthyroid and hyperthyroid rats, the metabolic actions of epinephrine were mediated mainly through alpha 1-adrenoceptors; beta-adrenoceptors seem to be functionally unimportant. In contrast, both alpha 1- and beta-adrenoceptors mediate the actions of epinephrine in hepatocytes from hypothyroid animals. Phosphatidylinositol labeling was strongly stimulated by epinephrine, vasopressin and angiotensin II in cells from eu-, hyper- or hypothyroid rats. However, metabolic responsiveness to vasopressin and angiotensin II was markedly impaired in the hypothyroid state. The glycogenolytic response to the calcium ionophore A-23187 was also impaired, suggesting that hepatocytes from hypothyroid rats are less sensitive to calcium signalling. The persistence of alpha 1-adrenergic responsiveness in the hypothyroid state suggests that the mechanism of signal transduction for alpha 1-adrenergic amines is not identical to that of the vasopressor peptides. alpha 1-Adrenergic stimulation of cyclic AMP accumulation was not detected in cells from hypothyroid rats. These data suggest that factors besides calcium and besides cAMP are probably involved in alpha 1-adrenergic actions. Metabolic responses to glucagon and to the cAMP analogue dibutyryl cAMP were not markedly changed during hypothyroidism, although cAMP accumulation produced by glucagon and beta-adrenergic agonists was enhanced. In hyperthyroidism, cell responsiveness to epinephrine, vasopressin, angiotensin II and glucagon was decreased, but sensitivity to cAMP was not markedly altered. The factors involved in this hyposensitivity to hormones during hyperthyroidism are unclear.     

A hypersensitivity of glycogen phosphorylase activation in hearts of diabetic rats

This study was initiated to determine whether glycogen phosphorylase activation was defective in hearts of alloxan diabetic rats. When hearts were perfused by gravity flow for 1 to 10 min with various concentrations of epinephrine, activation of glycogen phosphorylase in the diabetic was significantly greater at every time and epinephrine concentration than that seen in the normal. Cyclic AMP accumulation and protein kinase activation by epinephrine in the diabetic were not appreciably different or were lower than the normal responses to the hormone. The effects of epinephrine on cAMP and protein kinase were blocked in both normal and diabetic hearts by propranolol. While the beta blocker prevented phosphorylase activation in the normal hearts, it did not block phosphorylase activation by epinephrine in the diabetic hearts. Likewise, the alpha agonist phenylephrine activated phosphorylase in the diabetic but not in the normal hearts. While glucagon produced the same phosphorylase hypersensitivity in diabetic hearts, the cAMP and protein kinase responses were not altered by diabetes. Phosphorylase phosphatase activity was found to be unaltered by either epinephrine or diabetes, whereas phosphorylase kinase activation by epinephrine in the diabetic was double the normal response. These data are consistent with a diabetes-related unmasking of an alpha effect on cardiac phosphorylase activation and an unexplained increase in the sensitivity of phosphorylase kinase activation by protein kinase.