66 research outputs found
Activation of Thiazide-Sensitive Co-Transport by Angiotensin II in the cyp1a1-Ren2 Hypertensive Rat
Transgenic rats with inducible expression of the mouse Ren2 gene were used to elucidate mechanisms leading to the development of hypertension and renal injury. Ren2 transgene activation was induced by administration of a naturally occurring aryl hydrocarbon, indole-3-carbinol (100 mg/kg/day by gastric gavage). Blood pressure and renal parameters were recorded in both conscious and anesthetized (butabarbital sodium; 120 mg/kg IP) rats at selected time-points during the development of hypertension. Hypertension was evident by the second day of treatment, being preceded by reduced renal sodium excretion due to activation of the thiazide-sensitive sodium-chloride co-transporter. Renal injury was evident after the first day of transgene induction, being initially limited to the pre-glomerular vasculature. Mircoalbuminuria and tubuloinsterstitial injury developed once hypertension was established. Chronic treatment with either hydrochlorothiazide or an AT1 receptor antagonist normalized sodium reabsorption, significantly blunted hypertension and prevented renal injury. Urinary aldosterone excretion was increased ∼20 fold, but chronic mineralocorticoid receptor antagonism with spironolactone neither restored natriuretic capacity nor prevented hypertension. Spironolactone nevertheless ameliorated vascular damage and prevented albuminuria. This study finds activation of sodium-chloride co-transport to be a key mechanism in angiotensin II-dependent hypertension. Furthermore, renal vascular injury in this setting reflects both barotrauma and pressure-independent pathways associated with direct detrimental effects of angiotensin II and aldosterone
Rapid Effects of Hearing Song on Catecholaminergic Activity in the Songbird Auditory Pathway
Catecholaminergic (CA) neurons innervate sensory areas and affect the processing of sensory signals. For example, in birds, CA fibers innervate the auditory pathway at each level, including the midbrain, thalamus, and forebrain. We have shown previously that in female European starlings, CA activity in the auditory forebrain can be enhanced by exposure to attractive male song for one week. It is not known, however, whether hearing song can initiate that activity more rapidly. Here, we exposed estrogen-primed, female white-throated sparrows to conspecific male song and looked for evidence of rapid synthesis of catecholamines in auditory areas. In one hemisphere of the brain, we used immunohistochemistry to detect the phosphorylation of tyrosine hydroxylase (TH), a rate-limiting enzyme in the CA synthetic pathway. We found that immunoreactivity for TH phosphorylated at serine 40 increased dramatically in the auditory forebrain, but not the auditory thalamus and midbrain, after 15 min of song exposure. In the other hemisphere, we used high pressure liquid chromatography to measure catecholamines and their metabolites. We found that two dopamine metabolites, dihydroxyphenylacetic acid and homovanillic acid, increased in the auditory forebrain but not the auditory midbrain after 30 min of exposure to conspecific song. Our results are consistent with the hypothesis that exposure to a behaviorally relevant auditory stimulus rapidly induces CA activity, which may play a role in auditory responses
SIC, an intracerebral radiosensitive probe for In Vivo Neuropharmacology Investigations is Small Laboratory Animals: Theoretical Considerations and Physical Characteristics
Although high-resolution tomographs provide a new approach that strongly simplifies the measurement of in vivo tracer biodistribution and kinetics in small animals, they suffer from an important drawback: the need for animal anesthesia or immobilization, which restricts the neurophysiological investigations. Furthermore, quantitative irt vice experiments realized on the brain sometimes only require a simple measurement of the radioactivity achieved on a few local points and do not necessarily imply the use of a tomograph, which is a detector of high cost, These constraints led us to develop an intracerebral beta sensitive probe, sonde intracerebrale (SIC) (French acronym of intracerebral probe) that will allow chronic measurements of the neurophysiological activity in awake and unrestrained small animals. The volume to which the probe is sensitive and the noise contributions to the relevant signal have been evaluated through Monte Carlo simulations. Characterizations of a first prototype based on a small piece of scintillating fiber (500-mu m diameter and 1-mm length) fused to a same diameter optical fiber coupled in turn to a photomultiplier are also presented. A first configuration of the detector is finally proposed
NMR imaging of thermally polarized helium-3 gas.
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SIC, an intracerebral beta(+)-range-sensitive probe for radiopharmacology investigations in small laboratory animals: Binding studies with C-11-raclopride
Our aim was to show the ability of a recently developed P I range-sensitive intracerebral probe (SIC) to measure, in vivo, the binding of radioligands in small animals. Methods: The potential of the device for pharmacokinetic studies was evaluated by measurement of the dynamic striatal binding of C-11-raclopride, a well-documented D-2 dopaminergic receptor ligand, in rat brain after intravenous injection of the labeled compound. The effects of preinjection of the unlabeled ligand (raclopride, 2 mg/kg intravenously) and of increasing the synaptic dopamine level (amphetamine treatment, 1 mg/kg intravenously) or of depleting synaptic dopamine (reserpine pretreatment, 5 mg/kg intraperitoneally) on in vivo C-11-raclopride binding were monitored by SIC. Results: The radioactivity curves measured as a function of time were reproducible and consistent with previous studies using PET imaging (ratio of striatum to cerebellum, 2.6 +/- 0.3 after 20 min). Further studies showed significant displacement of C-11-raclopride by its stable analog. Finally, the device proved its capacity to accurately detect changes in C-11-raclopride binding after a sudden (amphetamine) or a gradual (reserpine) modulation of endogenous dopamine levels. Conclusion: These results show that the new device can monitor binding of PET ligands in anesthetized rodents in vivo, with high temporal resolutio
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