Increase In EC50 Research Articles

Decreased response to vasopressin in the mesenteric resistance arteries of pregnant rats: effects of nifedipine and Bay K 8644.

The purpose of this study was to investigate the contribution of potential-operated calcium (POC) channels in the mechanisms of the blunted effects of vasoconstrictors on mesenteric resistance arteries during normal pregnancy. Mesenteric resistance arteries of virgin and term pregnant rats were set up under optimum passive tension in wire myograph systems. Cumulative concentration-response curves of arginine8-vasopressin (AVP) were measured in the absence and presence of nifedipine or Bay K 8644, a blocker and an activator, respectively, of POC channels. Binding studies were performed on membrane preparations of the mesenteric vascular bed of both groups of rats using saturation with [3H]nitrendipine. The maximal response to AVP was statistically similar in the two groups of arteries. Pregnancy shifted the AVP concentration-response curves to the right. Nifedipine (1 mumol/L) similarly reduced the maximum response to AVP in arteries of both groups, but produced a larger increase in EC50, the concentration inducing 50% maximum response, in resistance arteries of virgin versus pregnant rats. Bay K 8644 did not affect the maximum tension reached with AVP. However, it increased the effects of small concentrations of AVP in arteries of both groups. This was more important in tissues of virgin than pregnant rats. Binding of [3H]nitrendipine to membrane preparations of mesenteric vessels was not modified by pregnancy. Our results suggest a reduced functional influence of POC channels in the myotropic effects of AVP on mesenteric resistance arteries in pregnancy. This decreased influence of POC channels may contribute to resistance of the vasculature to vasopressor agents during pregnancy.

Site-directed mutagenesis studies of the high-affinity streptavidin-biotin complex: contributions of tryptophan residues 79, 108, and 120.

We report the functional characterization of site-directed biotin binding-site mutants of recombinant core streptavidin. The mutagenesis studies were aimed at characterizing the contributions of Trp residues known to contact biotin that have been postulated to control the exceptional binding affinity observed in this system. The functional properties of single site-directed mutants replacing Trp residues with Phe or Ala at positions 79, 108, and 120 were investigated by quantitating the EC50 binding parameters of these mutants to biotin and 2-iminobiotin in an ELISA format. The biotin EC50 for all mutants was the same as wild-type streptavidin, demonstrating that their delta Ka values relative to wild type were < 10(6). The conservative W79F and W108F mutants displayed only a 2- to 3-fold increase in EC50 for 2-iminobiotin, corresponding to an estimated delta Ka < 10, while the W120F mutant displayed a much greater alteration in 2-iminobiotin EC50, corresponding to an estimated delta Ka of 10(2). These delta Ka values are likely to reflect similar changes for biotin. The 2-iminobiotin EC50 values for the Ala mutants fell outside the accessible concentration range of the ELISA assay, demonstrating that these mutations lowered the Ka by a factor of 10(4) to 10(6). Direct estimation of biotin Ka values for W79A, W120A, and W120F in an ultrafiltration binding assay yielded Ka values of 4.3 x 10(7) M-1, 8.6 x 10(6) M-1, and > 5 x 10(9) M-1, respectively, in excellent agreement with the ELISA estimates of delta Ka with 2-iminobiotin as a reporter ligand. The results of these preliminary functional studies suggest that these aromatic side chains contribute significantly to the streptavidin-biotin binding free energy.

Regulation of beta-agonist- and prostaglandin E2-mediated adenylyl cyclase activity in human airway epithelial cells.

Despite the importance of beta 2-adrenergic receptor (beta 2AR) stimulation in mediating airway epithelial cell function, little is known regarding its regulation in airway epithelium. Perturbations of the airway environment associated with disease states, including the management of bronchomotor tone with beta-agonists, expose airways to putative regulators of beta 2AR signal transduction. In this communication, we describe the desensitization of beta 2AR signal transduction in the human airway epithelial cell line BEAS-2B. Examination of both beta-agonist- and prostaglandin E2 (PGE2)-mediated cAMP generation in BEAS-2B cells reveals both agonist-specific (homologous) and non-agonist-specific (heterologous) desensitization of these G protein-coupled receptor pathways. Short-term homologous desensitization of beta 2AR-mediated cAMP generation was characterized by an approximately 60% loss of maximal responsiveness to isoproterenol (ISO) when cells were pretreated 30 min with 10 microM ISO. A reduced sensitivity to ISO was also evidenced by an approximately 4-fold increase in the EC50 for ISO stimulation of adenylyl cyclase (AC). Short-term heterologous desensitization was characterized by an increase in EC50 (approximately 2- to 3-fold) with no change in maximal responsiveness to ISO in cells pretreated with either forskolin or PGE2. Qualitatively similar findings characterized short-term homologous and heterologous desensitization of PGE2-mediated AC activity. Short-term agonist-specific desensitization of the beta 2AR was associated with, but not dependent upon, rapid beta 2AR sequestration. Long-term pretreatment of cells with 10 nM ISO and 1 microM PGE2 eliminated AC responsiveness to subsequent ISO and PGE2 stimulation, respectively. Exposure of BEAS-2B cells to ISO for 24 h resulted in an approximately 70% loss of beta 2ARs, whereas chronic forskolin or PGE2 pretreatment had no effect on beta 2AR number. Long-term pretreatment of cells designed to elicit heterologous desensitization was associated with reductions in maximal responsiveness to ISO and PGE2 that appear to be related to a loss in inherent AC activity. These findings hold strong implications regarding the effect of beta 2AR desensitization on epithelial cell function and the role of beta-agonists in the management of airway disease.

CAMP-dependent protein kinase and protein kinase C consensus site mutations of the beta-adrenergic receptor. Effect on desensitization and stimulation of adenylylcyclase.

Activation of cAMP-dependent protein kinase (cAPK) or protein kinase C (PKC) causes a rapid desensitization of beta 2-adrenergic receptor (beta AR) stimulation of adenylylcyclase in L cells, which previous studies suggest involves the cAPK/PKC consensus phosphorylation site in the third intracellular loop of the beta AR, RRSSK263. To determine the role of the individual serines in the cAPK- and PKC-mediated desensitizations, wild type (WT) and mutant beta ARs containing the substitutions, Ser261-->Ala, Ser262-->Ala, Ser262-->Asp, and Ser261/262-->Ala, were constructed and stably transfected into L cells. Results showed that serine 262 was the primary site of the cAPK-induced desensitization, whereas either serine 261 or serine 262 was sufficient to confer the 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA)/PKC-mediated desensitization. Coincident stimulation of cAPK and PKC caused an additive desensitization (6-8-fold increase in the EC50) which was significantly reduced (80%) only by the double substitution mutation. Quantitative evaluation of the coupling efficiencies and the GTP-shift of the WT and mutant receptors demonstrated that only one of the mutants, Ser262-->Ala, was partially uncoupled. The Ser262-->Asp mutation did not significantly uncouple, demonstrating that introducing a negative charge did not appear to mimic the desensitized state of the receptor. The beta AR expression level played a critical role in determining the pattern of beta AR desensitization; i.e. while the overall desensitization was unaltered within a large range of beta AR expression level (10-300 fmol/mg), the increase in EC50 and decrease in Vmax were differentially affected by the change in the receptor level.

Interactions between indomethacin, noradrenaline and vasodilators in the fetal rabbit ductus arteriosus

1. Interactions between indomethacin, noradrenaline and vasodilators were studied in rings of ductus arteriosus isolated from fetal rabbits. The effect of incubation with prostaglandin E2 (PGE2) on the noradrenaline concentration-contraction response curve was studied in the presence and absence of indomethacin. Also, the ductus was pre-contracted with 10 microM noradrenaline and concentration-relaxation response curves (CRRC) to PGE2, cicaprost, cromakalim and forskolin were obtained in the presence and absence of indomethacin. 2. In the absence of indomethacin, PGE2 (from 1 nM to 100 nM) decreased the pEC50 to noradrenaline to a maximum of 0.4 to 0.5 log units (i.e. an approximately three fold increase in EC50 [M]). In the presence of 1 microM indomethacin, PGE2 (0.1 nM to 100 nM) decreased the pEC50 to noradrenaline by 2.39 log units (i.e. a 245 fold increase in EC50). By comparing the control pEC50 to noradrenaline with the relationship between the pEC50 to noradrenaline and [PGE2] in 1 microM indomethacin, the effect of endogenous PGE2 synthesized in the vessel wall was estimated as being equivalent to a bath concentration of approximately 1 nM exogenous PGE2. 3. When the vessel was pre-contracted with 10 microM noradrenaline, indomethacin had no effect on the CRRC to PGE2 but did alter the CRRC to other vasodilators. The sensitivity of the vessel to cicaprost, cromakalim and forskolin was decreased in 1 microM indomethacin compared with control. Forskolin caused complete relaxation in the presence and absence of indomethacin. Indomethacin decreased the maximum response to cromakalim but increased the maximum response to cicaprost. PGE2, 0.3 nm, partially reversed the effect of indomethacin on the sensitivity of the vessel to forskolin.4. We conclude that under varying experimental conditions, indomethacin increased the sensitivity of the ductus to the effects of PGE2 but decreased its sensitivity to other vasodilators. Both effects can be explained by elimination of endogenous PGE2. However, indomethacin increased the maximum response to cicaprost, which cannot be explained by elimination of endogenous PGE2 but may be due to elimination of endogenous prostacyclin.

The role of the third intracellular loop of the neutrophil N-formyl peptide receptor in G protein coupling

The G-protein-coupled N-formyl peptide receptor (FPR) contains one of the smallest known third intracellular loops of this class of receptors, consisting of only 15 amino acids. To study the role of this region of the receptor in G protein coupling and signal transduction, we generated a deletion mutant (D3i) in which 10 amino acids of the loop were removed, as well as a series of site-directed mutants containing substitutions of the charged and polar amino acids of this loop. The D3i mutant, expressed at normal levels on the cell surface, displayed a KD for labelled N-formyl-Met-Leu-Phe ([3H]FMLP) of 165 nM. This value compares with a KD for the wild-type FPR of 1.0 nM, or 20 nM in the presence of guanosine 5'-[gamma-thio]triphosphate, which uncouples G proteins from the receptor. These results indicate that D3i contains significant structural defects, beyond the disruption of G protein coupling, that affect ligand binding properties. Ten site-directed mutants generated in the third intracellular loop (T226A, K227E, H229A, K230Q, K235Q, S236A, S236A/S237G, R238G, R241E and S244A) displayed KD values between 0.5 and 1.0 nM, with expression levels between 22% (K227E) and 111% (H229A) of that of wild type receptor. The capacity of the mutants for signal transductions was determined by measuring intracellular Ca2+ mobilization. Eight of the ten mutants displayed EC50 values for FMLP of between 0.07 and 0.9 nM, as compared with 0.12 nM for the wild-type receptor. The two mutants K227E and R238G had EC50 values of 2.7 and 2.9 nM respectively. The increase in EC50 could be accounted for partially by the low levels of receptor expression. All ten mutants gave maximum levels of Ca2+ mobilization similar to that produced by the wild-type FPR. These results contradict the conclusions reached with other G-protein-coupled receptors and indicate that the third intracellular loop of the FPR does not have a critical role in the functional coupling of G proteins.

The effects of varying doses of aspirin on human platelet activation induced by PAF, collagen and arachidonic acid.

1. The effect of increasing doses of orally administered aspirin (30-900 mg) on platelet aggregation and ATP release induced by arachidonic acid (AA), collagen and platelet activating factor (PAF) was assessed in 12 normal volunteers. 2. Aspirin ingestion was associated with a significant increase in EC50 for AA (P less than 0.0001) and collagen (P less than 0.0001) but not for PAF (P greater than 0.495) although the normal biphasic aggregation response for the latter was abolished. Maximum ATP release was reduced by aspirin for all three agonists. 3. The mean maximum degrees of inhibition of platelet aggregation induced by aspirin for AA, collagen and PAF were 100%, 48% and 21% of baseline, respectively. The corresponding mean maximum inhibition of ATP release was 100%, 63% and 57%. The minimum cumulative doses of aspirin producing these effects were 240, 240 and 90 mg for AA, collagen and PAF respectively. For collagen alone, there was a significant decrease in the degree of inhibition of aggregation between the last dose on day 1 (150 mg) and the baseline measurement on day 2. 4. Platelets from female subjects were more sensitive to collagen (P less than 0.05) and AA (P less than 0.01) stimulation compared with males. However, prior to aspirin ingestion, PAF produced a greater maximum response in platelets from females (P less than 0.02) while following aspirin ingestion PAF-induced activation was inhibited to a greater degree in females (P less than 0.02). 5. These results indicate that collagen- and PAF-induced platelet activation are only partially dependent on cyclo-oxygenase and for PAF this seems related only to the second phase of aggregation.(ABSTRACT TRUNCATED AT 250 WORDS)

Isoproterenol sensitivity of isolated cardiac myocytes from rats with monocrotaline-induced right-sided hypertrophy and heart failure

Rats treated with the alkaloid monocrotaline developed right ventricular hypertrophy with a left: right ventricle weight ratio of 1.35 ± 0.10 (mean ± s.e.m., n = 25) compared with 3.83 ± 0.40 ( n = 14) in diet-matched controls ( P < 0.001). Urine volume and sodium content were reduced and body water increased consistent with heart failure. In 10 out of 26 treated rats pleural, pericardial or peritoneal effusions were present. Urine norepinephrine content was significantly raised ( P < 0.02) but epinephrine was unchanged. Plasma norepinephrine levels were raised though not significantly. Myocytes isolated from the right ventricle had a reduced myosin Ca 2+-activated ATPase ( P < 0.05) activity and a shift towards slower V2 and V3 myosin isofroms. There was no decrease in maximum contraction amplitude with calcium or isoproterenol in either left or right ventricular cells of treated rats. Right ventricular cells from treated rats showed a reduced rate of contraction in maximum isoproterenol ( P < 0.05) and a significant rightward shift in PD 2 ( P < 0.05) representing a two-fold increase in EC50 for isoproterenol compared with right ventricular cells from control animals. There was no shift in EC50 for isoproterenol in left ventricle cells. In parallel experiments, myocytes isolated from both ventricles of rats treated with isoproterenol for one week showed a rightward shift of more than 50-fold in the isoproterenol concentration-response curve and a depressed response to maximum isoproterenol. In the rat monocrotaline model of right-sided cardiac hypertrophy and failure, changes in sensitivity to beta-adrenoceptor agonists are slight, and present only in the right ventricle. The lack of change in the left ventricle seems to suggest that this functional desensitisation is not a consequence of raised circulating catecholamines.

.BETA.-Adrenergic receptor adaptation after an acute exercise in rat myocardium.

An acute dynamic exercise provokes the translocation of beta-adrenergic receptors (beta-AR) from light vesicle fractions to sarcolemmal membranes in rat myocardium. However, 15 min after an acute exercise the density of beta-AR in both fractions returned to the pre-exercise level. The mean maximal activity of adenylate cyclase in response to isoproterenol roughly paralleled the redistribution of beta-AR. The dose-response curves, however, were substantially shifted to the right with increase in EC50 for isoproterenol stimulation of adenylate cyclase. Thus, the sensitivity of sarcolemmal beta-AR was found to be blunted 15 min afterwards.

Endothelium-Dependent Vasodilatation in Human Epicardial Coronary Arteries

Human epicardial coronary arteries were obtained from the hearts of 15 patients who received cardiac transplantation for cardiomyopathy. Transverse strips of these arteries were mounted in organ baths for isometric tension recording. The arteries were constricted with prostaglandin F2 alpha and then exposed to the endothelium-dependent relaxants substance P (1 nM), bradykinin (1 nM-1 microM), and the Ca2+ ionophore A23187 (1 nM-1 microM). The effects of the endothelium-independent relaxants glyceryl trinitrate (1 nM-10 microM) and SIN-1, the active metabolite of molsidomine (1 nM-10 microM), were also tested. In control strips of human coronary arteries, all vasodilators caused concentration-dependent relaxations. Pretreatment of human coronary arteries with glyceryl trinitrate (0.5 mM for 60 min) shifted the concentration-response curve to glyceryl trinitrate to the right by a factor of approximately 800 (increase in EC50 from 10 nM to 8 microM). In contrast, endothelium-dependent relaxations to substance P, bradykinin, and A23187 and relaxations to SIN-1 were not changed significantly. Previous exposure of human coronary arteries to SIN-1 (0.5 mM for 60 min) did not modify relaxations to any of the agents tested. Our results show that (a) the responsiveness to SIN-1 is not modified in nitrate-tolerant strips of human coronary arteries, (b) prolonged exposure of human coronary arteries to SIN-1 does not cause tolerance, and (c) endothelium-dependent relaxations are not influenced by exposure of human coronary arteries to either glyceryl trinitrate or SIN-1.

Differences in glomerular binding and response to angiotensin II between normotensive and spontaneously hypertensive rats.

1. Angiotensin II (ANG II) binding and the physiological response to exogenous ANG II have been studied in isolated glomerular preparations from normotensive (NTR) and spontaneously hypertensive (SHR) rats. 2. The binding of 125I-labelled ANG II by glomeruli from SHR was significantly greater than that by glomeruli from NTR, whereas the binding affinity constant (Ka) showed that the SHR ANG II glomerular receptor had a lower affinity for the hormone than the NTR glomerular receptor. 3. Glomeruli from SHR were significantly less responsive to exogenous ANG II than those from NTR. 4. Sodium loading resulted in a significant increase in ANG II binding by glomeruli from NTR, whereas a decrease in binding occurred in glomeruli from SHR. 5. Although a high sodium intake caused a reduction in the response of glomeruli from both NTR and SHR to exogenous ANG II, these changes were not statistically significant. In NTR this was associated with a decrease in the concentration of agonist required to cause half-maximal response (EC50), whereas an increase in EC50 was shown by glomeruli from SHR.

Inhibition of ACTH action on cultured bovine adrenal cortical cells by 2,3,7,8-tetrachlorodibenzo-p-dioxin through a redistribution of cholesterol.

The conversion of cholesterol to cortisol by cultured bovine adrenal cortical cells is stimulated 6-fold by adrenocorticotropin and is limited by the movement of cholesterol to the mitochondria (DiBartolomeis, M.J., and Jefcoate, C.R. (1984) J. Biol. Chem. 259, 10159-10167). Exposure of confluent cultures to the potent environmental toxicant, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) (10(-8)M), for 24 h prior to adrenocorticotropin (ACTH) addition decreased the rate of ACTH-stimulated steroidogenesis but did not affect the basal rate. TCDD was more effective against stimulation at 10(-11) M ACTH (4-fold) than at 10(-7) M ACTH (10%), consistent with an increase in EC50 for ACTH. Stimulation of bovine adrenal cortical cells by cAMP was similarly decreased by TCDD. In both cases the effectiveness of TCDD increased with time of exposure to the stimulant. The transfer of cholesterol to mitochondria in intact cells was quantitated by means of the 2-h accumulation of mitochondrial cholesterol in the presence of aminoglutethimide, an inhibitor of cholesterol side chain cleavage. Although cholesterol accumulated in the presence of ACTH (13 to 28 micrograms/mg), pretreatment of cells with TCDD caused a decrease in mitochondrial cholesterol (13 to 8 micrograms/mg). The effect of TCDD was produced relatively rapidly (t1/2 approximately 4 h). In absence of TCDD, the mitochondria of ACTH-stimulated cells also eventually lose cholesterol (after 2 h). It is concluded that TCDD pretreatment may increase the presence of a protein(s) that cause mitochondrial cholesterol depletion when the cells are stimulated by ACTH or cAMP. TCDD-enhanced cholesterol efflux from mitochondria diminishes cholesterol side chain cleavage when mitochondrial cholesterol is sufficiently depleted (after 2-4 h).

Adenosine analogues stimulate cyclic AMP formation in rabbit cerebral microvessels via adenosine A2-receptors.

This study has examined the accumulation of cyclic AMP in microvessels from rabbit and feline cerebral cortex induced by a series of adenosine analogues to determine the type of receptor involved. The conversion of tritium labelled adenine nucleotides to [3H]cyclic AMP was determined in [3H]adenine labelled microvessels in the presence of an inhibitor of cyclic AMP hydrolysis, rolipram (30 microM). In microvessels from both cats and rabbits two adenosine analogues, N-5'-ethylcarboxamido adenosine (NECA) and L (S)-phenylisopropyladenosine (PIA), stimulated cyclic AMP accumulation. The response was larger and more reproducible in rabbits than in cats. In rabbit cerebral microvessels the order of potency as stimulator of cyclic AMP accumulation was NECA greater than 2-chloroadenosine greater than L-PIA greater than cyclohexyladenosine (CHA) greater than D-PIA. This order of potency defines the receptor involved as being of the A2 subtype. Although the maximal response to CHA appeared to be lower than that to NECA, CHA did not inhibit the response to NECA, suggesting that it is not a classical partial agonist. In the presence of the adenylate cyclase stimulating compound forskolin (I microM) NECA was more active than in its absence (close to 30-fold increase in EC50) and also produced a maximal effect six times higher. The maximal responses to PIA and CHA increased proportionally in the presence of forskolin. These results show that rabbit cerebral microvessels possess adenosine receptors of the A2 subtype capable of stimulating the formation of cyclic AMP. The functional significance of such receptors is not known, but may be related to regulation of vascular permeability.