thioperamide and 1-3-dipropyl-8-cyclopentylxanthine

thioperamide has been researched along with 1-3-dipropyl-8-cyclopentylxanthine* in 2 studies

Other Studies

2 other study(ies) available for thioperamide and 1-3-dipropyl-8-cyclopentylxanthine

Article	Year
Sensitization of visceral afferents to bradykinin in rat jejunum in vitro. The Journal of physiology, 1999, Dec-01, Volume: 521 Pt 2 1. We have investigated the effects of inflammatory mediators on visceral afferent discharge and afferent responses to bradykinin (BK) in rat jejunum using a novel in vitro technique. 2. Prostaglandin E2 (1 microM) augmented responses to BK without affecting basal firing, while histamine (100 microM) and adenosine (100 microM) activated basal discharge and enhanced BK responses. In contrast, 5-HT (100 microM) increased basal discharge without influencing responses to BK. 3. Afferent discharge induced by histamine was inhibited by both H1 (pyrilamine) and H3 (thioperamide) but not H2 (ranitidine) receptor antagonists at 10 microM. In contrast, sensitization to BK induced by histamine was inhibited by ranitidine (10 microM). 4. Afferent discharge induced by adenosine was blocked by the A1 receptor antagonist DPCPX (10 microM) but remained unaffected by A2A receptor blockade with ZM241385 (10 microM). In contrast, sensitization of BK responses by adenosine was unaffected by both antagonists. Basal discharge and BK-induced responses were unaffected by the A3 receptor agonist IB-MECA (1 microM). While involvement of A2B receptors is not excluded, adenosine may activate afferent discharge through A1 receptors, while sensitization to BK could involve a receptor other than A1, A2A or A3, possibly the A2B receptor. 5. Inhibition of cyclo-oxygenase with naproxen (10 microM) prevented sensitization after histamine but not adenosine. 6. Sensitization was mimicked by dibutyryl cAMP. This occurred without changes in basal firing and was unaffected by naproxen. 7. In conclusion, afferent discharge induced by BK is augmented by histamine, adenosine and PGE2, but not by 5-HT. Evidence suggests that sensitization involves separate mechanisms from afferent activation. Sensitization may be mediated by increases in cAMP following direct activation by mediators at the nerve terminal or through indirect pathways such as the release of prostaglandins. Topics: Adenosine; Animals; Bradykinin; Bucladesine; Cyclooxygenase Inhibitors; Dinoprostone; Histamine; Histamine Antagonists; Histamine H2 Antagonists; In Vitro Techniques; Jejunum; Male; Membrane Potentials; Naproxen; Neurons, Afferent; Piperidines; Ranitidine; Rats; Rats, Inbred Strains; Serotonin; Stimulation, Chemical; Triazines; Triazoles; Xanthines	1999
Guanosine 5'-(gamma-[35S]thio)triphosphate autoradiography allows selective detection of histamine H3 receptor-dependent G protein activation in rat brain tissue sections. Journal of neurochemistry, 1998, Volume: 71, Issue:2 Histamine elicits its biological effects via three distinct G protein-coupled receptors, termed H1, H2, and H3. We have used guanosine 5'-(gamma-[35S]thio)triphosphate (GTPgamma[35S]) autoradiography to localize histamine receptor-dependent G protein activation in rat brain tissue sections. Initial studies revealed that in basal conditions, adenosine was present in tissue sections in sufficient concentrations to generate an adenosine A1 receptor-dependent GTPgamma[35S] signal in several brain regions. All further incubations therefore contained 8-cyclopentyl-1,3-dipropylxanthine (10 microM), a selective A1 receptor antagonist. Histamine elicited dose-dependent increments in GTPgamma[35S] binding to discrete anatomical structures, most notably the caudate putamen, cerebral cortex, and substantia nigra. The overall anatomical pattern of the histamine-evoked binding response closely reflects the known distribution of H3 binding sites and was faithfully mimicked by N(alpha)-methylhistamine, (R)-alpha-methylhistamine, and immepip, three H3-selective agonists. In all regions examined, the GTPgamma[35S] signal was reversed with thioperamide and clobenpropit, two potent H3-selective antagonists, whereas mepyramine, a specific H1 antagonist, and cimetidine, a prototypic H2 antagonist, proved ineffective. These data indicate that in rat brain tissue sections, GTPgamma[35S] autoradiography selectively detects H3 receptor-dependent signaling in response to histamine stimulation. As the existing evidence suggests that GTPgamma[35S] autoradiography preferentially reveals responses to G(i/o)-coupled receptors, our data indicate that most, if not all, central H3 binding sites represent functional receptors coupling to G(i/o), the inhibitory class of G proteins. Besides allowing more detailed studies on H3 receptor signaling within anatomically restricted regions of the CNS, GTPgamma[35S] autoradiography offers a novel approach for functional in vitro screening of H3 ligands. Topics: Adenosine; Animals; Autoradiography; Basal Ganglia; Brain Chemistry; Cerebral Cortex; GTP-Binding Proteins; Guanosine 5'-O-(3-Thiotriphosphate); Guanosine Diphosphate; Histamine; Histamine Antagonists; Histamine H1 Antagonists; Male; Piperidines; Protein Binding; Pyrilamine; Rats; Rats, Wistar; Receptors, Histamine H3; Signal Transduction; Substantia Nigra; Sulfur Radioisotopes; Xanthines	1998

Article

Year

Sensitization of visceral afferents to bradykinin in rat jejunum in vitro.

The Journal of physiology, 1999, Dec-01, Volume: 521 Pt 2

1. We have investigated the effects of inflammatory mediators on visceral afferent discharge and afferent responses to bradykinin (BK) in rat jejunum using a novel in vitro technique. 2. Prostaglandin E2 (1 microM) augmented responses to BK without affecting basal firing, while histamine (100 microM) and adenosine (100 microM) activated basal discharge and enhanced BK responses. In contrast, 5-HT (100 microM) increased basal discharge without influencing responses to BK. 3. Afferent discharge induced by histamine was inhibited by both H1 (pyrilamine) and H3 (thioperamide) but not H2 (ranitidine) receptor antagonists at 10 microM. In contrast, sensitization to BK induced by histamine was inhibited by ranitidine (10 microM). 4. Afferent discharge induced by adenosine was blocked by the A1 receptor antagonist DPCPX (10 microM) but remained unaffected by A2A receptor blockade with ZM241385 (10 microM). In contrast, sensitization of BK responses by adenosine was unaffected by both antagonists. Basal discharge and BK-induced responses were unaffected by the A3 receptor agonist IB-MECA (1 microM). While involvement of A2B receptors is not excluded, adenosine may activate afferent discharge through A1 receptors, while sensitization to BK could involve a receptor other than A1, A2A or A3, possibly the A2B receptor. 5. Inhibition of cyclo-oxygenase with naproxen (10 microM) prevented sensitization after histamine but not adenosine. 6. Sensitization was mimicked by dibutyryl cAMP. This occurred without changes in basal firing and was unaffected by naproxen. 7. In conclusion, afferent discharge induced by BK is augmented by histamine, adenosine and PGE2, but not by 5-HT. Evidence suggests that sensitization involves separate mechanisms from afferent activation. Sensitization may be mediated by increases in cAMP following direct activation by mediators at the nerve terminal or through indirect pathways such as the release of prostaglandins.

Topics: Adenosine; Animals; Bradykinin; Bucladesine; Cyclooxygenase Inhibitors; Dinoprostone; Histamine; Histamine Antagonists; Histamine H2 Antagonists; In Vitro Techniques; Jejunum; Male; Membrane Potentials; Naproxen; Neurons, Afferent; Piperidines; Ranitidine; Rats; Rats, Inbred Strains; Serotonin; Stimulation, Chemical; Triazines; Triazoles; Xanthines

1999

Guanosine 5'-(gamma-[35S]thio)triphosphate autoradiography allows selective detection of histamine H3 receptor-dependent G protein activation in rat brain tissue sections.

Journal of neurochemistry, 1998, Volume: 71, Issue:2

Histamine elicits its biological effects via three distinct G protein-coupled receptors, termed H1, H2, and H3. We have used guanosine 5'-(gamma-[35S]thio)triphosphate (GTPgamma[35S]) autoradiography to localize histamine receptor-dependent G protein activation in rat brain tissue sections. Initial studies revealed that in basal conditions, adenosine was present in tissue sections in sufficient concentrations to generate an adenosine A1 receptor-dependent GTPgamma[35S] signal in several brain regions. All further incubations therefore contained 8-cyclopentyl-1,3-dipropylxanthine (10 microM), a selective A1 receptor antagonist. Histamine elicited dose-dependent increments in GTPgamma[35S] binding to discrete anatomical structures, most notably the caudate putamen, cerebral cortex, and substantia nigra. The overall anatomical pattern of the histamine-evoked binding response closely reflects the known distribution of H3 binding sites and was faithfully mimicked by N(alpha)-methylhistamine, (R)-alpha-methylhistamine, and immepip, three H3-selective agonists. In all regions examined, the GTPgamma[35S] signal was reversed with thioperamide and clobenpropit, two potent H3-selective antagonists, whereas mepyramine, a specific H1 antagonist, and cimetidine, a prototypic H2 antagonist, proved ineffective. These data indicate that in rat brain tissue sections, GTPgamma[35S] autoradiography selectively detects H3 receptor-dependent signaling in response to histamine stimulation. As the existing evidence suggests that GTPgamma[35S] autoradiography preferentially reveals responses to G(i/o)-coupled receptors, our data indicate that most, if not all, central H3 binding sites represent functional receptors coupling to G(i/o), the inhibitory class of G proteins. Besides allowing more detailed studies on H3 receptor signaling within anatomically restricted regions of the CNS, GTPgamma[35S] autoradiography offers a novel approach for functional in vitro screening of H3 ligands.

Topics: Adenosine; Animals; Autoradiography; Basal Ganglia; Brain Chemistry; Cerebral Cortex; GTP-Binding Proteins; Guanosine 5'-O-(3-Thiotriphosphate); Guanosine Diphosphate; Histamine; Histamine Antagonists; Histamine H1 Antagonists; Male; Piperidines; Protein Binding; Pyrilamine; Rats; Rats, Wistar; Receptors, Histamine H3; Signal Transduction; Substantia Nigra; Sulfur Radioisotopes; Xanthines

1998