Presynaptic receptor systems on the noradrenergic neurones of the rabbit pulmonary artery

Endo, Takahiko; Starke, Klaus; Bangerter, Ann; Taube, H. D.

doi:10.1007/bf00498689

Cited by 169 publications

(79 citation statements)

References 36 publications

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“…At very low or near maximal endogenous synthesis rates of cyclic AMP, phosphodiesterase inhibition may have little effect. Starke et al (1975) and Endo et al (1977) extensively studied 0-adrenoceptor enhancement of noradrenaline release in the rabbit pulmonary artery at various frequencies of electrical stimulation and concluded that prejunctional P-adrenoceptors were not functional in this tissue. In the present study, in rabbit pulmonary artery incubated with [3H]-noradrenaline and stimulated at 1 Hz, isoprenaline alone also failed to enhance the S-I outflow of radioactivity.…”

Section: Discussionmentioning

confidence: 99%

Prejunctional β‐adrenoceptors in rabbit pulmonary artery and mouse atria: effect of α‐adrenoceptor blockade and phosphodiesterase inhibition

Johnston

Majewski

1986

British J Pharmacology

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1 In rabbit isolated pulmonary artery previously incubated with [3H]-noradrenaline, isoprenaline (0.3 riM) had no effect on the stimulation-induced outflow of radioactivity. However, if the phosphodiesterase inhibitor ICI 63,197 (30 gM) or the a-adrenoceptor blocker phentolamine (1 gM) was present, then isoprenaline significantly enhanced the stimulation-induced outflow, an effect blocked by propranolol (0.1 tIM). ICI 63,197 (30 tM) but not phentolamine significantly enhanced the stimulation-induced outflow of radioactivity.2 In mouse isolated atria previously incubated with [3H]-noradrenaline and stimulated at a frequency of 10 Hz, isoprenaline had no effect on the stimulation-induced outflow of radioactivity; this is in contrast to its release-enhancing effects at stimulation frequencies of 4 Hz and 2 Hz. The facilitation of stimulation-induced outflow by isoprenaline at 4 Hz was blocked by propranolol (0.08 ILM) which, by itself, had no effect on the stimulation-induced outflow. 3 At a stimulation frequency of 2 Hz in mouse atria thefacilitatory effect of isoprenaline (0.01 tM) was significantly greater in the presence of ICI 63,197 (30 jM) which, by itself, had no effect on the stimulation-induced outflow. Similarly, the facilitatory effect of isoprenaline was significantly greater in the presence of phentolamine (I 4M) but, in this case, phentolamine significantly enhanced the stimulation-induced outflow.4 These results suggest that facilitatory prejunctional P-adrenoceptors are present in both rabbit pulmonary artery and mouse atria. The effects of the phosphodiesterase inhibitor ICI 63,197 suggest that they are linked to adenylate cyclase in both tissues and we propose that the ability ofphentolamine to facilitate the release and enhance the effect of isoprenaline may be due to the blockade of aadrenoceptor inhibition of adenylate cyclase. This latter proposition needs further investigation.

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Section: Discussionmentioning

confidence: 99%

Prejunctional β‐adrenoceptors in rabbit pulmonary artery and mouse atria: effect of α‐adrenoceptor blockade and phosphodiesterase inhibition

Johnston

Majewski

1986

British J Pharmacology

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“…increase in overflow must be due to an increase in transmitter liberation by the nerves. The simplest explanation for this is an inhibition of the presynaptic inhibitory a-adrenoceptors on the noradrenergic nerves (see Endo, Starke, Bangerter & Taube, 1977). The net effect upon the response of the inhibition of pre-and postsynaptic a-adrenoceptors will be determined by the relative potency of the antagonist at the two receptor sites.…”

Section: Discussionmentioning

confidence: 99%

The Effects of Piperoxan on Uptake of Noradrenaline and Overflow of Transmitter in the Isolated Blood Perfused Spleen of the Cat

Blakeley¹,

Summers²

1978

British J Pharmacology

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The competitive α‐adrenoceptor blocking agent, piperoxan, in concentrations up to 2 × 10−4m, produced large dose‐dependent increases in transmitter overflow from the isolated blood perfused spleen of the cat following nerve stimulation at 10 hertz. At concentrations greater than 2 × 10 −4 m, piperoxan produced a rise in perfusion pressure, a contraction of the splenic capsule, and a marked dose‐dependent decrease in transmitter overflow. Phenoxybenzamine (10−4m) and desmethylimipramine (3 × 10−5m) produced further increases in transmitter overflow when added after piperoxan. Piperoxan (5.8 to 6.6 × 10−6m) had no effect on the recovery of 3H in the venous blood following the close arterial infusion or injection of [3H]‐(−)−noradrenaline, indicating that the drug does not inhibit uptake of the amine. Piperoxan produced dose‐dependent inhibition of responses of the splenic vasculature to close arterial injection of 1 μg of (—)‐noradrenaline but was much less effective at inhibiting responses to nerve stimulation. At 2 × 10 −6m piperoxan produced a considerable reduction of the response to injected noradrenaline but potentiated the response to nerve stimulation. In isolated strips of cat splenic capsule, piperoxan produced a shift to the right of the dose‐response curve to noradrenaline with no change of the maximum response. There was no evidence of a postsynaptic sensitizing effect of the type observed in the rat vas deferens.

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“…A 2F Fogarty arterial embolectomy catheter (Baxter Health Care Co, Santa Ana, Calif) was inserted into the artery and advanced proximally into the iliac artery past the bifurcation into the aorta. The 16 OOOg in a microfuge for 5 minutes.…”

Section: Methods Animalsmentioning

confidence: 99%

Vascular injury augments adrenergic neurotransmission.

et al. 1994

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BACKGROUND We have observed persistent desensitization to exogenous norepinephrine after balloon injury. We postulated that this desensitization may be due to a local increase in the release of neuronal norepinephrine. METHODS AND RESULTS New Zealand White rabbits underwent left iliac artery angioplasty; 4 weeks later, both iliac arteries were harvested. Maximal response to exogenous norepinephrine was reduced in injured compared with noninjured vessels (12.3 +/- 1.0 g versus 10.3 +/- 1.5 g; n = 7, P = .056). By contrast, response to electrical stimulation (to induce neuronal norepinephrine release) was significantly greater in injured tissues (36 +/- 7% versus 14 +/- 3%; values expressed as percent of maximal contraction to exogenous norepinephrine; P = .025). Direct measurement of tissue norepinephrine revealed a threefold increase 4 weeks after injury (1236 +/- 410 versus 466 +/- 97 pg/mg; injured versus noninjured). To determine if desensitization to exogenous norepinephrine was due to a persistent increase in neuronal norepinephrine release, the experiments were repeated after chemical sympatholysis using 6-hydroxydopamine (6-OHDA) (65 mg/kg). To determine if activation of vascular angiotensin II contributed to facilitation of adrenergic neurotransmission, other animals received ramipril (RAM; 1 mg/kg per day). Both treatments were initiated 7 days before angioplasty. In the 6-OHDA group there was no evidence of desensitization, judged by maximal response to exogenous norepinephrine (7.5 +/- 0.6 versus 7.5 +/- 0.8, noninjured versus injured). Similar results were obtained in RAM animals (9.9 +/- 0.8 versus 9.6 +/- 1.2, noninjured versus injured). CONCLUSIONS This is the first study to demonstrate enhanced adrenergic neurotransmission after balloon injury. The facilitation of adrenergic neurotransmission may be due to increased local concentrations of angiotensin II and is associated with desensitization to exogenous norepinephrine.

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Presynaptic receptor systems on the noradrenergic neurones of the rabbit pulmonary artery

Cited by 169 publications

References 36 publications

Prejunctional β‐adrenoceptors in rabbit pulmonary artery and mouse atria: effect of α‐adrenoceptor blockade and phosphodiesterase inhibition

Prejunctional β‐adrenoceptors in rabbit pulmonary artery and mouse atria: effect of α‐adrenoceptor blockade and phosphodiesterase inhibition

The Effects of Piperoxan on Uptake of Noradrenaline and Overflow of Transmitter in the Isolated Blood Perfused Spleen of the Cat

Vascular injury augments adrenergic neurotransmission.

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