Structural Versus Functional Modulation of the Arterial Baroreflex

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Hypertension. 1995;26:341-347

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(Hypertension. 1995;26:341-347.)
© 1995 American Heart Association, Inc.

Articles

Structural Versus Functional Modulation of the Arterial Baroreflex

Mark W. Chapleau; J. Thomas Cunningham; Margaret J. Sullivan; Ruth E. Wachtel; François M. Abboud

From the Departments of Internal Medicine and Physiology and Biophysics, Cardiovascular Center, University of Iowa College of Medicine, and Department of Veterans Affairs Medical Center, Iowa City.

Correspondence to F.M. Abboud, MD, Department of Internal Medicine, University of Iowa College of Medicine, Iowa City, IA 52242. E-mail francois-abboud@uiowa.edu.

Abstract Structural changes in large arteries are often consideredthe predominant mechanism responsible for decreased baroreflexsensitivity and baroreceptor resetting in hypertension, atherosclerosis,and aging. Recent work has demonstrated that "functional" mechanisms,both at the level of the peripheral sensory endings and withinthe central nervous system, contribute significantly to alteredbaroreflex responses. We have conducted both reductive studiesof mechanoelectrical transduction in cultured baroreceptor neuronsand integrative studies with in vivo recordings of the activityof baroreceptor afferent fibers and efferent sympathetic nerves.Results suggest that the primary mechanism of mechanical activationof baroreceptor neurons involves opening of stretch-activatedion channels susceptible to blockade by gadolinium. Baroreceptornerve activity is modulated by the activity of potassium channelsand the sodium-potassium pump and by paracrine factors, includingprostacyclin, oxygen free radicals, and factors released fromaggregating platelets. Endothelial dysfunction and altered releaseof these paracrine factors contribute significantly to the decreasedbaroreceptor sensitivity in hypertension and atherosclerosis.The central mediation of the baroreflex depends on the pulsephasic pattern of afferent baroreceptor discharge. Baroreflex-mediatedinhibition of sympathetic nerve activity is well maintainedduring pulse phasic afferent activity. Continuous, nonphasicbaroreceptor discharge or a rapid (>1.5 Hz) pulse phasic dischargeresults in disinhibition of sympathetic activity. This disinhibitionduring continuous baroreceptor input is exaggerated with aging.Thus, a defect in central mediation of the baroreflex may bea major cause of the impaired baroreflex and sympathoexcitationin the elderly. In summary, functional neural mechanisms, inaddition to structural vascular changes, contribute importantlyto altered baroreflex responses in normal and pathophysiologicalstates. Therefore, it may be possible to implement therapiesthat reverse functional changes and restore baroreflex sensitivitylong before the reversal of structural vascular changes.

Key Words: baroreflex • carotid sinus • ion channels • sympathetic nerve activity • endothelium • aging • hypertension • atherosclerosis

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