Jörg Seebeck scite author profile

The effector hormone of the renin-angiotensin system, angiotensin II, plays a major role in cardiovascular regulation. In rats, both angiotensin receptor subtypes, AT(1) and AT(2), are up-regulated after myocardial infarction but previous studies failed to identify the cell types which express the AT(2) receptor in the heart. To address this question we established a single-cell reverse transcriptase-polymerase chain reaction for AT(1) and AT(2) receptors to determine whether these receptor subtypes are expressed in adult rat cardiomyocytes before and 1 day after myocardial infarction. By laser-assisted cell picking, section profiles of single cells without genomic DNA contamination were isolated. After dividing samples into two identical aliquots, polymerase chain reaction amplification for AT(1) and AT(2) receptors was carried out and polymerase chain reaction products were subjected to gel electrophoresis. Compared to control (n = 4) and sham-operated animals (n = 4), the number of cardiomyocytes expressing the AT(1) receptor mRNA 1 day after myocardial infarction (n = 4) was not changed (42% and 33% versus 45%, respectively). On the other hand, AT(2) receptor mRNA was expressed in 8% and 13%, respectively, of cardiomyocytes gained from control (n = 4) and sham-operated animals (n = 4) and in 14% isolated after myocardial infarction (n = 4). These results demonstrate for the first time that the AT(2) receptor is expressed in adult cardiomyocytes in vivo. They further suggest that the previously observed up-regulation of cardiac AT(1) and AT(2) receptors after myocardial infarction involves cell types other than cardiomyocytes.

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PACAP induces bradycardia in guinea-pig heart by stimulation of atrial cholinergic neurones

Seebeck

Schmidt

Kilbinger³

et al. 1996

Naunyn-Schmiedeberg's Arch Pharmacol

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Based on previous studies which indicated that pituitary adenylate cyclase activating peptide (PACAP) acts as a positive inotropic and chronotropic substance in different species via the cAMP signal transduction pathway, the objective of the present work was to investigate cAMP-regulated myocardial key proteins in response to PACAP in isolated ventricular cells of the guinea pig. Surprisingly, the two molecular forms of PACAP, PACAP(1-27) and PACAP(1-38), showed no effect on intracellular cAMP-levels, L-type Ca2+ channel current or phosphorylation of troponin inhibitor (TnI) and phospholamban (PLB). Additionally, inotropy of isolated guinea-pig ventricular strips was not affected by the neuropeptide. However, in isolated spontaneously beating guinea-pig atria, PACAP(1-27) and PACAP(1-38), but not VIP induced severe bradycardia in a dose-dependent manner. This effect could be prevented by preincubation with the PACAP receptor antagonist PACAP(6-38), by atropine and by omega-conotoxin, a blocker of neuronal N-type Ca2+ channels. PACAP stimulates release of [3H]-labelled acetylcholine. Only preparations showing an increase in [3H]acetylcholine release developed bradycardia, indicating a causal relationship between both phenomena. It was concluded that PACAP exerts no influence on guinea-pig ventricular tissue, but induces negative chronotropic effects in isolated guinea-pig atria by stimulation of acetylcholine release from parasympathetic neurons via PACAP type 1 receptors.

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Relaxant effect of xenin on rat ileum is mediated by apamin-sensitive neurotensin-type receptors

Clemens

Katsoulis

Nustede

et al. 1997

American Journal of Physiology-Gastrointestinal and Liver Physi

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The action of xenin, a novel 25-residue peptide of the neurotensin (NT)/xenopsin family, was investigated in isolated rat ileal muscle strips and in dispersed longitudinal smooth muscle cells of rat small intestine in vitro. Xenin relaxes KCl-precontracted ileal strips dose dependently (1 nM-3 microM). The order of potency of the investigated peptides was as follows: xenopsin = NT = xenin > neuromedin N. Kinetensin was inactive. Tetrodotoxin, hexamethonium, tetraethylammonium, 4-aminopyridine, and NG-nitro-L-arginine did not influence the relaxant effects of xenin or NT, whereas the K+ channel blocker apamin nearly abolished their effects. Desensitization against one of the peptides or blockade of NT receptors by SR-48692 prevented the effect of xenin and NT. Structure-activity experiments revealed that the COOH-terminal part of the molecules of xenin and NT is essential for biological activity. Experiments with isolated dispersed smooth muscle cells and binding studies on intestinal smooth muscle cell membranes confirmed and extended the results obtained with muscle strips. In conclusion, xenin relaxes rat ileal smooth muscle via a muscular NT-type apamin-sensitive receptor.

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The vasorelaxant effect of pituitary adenylate cyclase activating polypeptide and vasoactive intestinal polypeptide in isolated rat basilar arteries is partially mediated by activation of nitrergic neurons

Seebeck¹,

Löwe²,

Kruse³

et al. 2002

Regulatory Peptides

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Fluoroquinolone-Associated Anaphylaxis in Spontaneous Adverse Drug Reaction Reports in Germany

Sachs¹,

Riegel²,

Seebeck³

et al. 2006

Drug Safety

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Jörg Seebeck

Expression of Angiotensin AT1 and AT2 Receptors in Adult Rat Cardiomyocytes after Myocardial Infarction

PACAP induces bradycardia in guinea-pig heart by stimulation of atrial cholinergic neurones

Relaxant effect of xenin on rat ileum is mediated by apamin-sensitive neurotensin-type receptors

The vasorelaxant effect of pituitary adenylate cyclase activating polypeptide and vasoactive intestinal polypeptide in isolated rat basilar arteries is partially mediated by activation of nitrergic neurons

Fluoroquinolone-Associated Anaphylaxis in Spontaneous Adverse Drug Reaction Reports in Germany

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