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Abstract
The reflexive excitation of the sympathetic nervous system in response to psychological stress leads to elevated blood pressure, a condition that persists even after the stress has been alleviated. This sustained increase in blood pressure, which may contribute to the pathophysiology of hypertension, could be linked to neural plasticity in sympathetic nervous activity. Given the critical role of astrocytes in various forms of neural plasticity, we investigated their involvement in maintaining elevated blood pressure during the post-stress phase. Specifically, we examined the effects of arundic acid, an astrocytic inhibitor, on blood pressure and heart rate responses to air-jet stress. First, we confirmed that the inhibitory effect of arundic acid is specific to astrocytes. Using c-Fos immunohistology, we then observed that psychological stress activates neurons in cardiovascular brain regions, and that this stress-induced neuronal activation was suppressed by arundic acid pre-treatment in rats. By evaluating astrocytic process thickness, we also confirmed that astrocytes in the cardiovascular brain regions were activated by stress, and this activation was blocked by arundic acid pre-treatment. Next, we conducted blood pressure measurements on unanesthetized, unrestrained rats. Air-jet stress elevated blood pressure, which remained high for a significant period during the post-stress phase. However, pre-treatment with arundic acid, which inhibited astrocytic activation, suppressed stress-induced blood pressure elevation both during and after stress. In contrast, arundic acid had no significant impact on heart rate. These findings suggest that both neurons and astrocytes play integral roles in stress-induced blood pressure elevation and its persistence after stress, offering new insights into the pathophysiological mechanisms underlying hypertension.
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Details
1 University of Yamanashi, Department of Pediatrics, School of Medicine, Chuo, Japan (GRID:grid.267500.6) (ISNI:0000 0001 0291 3581); Murayama Medical Center, Clinical Research Center, Tokyo, Japan (GRID:grid.415635.0)
2 Shimane University School of Medicine, Department of Anatomy and Morphological Neuroscience, Izumo, Japan (GRID:grid.411621.1) (ISNI:0000 0000 8661 1590)
3 Murayama Medical Center, Clinical Research Center, Tokyo, Japan (GRID:grid.415635.0); Aomori University of Health and Welfare, Graduate School of Health Sciences, Aomori, Japan (GRID:grid.411421.3) (ISNI:0000 0004 0369 9910)
4 Murayama Medical Center, Clinical Research Center, Tokyo, Japan (GRID:grid.415635.0); Fujita Health University, Faculty of Rehabilitation, School of Health Sciences, Toyoake, Japan (GRID:grid.256115.4) (ISNI:0000 0004 1761 798X)
5 Showa University, School of Medicine, Department of Physiology, Tokyo, Japan (GRID:grid.410714.7) (ISNI:0000 0000 8864 3422)
6 International University of Health and Welfare, Center for Medical Sciences, Otawara, Japan (GRID:grid.411731.1) (ISNI:0000 0004 0531 3030)
7 Kyoto University, Department of Synthetic Chemistry and Biological Chemistry Graduate School of Engineering, Kyoto, Japan (GRID:grid.258799.8) (ISNI:0000 0004 0372 2033)
8 University of Yamanashi, Department of Pediatrics, School of Medicine, Chuo, Japan (GRID:grid.267500.6) (ISNI:0000 0001 0291 3581)
9 Toyo University, Department of Biomedical Engineering, Graduate School of Science and Engineering, Saitama, Japan (GRID:grid.265125.7) (ISNI:0000 0004 1762 8507)
10 Nippon Medical School, Department of Physiology, Tokyo, Japan (GRID:grid.410821.e) (ISNI:0000 0001 2173 8328)
11 University of Opole, Institute of Health Sciences, Opole, Poland (GRID:grid.107891.6) (ISNI:0000 0001 1010 7301)
12 Murayama Medical Center, Clinical Research Center, Tokyo, Japan (GRID:grid.415635.0)