Excitatory and inhibitory responses caused by norepinephrine in duck subfornical organ neurons are mediated by β- and α 2-adrenoceptor activation

The responsiveness of spontaneously active neurons in the subfornical organ (SFO) of adult ducks to angiotensin II (ANGII), norepinephrine (NE), isoproterenol (Iso, -agonist), phenylephrine (Phe, ₁-agonist) and clonidine (Clo, ₂-agonist) was investigated in brain slices with extracellular recording technique. 64% (n=90) of the neurons increased their activity after superfusion with ANGII, the rest were unresponsive. Application of NE activated 10 and inhibited 8 neurons (n=22); the excitation being correlated with an excitatory ANGII responsiveness of the same neurons and the inhibition with the absence of an ANGII responsiveness. Iso activated 74% (n=58) and Clo inhibited 88% (n=16) of the investigated neurons. Phe did not have an effect on the majority (60%) of the neurons and produced both excitatory and inhibitory actions on the remaining cells. These results offer a plausible explanation for the dose dependent dipsogenic effect of Iso and the failure of NE to elicit dose dependent drinking, which can be explained by its dual, excitatory and inhibitory effect on SFO neurons. It is further concluded, that peripherally applied Iso exerts its dipsogenic action in high concentration by a direct excitatory effect on SFO neurons via the open blood brain barrier. Under physiological conditions, afferent neuronal input of still unknown origin might specifically modulate the activity of SFO neurons, because plasma concentrations of NE are probably not high enough to activate SFO neurons from the blood side of the blood brain barrier.Abbreviations ACSF artificial cerebrospinal fluid - ANGII angiotensin II - Clo clonidine - Iso isoproterenol - NE norepinephrine - NTS nucleus of the solitary tract - Phe phenylephrine - SFO subfornical organ     

Mechanism of Neurotransmitter Release Elicited by the Preferential α1-Adrenergic Receptor Agonist Phenylephrine in Superfused Superior Cervical Ganglion Cells in Culture

Phenylephrine increased [3H]norepinephrine efflux and accumulation of cyclic AMP in cultured rat superior cervical ganglion cells superfused with Tyrode's solution. The purpose of this study was to determine the mechanism and relationship between these two events. Electrical stimulation (1-2 Hz), potassium chloride (50 mM), and the preferential alpha 1-adrenergic receptor agonist phenylephrine (1-100 microM) increased fractional tritium efflux, whereas methoxamine, cirazoline, and amidephrine were relatively ineffective. Phenylephrine, but not methoxamine and cirazoline, also increased cyclic AMP accumulation. Phenylephrine-induced tritium efflux was not altered by alpha- and beta-adrenergic receptor antagonists or by removal of extracellular calcium. Phenylephrine-induced cyclic AMP accumulation was blocked by the beta-adrenergic receptor antagonists propranolol and atenolol. Forskolin (10 microM) and the nonhydrolyzable cyclic AMP analogue 8-(4-chlorophenylthio)cyclic AMP (100 microM) had minimal effect on tritium efflux. However, phenylephrine-evoked increase in tritium efflux was dose dependently attenuated by the neuronal uptake blocker cocaine, and phenylephrine dose-dependently inhibited the incorporation of [3H]norepinephrine into neuronal stores. We conclude that the increase in tritium efflux induced by phenylephrine is independent of cyclic AMP accumulation and appears to be mediated by uptake of phenylephrine via the neuronal carrier-mediated amine transport process, which in turn promotes efflux of the adrenergic transmitter from its storage sites.     

Negative inotropic effects of angiotensin II, endothelin-1 and phenylephrine in indo-1 loaded adult mouse ventricular myocytes

Angiotensin II (Ang II). endothelin-1 (ET-1) and phenylephrine are receptor agonists that share the signal transduction acting through acceleration of phosphoinositide hydrolysis in the heart. Because the regulation of myocardial contractility induced by these receptor agonists shows a wide range of species-dependent variation among experimental animals, we carried out experiments to elucidate the mechanism of contractile regulation induced by these agents in mice which are employed currently more as transgenic models. Effects of Ang II, ET-1 and phenylephrine on cell shortening and Ca2+ transients were investigated in single ventricular myocytes loaded with indo-1/AM. Ang II (10(-8), 10(-7) M), ET-1 (10(-10), 10(-9) M) and phenylephrine (10(-6), 10(-5) M in the presence of the beta-adrenoceptor antagonist timolol) decreased the cell shortening [Ang II: 58.4+/-9.03 (n = 8), 50.3+/-11.90% (n = 6); ET-1: 48.4+/-8.27, 31.2+/-6.45% (n = 5); phenylephrine: 45.7+/-11.60, 28.7+/-5.89% (n = 5)]. By contrast, the amplitude of Ca2+ transients was not significantly influenced by these agonists. The selective protein kinase C inhibitor chelerythrine at 10(-6) M significantly inhibited the decrease in cell shortening induced by these receptor agonists. These results indicate that Ang II, ET-1 and phenylephrine elicit a negative inotropic effect with insignificant alteration of Ca2+ transients, which may be mainly mediated by activation of protein kinase C in mouse ventricular cardiomyocytes.     

Excitation-contraction coupling in resistance mesenteric arteries: Evidence for NKCC1-mediated pathway

Bumetanide and other high-ceiling diuretics (HCD) attenuate myogenic tone and contractions of vascular smooth muscle cells (VSMC) triggered by diverse stimuli. HCD outcome may be mediated by their interaction with NKCC1, the only isoform of Na⁺, K⁺, 2Cl⁻ cotransporter expressed in VSMC as well as with targets distinct from this carrier. To examine these hypotheses, we compared the effect of bumetanide on contractions of mesenteric arteries from wild-type and NKCC1 knockout mice. In mesenteric arteries from wild-type controls, 100 μM bumetanide evoked a decrease of up to 4-fold in myogenic tone and contractions triggered by modest [K⁺]_o-induced depolarization, phenylephrine and UTP. These actions of bumetanide were preserved after inhibition of nitric oxide synthase with NG-nitro-l-arginine methyl ester, but were absent in mesenteric arteries from NKCC1^-/- mice. The data show that bumetanide inhibits VSMC contractile responses via its interaction with NKCC1 and independently of nitric oxide production by endothelial cells.     

Pregnancy-associated increase in rat systemic arteries endothelial nitric oxide production diminishes vasoconstrictor but does not enhance vasodilator responses

Late pregnancy in rats is characterized by a decrease in arterial pressure and in isolated arterial vessels response to vasoconstrictors. In uterine arteries the pregnancy-associated attenuation of the response to vasoconstrictors has been attributed to an increase in basal and agonist-induced endothelial NO production. However, the role of NO in pregnancy-associated changes of systemic arteries reactivity to vasoactive agents remains to be fully elucidated. We examined whether pregnancy influences the reactivity of systemic arteries to vasodilator or vasoconstrictor agents through NO-dependent mechanisms. Thoracic aortic rings and mesenteric arterial bed of late pregnant rats showed refractoriness to phenylephrine-induced vasoconstriction that was abolished by NO synthase inhibition. The potency of L-NNA to enhance tension of aortic rings preconstricted with phenylephrine (10–20% of their maximal response) was significantly lower in preparations from pregnant animals. In phenylephrine-contracted aortas and mesenteric bed, the effects of the endothelium-dependent vasodilators acetylcholine, A23187 and bradykinin, were not influenced by pregnancy. Similarly, pregnancy did not affect the vasodilator responses of adenosine, isoproterenol, capsaicin, nitroprusside, forskolin, and Hoe234 in the mesenteric bed. NO synthase activity measured by determining the conversion of L−[³H]-arginine to L−[³H]-citrulline in aorta and mesenteric arteries homogenates was not altered by pregnancy. These findings show that endothelial-dependent and -independent vasodilators action as well as NO synthase activity in systemic arteries is uninfluenced by pregnancy, whereas pregnancy-associated hyporeactivity of systemic arteries to vasoconstrictors is related to an enhanced endothelial NO production either spontaneous or elicited directly or indirectly by vasoconstrictor agents. This interpretation implies that the enhanced NO production observed in systemic arteries during late pregnancy involves cellular pathways other than the ones involved in the response to endothelium-dependent vasodilators such as acetylcholine.     

预负荷／共同负荷联合血管收缩药对腰麻剖宫产术血流动力学变化

目的探讨预负荷／共同负荷联合小剂量血管收缩药盐酸麻黄碱注射液（上海信谊金朱药业有限公司）、盐酸去氧肾上腺索注射液（上海禾丰制药有限公司）对腰麻剖官产术中血流动力学的变化及预防低血压的有效性及安全性。方法选择剖官产术90例,随机分为3组,每组30例．ASAI～Ⅱ级。预负荷晶体液乳酸林格氏注射液（石家庄西药有限公司）6～8ml／kg联合共同负荷输入羟乙基淀粉130／0．4氯化钠溶液（万汶,北京费森尤斯卡比医药有限公司）10ml／kg。术中监测记录SBP、DBP、HR、ECG、SpO2。结果预负荷／共同负荷联合血管收缩药预防剖宫产术腰麻后低血压。P组和E组的低血压发生率明显低于C组（P〈0．05）;P组术中HR低于E组和C组。预防恶心、呕吐给于盐酸昂丹司琼注射液（齐鲁制药有限公司）,不良反应少,无明显呼吸抑制、无术后头痛现象。结论预负荷／共同负荷联合小剂量血管收缩药,有效降低腰麻后低血压的发生率,去氧肾上腺素比麻黄碱能更好维持产妇血流动力学的稳定。对新生儿无不良影响,安全。     

Single-molecule imaging revealed enhanced dimerization of transforming growth factor β type II receptors in hypertrophic cardiomyocytes

Transforming growth factor β (TGF-β) signaling plays an important role in the pathogenesis of cardiac hypertrophy. However, the molecular mechanism of TGF-β signaling during the process of cardiac remodeling remains poorly understood. In the present study, by employing single-molecule fluorescence imaging approach, we demonstrated that in neonatal rat cardiomyocytes, TGF-β type II receptors (TβRII) existed as monomers at the low expression level, and dimerized upon TGF-β1 stimulation. Importantly, for the first time, we found the increased dimerization of TβRII in hypertrophic cardiomyocytes comparing to the normal cardiomyocytes. The enhanced TβRII dimerization was correlated with the enhanced Smad3 phosphorylation levels. These results provide new information on the mechanism of TGF-β signaling in cardiac remodeling.     

Effects of Acute and Chronic Cadmium Administration on the Vascular Reactivity of Rat Aorta

The effect of acute and chronic cadmium (Cd) administration on the vascular function of the rat aorta was studied. The rats were randomly divided into four main groups (A: saline controls under chronic administration, B: Cd-treated rats under chronic administration, C: saline controls under acute administration, D: Cd-treated rats under acute administration). After their sacrifice, the aortic rings were divided into rings with endothelium (E+) and without (E−), and suspended in an isolated organ bath with Krebs–Henseleit buffer. Maximal tension (T _max, in g) was measured in response to potassium chloride (KCl) and phenylephrine (PE) in all aortic rings. Relaxation response to acetylcholine (ACh) administration was expressed as percent of maximal tension induced by PE. Chronic administration: A statistically significant increase of the contraction was observed between groups B (i.m. Cd 0.5 mg/kg for 120 days) and A (i.m. 0.9% NaCl for 120 days) in response to KCl (20–60 mM) and the T _max as well (in both the E+ and the E− subgroups). No statistically significant difference was observed in response to PE and ACh exposure. Acute administration: A statistically significant increase was observed between group D(E+) (i.m. Cd 2 mg/kg, 8 h before sacrifice) and group C(E+) (i.m. 0.9% NaCl, 8 h before sacrifice) in response to 10–30 mM of KCl, and a significant decrease between D(E−) and C(E−) in response to 10⁻⁷–10⁻⁶ M of PE, though T _max was increased between D(E−) and C(E−) with PE exposure. The contractile response levels of the E+ aortic rings to PE and ACh showed no statistically significant difference.     

Sodium hydrogen exchanger and phospholipase D are required for alpha1-adrenergic receptor stimulation of metalloproteinase-9 and cellular invasion in CCL39 fibroblasts

Matrix metalloproteinase 9 (MMP-9) plays a critical role in digesting the extracellular matrix and has a vital function in tumor metastasis and invasion; this protease activity is significantly increased in non-small cell lung cancers. The sodium hydrogen exchanger isoform 1 (NHE1) functions as a focal point for signal coordination and cytoskeletal reorganization. NHE1 is thought to play a central role in establishing signaling components at the leading edge of a migrating cell. Therefore, we studied the relationship between NHE1 and MMP-9 activity in Chinese hamster lung fibroblasts (CCL39) stimulated with phenylephrine (PE). We show that PE increases MMP-9 gelatinolytic activity in CCL39 cells. The inhibition of phospholipase D (PLD) signaling abrogated PE-induced MMP-9 activity. The role of PLD as an essential signaling intermediate was confirmed when the addition of permeable phosphatidic acid increased MMP-9 activity in the same cells. PE-induced invasion was increased 1.9-fold over controls and the PE response was lost when 1-butanol was used to block PLD signaling. Cells pre-treated with the NHE1 inhibitor, 5-(N-ethyl-N-isopropyl) amiloride (EIPA) prior to PE addition resulted in a notable decrease in MMP-9 activation and cell invasion as compared to untreated PE-stimulated cells. CCL39 NHE1 null cells demonstrated no increase in MMP-9 protease activity or cell invasion in response to PE treatment. Reconstitution of NHE1 expression recovered the PE-induced activation of protease activity and cell invasion. MMP-9 processing was altered in cells expressing a proton transport defective NHE1 but retained the ability to respond to PE. Conversely, cells expressing an ezrin, radixin, moesin (ERM)-binding deficient NHE1 had a lower MMP-9 activity and the protease did not respond to PE addition. Parallel studies on NCI-H358 non-small cell lung cancer (NSCL) cells showed that PE stimulated both MMP-9 activity and cell invasion in an NHE1 dependent manner. This work describes for the first time a PE-induced relationship between NHE1 and MMP-9 and a new potential mechanism by which NHE1 could promote tumor formation and metastasis.     

α1Adrenoreceptpr-Mediated Increase in Acetylcholine Release in Braip Slices During Morphine Tolerance

Norepinephrine, clonidine, and phenylephrine increased the electrically evoked release of endogenous acetylcholine in cortical slices taken from morphine-tolerant guinea pigs. This effect was alpha 1-adrenoreceptor mediated and was opposite to the alpha 2-adrenoreceptor-mediated inhibition of acetylcholine release, normally elicited by norepinephrine and clonidine. In the presence of prazosin, clonidine recovered its normal inhibitory properties, suggesting that morphine tolerance induced the appearance of an alpha 1-adrenoreceptor-mediated response that overshadowed, but did not cancel, the still present alpha 2-adrenoreceptor inhibitory control. The attempt to prove the presence of alpha-adrenoreceptors on the nerve endings by testing the effect of norepinephrine in synaptosomal preparations (preloaded with [3H]choline and depolarized with KCl and veratridine) was unsuccessful. Therefore the problem of the exact location of this excitatory input remains to be solved. These results confirm previous findings reporting the increase in cortical acetylcholine release induced by the alpha-adrenoreceptor agonists in morphine-tolerant, freely moving guinea pigs and demonstrate that opiate tolerance inverts the direction of the noradrenergic modulation even in the isolated intracortical cholinergic structures.