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Effects of clonidine, dihydralazine and splanchnic nerve stimulation on the release of neuropeptide Y, MET-enkephalin and catecholamines from dog adrenal medulla (1993)

Damase-Michel, Christine ; Tavernier, Geneviève ; Giraud, Pierre ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 348 (1993), S. 379-384

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ISSN: 1432-1912

Keywords: Catecholamines ; Neuropeptides ; Adrenal medulla ; Clonidine ; Dihydralazine ; Splanchnic nerve stimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Various neuropeptides are costored together with catecholamines in the adrenal medulla. The concurrent release (evaluated by adrenal vein plasma levels) of these neuropeptides [neuropeptide Y (NPY), met-enkephaline (ME)] and catecholamines [adrenaline (A) and noradrenaline (NA)] from the adrenal gland was examined in chloralose-anesthetized dogs after intravenous administration of clonidine (10 μg/kg) and dihydralazine (1 mg/kg). These results were compared to those obtained after the stimulation of the right splanchnic nerve at 1, 5 and 10 Hz frequencies. The increment in the release of catecholamines and neuropeptides was evaluated for dihydralazine and splanchnic nerve stimulation. Dihydralazine (at its maximal effect) induced a significant preferential increase in catecholamines (expressed as mean (SEM): NA: 17.3 (5.4) fold, A: 13.1 (2.6) fold) and ME (16.0 (7.1) fold) versus basal values. However, the significant increase in NPY-LI was only 2.0 (0.4) times the baseline. Splanchnic nerve stimulation induced a frequency-dependent increase in catecholamines and neuropeptides. When the stimulation frequency was increased from 1 Hz to 5 Hz, NA and A levels increased 17.9 (4.3) and 14.0 (2.2) fold, respectively and ME levels 14.1 (3.0) fold. By contrast, NPY-LI was increased only 2.3 (0.3) fold under the same conditions. Increasing the stimulation frequency from 5 Hz to 10 Hz resulted in similar elevations of NA, ME, and NPY-LI adrenal plasma levels (about 4 times) whereas A only increased twice. Clonidine decreased catecholamine and ME adrenal plasma levels (the maximal percent decrease when compared with control values was about 75%) whereas NPY adrenal plasma levels remained unchanged. In conclusion, the present data indicate that (i) both adrenal ME and NA always exhibit corelease in a parallel fashion which is not the case for NPY art; (ii) different populations of chromaffin vesicles could be preferentially mobilized according to different physiological and pharmacological patterns.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00171337

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Is neuropeptide Y co-released with catecholamines in experimental arterial hypertension following sinoaortic denervation? (1992)

Tavernier, Geneviève ; Damase-Michel, Christine ; Portolan, Ghyslaine ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 345 (1992), S. 431-436

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ISSN: 1432-1912

Keywords: Catecholamines ; NPY ; Conscious dogs ; Sinoaortic denervation ; Yohimbine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The release of catecholamines and their co-neurotransmitter neuropeptide Y (NPY) was investigated in conscious dogs with neurogenic arterial hypertension elicited by sinoaortic denervation. One month after denervation, an elevation of catecholamine levels (measured by HPLC) without elevation of NPY-like immunoreactivity (NPY-LI) levels in plasma (evaluated by RIA) has been found. This dissociation could be explained by 1) a transient release of NPY during the first weeks after surgery, 2) a depletion of neuronal NPY due to the permanent sympathetic stimulation, or 3) an insufficient increase in sympathetic tone. To test these hypotheses, we investigated the time courses of catecholamine and NPY-LI levels in arterial plasma during the first five weeks after sinoaortic denervation and responses to yohimbine (an alpha2 antagonist which enhances transmitter release). Resting NPY-LI levels in plasma remained normal during the first five weeks after sinoaortic denervation. In normal dogs, a high dose of yohimbine (0.5 mg/kg i. v.) elevated both catecholamine (6-fold) and NPY-LI levels (1.5-fold), whereas a lower dose (0.05 mg/kg i. v.) induced a two fold elevation of catecholamine levels without changing NPY-LI concentrations. In sinoaortically denervated dogs, yohimbine elicited elevation of both catecholamines and NPY-LI whatever the dose used. Thus, neurogenic arterial hypertension in dogs seems to involve catecholamines but not NPY. Moreover, the present work suggests that a high level of sympathetic stimulation is required for a co-release of catecholamines and NPY.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00176621

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(Table 3) Protist occurrence in bottom sea ice and surface water samples obtained during a CCGS Amundsen cruise in 2007/2008 (2011)

Niemi, Andrea ; Michel, Christine ; Hille, Kelly ; [et al.]

PANGAEA

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Publication Date: 2023-07-09

Keywords: Abundance estimate; Alexandrium tamarense; Amphidinium crassum; Amphidinium sphenoides; Aspidisca spp.; Attheya sp.; Bacillariophyceae indeterminata; Beaufort Sea; CCGSA_4-10_CFL08; CCGS Amundsen; CFL07/08_1-12; Chaetoceros borealis; Chaetoceros decipiens; Chroomonas sp.; Ciliates indeterminata; Circumpolar Flaw Lead Leg 4-10a; Coscinodiscophyceae indeterminata; Cryptophyceae; DATE/TIME; Date/time end; Dicroerisma psilonereiella; Dictyocha speculum; Dinobryon spp.; Dinoflagellate indeterminata; Dinophysis spp.; Diploneis litoralis var. arctica; Entomoneis gigantea var. septentrionalis; Entomoneis kjellmanii; Entomoneis kjellmanii var. subtilis; Entomoneis paludosa; Eucampia groenlandica; Euglena sp.; Euplotes sp.; Flagellates indeterminata; Fossula arctica; Fragilariopsis oceanica; Fragilariopsis spp.; Gymnodinium elongatum; Gymnodinium galeatum; Gymnodinium ostenfeldii; Gymnodinium sp.; Gymnodinium spp.; Gyrodinium cf. estuariale; Gyrodinium sp.; Gyrodinium spp.; Gyrosigma sp.; Gyrosigma tenuissimum; Gyrosigma tenuissimum var. hyperborea; Haslea crucigeroides; Haslea kjellmanii; Haslea sp.; Haslea spicula; Haslea spp.; Haslea vitrea; Kurpiszia kryokonites; Lacrymaria sp.; Lohmanniella oviformis; Melosira arctica; Mesodinium rubrum; Micromonas spp.; MULT; Multiple investigations; Navicula directa; Navicula gelida var. radissonii; Navicula septentrionalis; Navicula sp.; Navicula spp.; Navicula superba; Nitzschia arctica; Nitzschia frigida; Nitzschia longissima; Nitzschia neofrigida; Nitzschia promare; Nitzschia sp.; Number of species; Number of taxa; Pauliella taeniata; Peridiniella danica; Peridiniella spp.; Phaeocystis pouchetii; Pinnularia quadratarea; Pinnularia quadratarea var. constricta; Pinnularia quadratarea var. minor; Plagiotropis sp.; Pleurosigma sp.; Pleurosigma stuxbergii var. rhomboides; Preperidinium spp.; Pronoctiluca pelagica; Prorocentrum lima; Prorocentrum spp.; Prorodon spp.; Protoperidinium cf. minutum; Protoperidinium spp.; Pseudogomphonema arcticum; Pyramimonas spp.; Rhaphidophyceae; Rhodomonas marina; Rhodomonas sp.; Sample type; Stenoneis inconspicua var. baculus; Stenoneis obuserostrata; Strobilidium spiralis; Strombidium delicatissimum; Strombidium rhynchum; Strombidium sp.; Strombidium spp.; Strombidium sulcatum; Synedropsis hyperborea; Thalassionema nitzschioides; Thalassiosira angulata; Thalassiosira antarctica var. borealis; Thalassiosira pacifica; Thalassiosira sp.; Tintinnina; Vorticella sp.

Type: Dataset

Format: text/tab-separated-values, 660 data points

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