Putative role of the NTS in alterations in neural control of the circulation following exercise training in rats

doi:10.1152/ajpregu.00455.2005

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Putative role of the NTS in alterations in neural control of the circulation following exercise training in rats

Patrick J. Mueller¹^,2 and Eileen M. Hasser¹^,2^,3

¹Dalton Cardiovascular Research Center and ²Departments of Biomedical Sciences and ³Medical Pharmacology and Physiology, University of Missouri-Columbia, Columbia, Missouri

Submitted 28 June 2005 ; accepted in final form 17 September 2005

Exercise training (ExTr) has been associated with alterationsin neural control of the circulation, including effects on arterialbaroreflex function. The nucleus tractus solitarius (NTS) isthe primary termination site of cardiovascular afferents andcritical in the regulation of baroreflex-mediated changes inheart rate (HR) and sympathetic nervous system outflow. Thepurpose of the present study was to determine whether ExTr isassociated with alterations in neurotransmitter regulation ofneurons involved in control of cardiovascular function at thelevel of the NTS. We hypothesized that ExTr would increase glutamatergicand reduce GABAergic transmission in the NTS and that, collectively,these changes would result in a greater overall sympathoinhibitorydrive from the NTS in ExTr animals. To test these hypotheses,male Sprague-Dawley rats were treadmill trained or maintainedunder sedentary conditions for 8–10 wk. NTS microinjectionswere performed in Inactin-anesthetized animals instrumentedto record mean arterial pressure (MAP), HR, and lumbar sympatheticnerve activity (LSNA). Generalized activation of the NTS withunilateral microinjections of glutamate (1–10 mM, 30 nl)produced dose-dependent decreases in MAP, HR, and LSNA thatwere unaffected by ExTr. Bilateral inhibition of NTS with theGABA_A agonist muscimol (1 mM, 90 nl) produced increases in MAPand LSNA that were blunted by ExTr. In contrast, pressor andsympathoexcitatory responses to bilateral microinjections ofthe ionotropic glutamate receptor antagonist, kynurenate (40mM, 90 nl), were similar between groups. Bradycardic responsesto bilateral microinjections of the GABA_A antagonist bicuculline(0.1 mM, 90 nl) were attenuated by ExTr. These data indicatethat alterations in neurotransmission at the level of the NTScontribute importantly to regulation of HR and LSNA in ExTranimals. In addition to alterations at NTS, these experimentssuggest indirectly that changes in other cardiovascular nucleicontribute to the observed alterations in neural control ofthe circulation following ExTr.

microinjection; sympathetic nerve activity; nucleus tractus solitarius; treadmill

Address for reprint requests and other correspondence: P. J. Mueller, Dalton Cardiovascular Research Center, Dept. of Biomedical Sciences, 134 Research Park Dr., Columbia, MO 65211-3300 (e-mail: MuellerP{at}missouri.edu)

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