Effects of prolonged cold storage on double peaked vasoconstrictor responses to periarterial nerve stimulation in isolated canine splenic arteries.
(49/2158)
1. P2X-Purinoceptors and alpha1-adrenoceptors have previously been shown to involve in the double peaked vasoconstrictor responses to periarterial electrical nerve stimulation in the isolated and perfused canine splenic artery. The present study made an attempt to investigate effects of prolonged cold storage (7 days at 4 degrees C) on vasoconstrictor responses to periarterial electrical nerve stimulation, tyramine, noradrenaline and adenosine 5'-triphosphate (ATP) in the isolated canine splenic artery. 2. The periarterial nerve stimulation (1-10 Hz) readily causes a double peaked vasoconstriction in the non-stored preparations. After cold stored for 7 days, the double peaked vasoconstriction was still recognized, although the response became significantly smaller. The first phase was decreased relatively greater than the second phase by the cold storage. 3. In the cold stored preparations, the dose-response curve for tyramine was shifted to the right in a parallel manner. Prazosin almost completely inhibited tyramine-induced vasoconstriction but alpha,beta-methylene ATP failed to influence the response to tyramine. 4. The vasoconstrictor responses to noradrenaline and ATP were not significantly modified by the prolonged cold storage. 5. From these results, it is concluded that the functions of sympathetic co-transmission of purinergic components might be influenced more than that of adrenergic components in the cold storage canine splenic artery. (+info)
Effects of norepinephrine and isopentenyladenosine on Na+/Ca2+ exchange currents in isolated guinea pig ventricular myocytes.
(50/2158)
AIM: To study the effects of norepinephrine (NE) and isopentenyladenosine (Iso) on Na+/Ca2+ exchange currents and the receptor mechanism. METHODS: The quasi-steady state current-voltage relationship from the isolated guinea pig ventricular myocytes was measured using whole-cell voltage-clamp techniques with a ramp pulse protocol. RESULTS: At potential of +50 mV, NE 0.005, 0.05, and 5 mumol.L-1 increased the Ni(2+)-sensitive current by 29% +/- 9%, 72% +/- 11%, and 124% +/- 31.4%, respectively; Iso 1.5, 150, and 1500 nmol.L-1 caused increases in the Ni(2+)-sensitive current by 2.8% +/- 2.8%, 56% +/- 13%, and 102% +/- 12%, respectively. Propranolol 10 mumol.L-1 completely inhibited the current changes induced by NE and Iso while phentolamine 50 mumol.L-1 showed no effects. CONCLUSION: NE and Iso increased the Na+/Ca2+ exchange currents via stimulation of cardiac beta-adrenoceptor. (+info)
Effects of verapamil on down-regulation of norepinephrine-induced beta adrenoceptors in cultured rat cardiomyocytes.
(51/2158)
AIM: To determine whether verapamil (Ver) inhibits norepinephrine (NE)-induced beta adrenoceptors down-regulation in cultured rat cardiomyocytes. METHODS: [3H]-Dihydroalprenolol (DHA) radiobinding assay was used to measure beta adrenoceptor density, fluorescent indicator Fura 2-AM was used to estimate levels of free cytosolic calcium ([Ca2+]i). RESULTS: Ver reduced [Ca2+]i and increased beta adrenoceptor density, NE increased [Ca2+]i and reduced beta adrenoceptor density of cultured cardiomyocytes, these effects were time and concentration dependent. Ver inhibited the above effects of NE. CONCLUSIONS: Ver increased beta adrenoceptor density and inhibited NE-induced beta adrenoceptor down-regulation of cardiomyocytes. (+info)
G894T polymorphism in the endothelial nitric oxide synthase gene is associated with an enhanced vascular responsiveness to phenylephrine.
(52/2158)
BACKGROUND: Differences in vascular reactivity to phenylephrine (PE) responsiveness have been largely evidenced in patients undergoing cardiac surgery with cardiopulmonary bypass (CPB). Because nitric oxide (NO) strongly affects modulation of the vascular tone in response to vasopressor agents, we hypothesized that the G894T polymorphism of the endothelial NO synthase gene (eNOS) could be related to changes in the pressor response to PE. METHODS AND RESULTS: The protocol was performed in 68 patients undergoing coronary artery bypass grafting (n=33) or valve surgery (n=35) in whom mean arterial pressure decreased below 65 mm Hg during normothermic CPB. Under constant and nonpulsatile pump flow conditions (2 to 2.4 L. min-1. m-2), a PE dose-response curve was generated by the cumulative injection of individual doses of PE (25 to 500 micrograms). The G894T polymorphism of the eNOS gene was determined, and 3 groups were defined according to genotype (TT, GT, and GG). Groups were similar with regard to perioperative characteristics. The PE dose-dependent response was significantly higher in the allele 894T carriers (TT and GT) than in the homozygote GG group (P=0.02), independently of possible confounding variables. CONCLUSIONS: These results evidenced an enhanced responsiveness to alpha-adrenergic stimulation in patients with the 894T allele in the eNOS gene. (+info)
Receptor recruitment: a mechanism for interactions between G protein-coupled receptors.
(53/2158)
There is a great deal of evidence for synergistic interactions between G protein-coupled signal transduction pathways in various tissues. As two specific examples, the potent effects of the biogenic amines norepinephrine and dopamine on sodium transporters and natriuresis can be modulated by neuropeptide Y and atrial natriuretic peptide, respectively. Here, we report, using a renal epithelial cell line, that both types of modulation involve recruitment of receptors from the interior of the cell to the plasma membrane. The results indicate that recruitment of G protein-coupled receptors may be a ubiquitous mechanism for receptor sensitization and may play a role in the modulation of signal transduction comparable to that of the well established phenomenon of receptor endocytosis and desensitization. (+info)
Brain noradrenergic receptors in major depression and schizophrenia.
(54/2158)
The binding of [125I]p-iodoclonidine to alpha-2, and/or [125I]iodopindolol to beta-1 and beta-2 adrenoceptors was measured in right prefrontal cortex (Brodmann's area 10) and right hippocampus from subjects with DSM-III-R diagnoses of major depression (n = 15) or schizophrenia (n = 8) as well as from control subjects (n = 20). No significant differences between study groups were observed in binding to alpha-2 adrenoceptors in any of the six layers of prefrontal cortex or in any of the hippocampal fields. Likewise, there were no significant differences in beta-1 or beta-2 adrenoceptor binding in any of the hippocampal fields between control and major depressive subjects. In contrast, binding to beta-1 adrenoceptors, but not beta-2 adrenoceptors, was significantly lower (-13 to -27%) in most hippocampal fields of schizophrenic subjects as compared to control subjects or to major depressives. Alterations in beta-1 adrenoceptor binding in the hippocampus of schizophrenics provide further evidence for a role of central noradrenergic neurons in the neurochemical pathology of schizophrenia. (+info)
alpha1-Adrenergic receptor stimulation of mitogenesis in human vascular smooth muscle cells: role of tyrosine protein kinases and calcium in activation of mitogen-activated protein kinase.
(55/2158)
Signaling pathways of many G protein-coupled receptors overlap with those of receptor tyrosine kinases. We have found previously that alpha1-adrenergic receptors stimulate DNA synthesis and cell proliferation in human vascular smooth muscle cells; these effects were attenuated by the tyrosine protein kinase (TPK) inhibitor genistein and the mitogen-activated protein kinase (MAPK) antagonist 2-aminopurine. Experiments were designed to determine if activation of alpha1 receptors directly stimulated TPKs and MAPKs in human vascular smooth muscle cells. Norepinephrine stimulated time- and concentration-dependent tyrosine phosphorylation of multiple proteins, including p52-, 75-, 85-, 120-, and 145-kDa proteins. Increased TPK activity was demonstrated in proteins precipitated by an antiphosphotyrosine antibody, both in autophosphorylation assays and with a peptide substrate. These effects of norepinephrine were completely blocked by alpha1 receptor antagonists. A membrane-permeable Ca2+ chelator [1,2-bis(o-aminophenoxy)ethane-N,N, N',N'-tetraacetic acid tetra(acetoxymethyl)ester], completely blocked norepinephrine stimulation of phosphorylation of tyrosine proteins, suggesting that intracellular Ca2+ plays a critical role in alpha1 receptor stimulation phosphorylation of tyrosine proteins. Of the tyrosine-phosphorylated proteins, the results suggest that two of them are PLCgamma1 and adapter protein Shc. Also, alpha1 receptor stimulation caused a time-dependent increase in MAPK activity due to increased phosphorylation of p42/44(ERK1/2). The alpha1 receptor-mediated activation of MAPK was also attenuated by TPK inhibitors and intracellular Ca2+ chelator [1, 2-bis(o-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetra(acetoxymethyl)ester]. These results suggest that phosphorylation of tyrosine proteins and intracellular Ca2+ plays a critical role in alpha1 receptor-stimulated MAPK signaling pathways, potentially contributing to increased DNA synthesis and cell proliferation. (+info)
Moxonidine, a selective alpha2-adrenergic and imidazoline receptor agonist, produces spinal antinociception in mice.
(56/2158)
alpha2-Adrenergic receptor (AR)-selective compounds produce antihypertensive and antinociceptive effects. Moxonidine alleviates hypertension in multiple species, including humans. This study demonstrates that intrathecally administered moxonidine produces antinociception in mice. Antinociception was detected via the (52.5 degrees C) tail-flick and Substance P (SP) nociceptive tests. Moxonidine was intrathecally administered to ICR, mixed C57BL/6 x 129/Sv [wild type (WT)], or C57BL/6 x 129/Sv mice with dysfunctional alpha2aARs (D79N-alpha2a). The alpha2AR-selective antagonist SK&F 86466 and the mixed I1/alpha2AR-selective antagonist efaroxan were tested for inhibition of moxonidine-induced antinociception. Moxonidine prolonged tail-flick latencies in ICR (ED50 = 0.5 nmol; 0. 3-0.7), WT (0.17 nmol; 0.09-0.32), and D79N-alpha2a (0.32 nmol; 0. 074-1.6) mice. Moxonidine inhibited SP-elicited behavior in ICR (0. 04 nmol; 0.03-0.07), WT (0.4 nmol; 0.3-0.5), and D79N-alpha2a (1.1 nmol; 0.7-1.7) mice. Clonidine produced antinociception in WT but not D79N-alpha2a mice. SK&F 86466 and efaroxan both antagonized moxonidine-induced inhibition of SP-elicited behavior in all mouse lines. SK&F 86466 antagonism of moxonidine-induced antinociception implicates the participation of alpha2ARs. The comparable moxonidine potency between D79N-alpha2a and WT mice suggests that receptors other than alpha2a mediate moxonidine-induced antinociception. Conversely, absence of clonidine efficacy in D79N-alpha2a mice implies that alpha2aAR activation enables clonidine-induced antinociception. When clinically administered, moxonidine induces fewer side effects relative to clonidine; moxonidine-induced antinociception appears to involve a different alpha2AR subtype than clonidine-induced antinociception. Therefore, moxonidine may prove to be an effective treatment for pain with an improved side effect profile. (+info)