(2011). For synaptic blockade, a 0.2 mM CaCl2 and 400 μM CdCl2 ACSF was used. In other cases, a 0 mM CaCl2/3 mM EGTA solution was used, as indicated. Hypothalamic slices were transferred MDV3100 concentration to a recording chamber and superfused with ACSF (30°C–32°C) at a flow rate of ∼3.0 ml min−1. Conventional whole-cell patch-clamp recordings, using a K+-gluconate-based internal solution, were obtained as previously described by Sonner et al.
(2011). When noted, neurons were intracellularly labeled with Alexa Fluor 555 (100 μM) or biocytin (1%). Recordings were obtained from fluorescently labeled PVN-RVLM neurons and from EGFP-VP neurons. For bath-applied drugs, mean firing activity and membrane potential values were calculated from a 2 min period before drug application and in a 2 min period around the peak effect. For briefer applications
(picospritzer) and uncaging, values were calculated from a 1 min period before and 10–20 s period around the peak effect, using Clampfit (Axon Instruments) or miniAnalysis (Synaptosoft) software. Neurons were loaded through the patch pipette with Fluo-5F pentapotassium salt (100 μM; Molecular Probes), as previously described (Filosa et al., 2006 and Sonner et al., 2011). For astrocyte Ca2+ measurements, slices were incubated in ACSF containing Rhod2-AM and pluronic acid (2.5 μg/ml). Imaging was conducted using the Andor Technology Revolution system (iXON EMCCD camera with the Yokogawa CSU 10, confocal scanning unit). Fluorescence images were acquired at 488 nm and emitted light at >495 nm (Fluo5) or 561 nm and emitted light >607 nm (Rhod2). Images were acquired at a rate of 4 Hz. The Volasertib fractional fluorescence (F/F0) was determined by dividing the fluorescence intensity (F) within a region of interest (≈4.8 × 4.8 μm) by a baseline fluorescence value (F0) determined from Adenosine 30 images before
photolysis of caged NMDA. Data were analyzed using Andor IQ software (Andor Technology). Slices were perfused with MNI-caged NMDA (50 μM). A UV laser excitation (405 nm) was directed to a region of interest drawn on the image of identified PVN-RVLM or EGFP-VP somata. Based on the pixel dwell time (200–800 μs) and the ROI area scanned (∼40 μm2), the uncaging protocol lasted 180–720 ms. For these experiments, an ACSF containing 20 μM Mg2+ was used to facilitate detection of evoked NMDA responses. Rats were anesthetized with urethane (0.75 g/kg i.p.) and α-chloralose (70 mg/kg i.p.) and placed in a stereotaxic apparatus. The coordinates for PVN microinjections were 1.5 mm posterior to the bregma, 0.4 mm lateral to the midline, and 7.8 mm ventral to the dura. To record RSNA, the left kidney was exposed through a retroperitoneal flank incision. A branch of the renal nerve was isolated and placed on a pair of thin bipolar platinum electrodes. The electrical signal was amplified (10,000 times) with a Grass amplifier (P55) with a high- and low-frequency cutoff of 1,000 and 100 Hz, respectively.
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