7 mmHg and after: −16 5 ± 3 mmHg; n = 4, P > 0 05, t = 0 7) Reco

7 mmHg and after: −16.5 ± 3 mmHg; n = 4, P > 0.05, t = 0.7). Recordings from a representative anesthetized rat showing the effects of injection of Ach (45 nmol/50 nL) into the vlPAG on both the mean or pulsatile arterial pressure as well as the heart rate, before and 10 min after local pretreatment of the vlPAG with 1 nmol/50 nL www.selleckchem.com/products/AG-014699.html of atropine (A), 3 nmol/50 nL (B) and 9 nmol/50 nL (C) are presented in Fig. 3. The systemic i.v. administration of the same dose of atropine (9 nmol) microinjected into the vlPAG did not affect basal levels of either MAP (before atropine: 90 ± 2.4 mmHg and after: 92.3 ± 2.3 mmHg; n = 6 t = 1, P > 0.05) or HR (before atropine:

394 ± 9 bpm and after: 397 ± 7 bpm; n = 6, t = 0.84, P > 0.05). Systemic pretreatment with atropine did not affect the hypotensive response evoked by microinjection of 45 nmol of Ach into the vlPAG (ΔMAP before atropine = −18 ± 5 mmHg and ΔMAP after atropine = −19 ± 4 mmHg; t = 0.5, P >0.05, n = 6). The distribution of injection sites in the dPAG, vlPAG and outside the vlPAG of all animals used are presented in Fig. 4 A and B, respectively. Photomicrographs illustrating sites of injection in the dPAG and vlPAG are presented in Fig. 5A and B, respectively. In the present study, we report that microinjection of Ach into the rostral, medial

and caudal portions of the vlPAG of anesthetized rats evoked dose-dependent hypotensive responses. However, no significant cardiovascular changes were observed after its injection into the rostral, medial or caudal portions of the dPAG. Mapping of PAG areas in which chemical stimulation evoked cardiovascular responses check details was performed in both cats and rats and indicated that the PAG

is organized Vorinostat ic50 as rostrocaudal columns (Carrive and Bandler, 1991, Lovick, 1985 and Lovick, 1992a). Such organization may explain why different cardiovascular responses were observed when Ach was microinjected into different portions of the PAG. The depressor responses observed when Ach was microinjected into the vlPAG were similar to those reported after the injection of DL-homocysteic acid into the same area (Bandler et al., 1991, Huang et al., 2000, Lovick, 1985, Lovick, 1992a and Rossi et al., 1994). The fact that no significant HR changes were observed after its microinjection into the vlPAG could be a consequence of an impaired baroreflex response. Baroreflex activity has been reported to be blunted under anesthesia (Crippa et al., 2000, Fluckiger et al., 1985 and Shimokawa et al., 1998), thus reducing the range of ∆HR changes and resulting in smaller reflex responses. Studies using tracing techniques have indicated that several brain regions, including the PAG, provide afferent inputs to the RVLM (Van Bockstaele et al., 1991). The PAG is thought to be involved in cardiovascular control, perhaps via a relay in the RVLM (Carrive et al., 1989, Keay et al., 2000, Lovick, 1992b and Verberne and Struyker Boudier, 1991).

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