Abstract
Despite the classically held belief of an “all-or-none” activation of the sympathetic nervous system, differential responses in sympathetic nerve activity (SNA) can occur acutely at varying magnitudes and in opposing directions. Sympathetic nerves also appear to contribute differentially to various disease states including hypertension and heart failure. Previously we have reported that sedentary conditions enhanced responses of splanchnic SNA (SSNA) but not lumbar SNA (LSNA) to activation of the rostral ventrolateral medulla (RVLM) in rats. Bulbospinal RVLM neurons from sedentary rats also exhibit increased dendritic branching in rostral regions of the RVLM. We hypothesized that regionally specific structural neuroplasticity would manifest as enhanced SSNA but not LSNA following activation of the rostral RVLM. To test this hypothesis, groups of physically active (10–12 weeks on running wheels) or sedentary, male Sprague-Dawley rats were instrumented to record mean arterial pressure, LSNA and SSNA under Inactin anesthesia and during microinjections of glutamate (30 nl, 10 mM) into multiple sites within the RVLM. Sedentary conditions enhanced SSNA but not LSNA responses and SSNA responses were enhanced at more central and rostral sites. Results suggest that enhanced SSNA responses in rostral RVLM coincide with enhanced dendritic branching in rostral RVLM observed previously. Identifying structural and functional neuroplasticity in specific populations of RVLM neurons may help identify new treatments for cardiovascular diseases, known to be more prevalent in sedentary individuals.
Highlights
The sympathetic nervous system plays an important role in the control of arterial blood pressure (Guyenet, 2006)
Similar to our previous studies performed in separate groups of animals, absolute voltages for resting lumbar SNA (LSNA) were not significantly different between groups (Mueller and Mischel, 2012); resting splanchnic SNA (SSNA) voltages were significantly higher in the sedentary rats compared to active rats (Mischel and Mueller, 2011)
The purposes of the present study were to determine whether glutamatergic activation of the rat rostral ventrolateral medulla (RVLM) produces differential changes in lumbar and splanchnic sympathetic nerve activity (SNA), and whether sedentary vs. physically active conditions alter regulation of SNA in a pattern consistent with subregional neuroplasticity reported previously (Mischel et al, 2014)
Summary
The sympathetic nervous system plays an important role in the control of arterial blood pressure (Guyenet, 2006). Differential changes in sympathetic outflow (In)Activity-Mediated Neuroplasticity in the Rat RVLM occur under pathological conditions such as obesity, hypertension and heart failure (Eikelis and Esler, 2005; Floras, 2009; Malpas, 2010; May et al, 2010). In the angiotensin II-salt model of hypertension, sympathetic nerve activity (SNA) to different vascular beds can be increased, decreased or unchanged (Osborn and Fink, 2010; Yoshimoto et al, 2010; Foss et al, 2013). Understanding the specific contribution of different sympathetic nerves to certain disease states is an important step in discovering ways to alleviate the deleterious effects of high SNA (Osborn and Kuroki, 2012)
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