Pregnancy and the endocrine regulation of the baroreceptor reflex

Brooks, Virginia L.; Dampney, R.A.L.; Heesch, Cheryl M.

doi:10.1152/ajpregu.00059.2010

Cited by 48 publications

(58 citation statements)

References 191 publications

(276 reference statements)

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“…First, ANG II is increased during pregnancy (3,30). Second, ANG II contributes to the increased basal levels of sympathetic activity in pregnant animals (24), indicating that angiotensin influences neural control of the circulation.…”

Section: Discussionmentioning

confidence: 99%

“…Pregnancy impairs baroreflex function by reducing baroreflex gain (BRG) and the maximum levels of sympathetic activity and HR achieved during acute severe hypotension (3). Yet, indirect evidence suggests that any PVN GABAergic suppressive influence on baroreflex function is lessened, thus counteracting the more primary inhibitory effect of pregnancy.…”

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“…Yet, indirect evidence suggests that any PVN GABAergic suppressive influence on baroreflex function is lessened, thus counteracting the more primary inhibitory effect of pregnancy. First, pregnancy activates the renin-angiotensin system (3,30), which has been shown to decrease PVN GABAergic inhibition of sympathetic activity and heart rate (17,19,20). Second, a recent study by Kvochina et al (16) demonstrated that the increases in renal sympathetic nerve activity, HR, and arterial pressure following blockade of PVN GABA A receptors were less in anesthetized rats studied near term compared with nonpregnant animals.…”

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GABA in the paraventricular nucleus tonically suppresses baroreflex function: alterations during pregnancy

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Cassaglia

Brooks

2011

American Journal of Physiology-Regulatory, Integrative and Comp

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It is well established that GABAergic inputs to the paraventricular nucleus of the hypothalamus (PVN) tonically suppress heart rate and the activity of several sympathetic nerves. However, whether GABA similarly inhibits PVN control of baroreflex function has not been previously investigated. To test this hypothesis, it was determined whether microinjection of the GABA A antagonist, bicuculline, into the PVN enhances the baroreflex in anesthetized female virgin rats. In addition, because GABAergic inhibition of PVN preautonomic neurons is decreased during pregnancy, it was also determined whether the effects of PVN bicuculline administration on baroreflex function were less in pregnant animals. In virgin rats, PVN microinjection of bicuculline increased (P Ͻ 0.05) baroreflex gain and maximum levels of heart rate (gain, from 1.6 Ϯ 0.6 to 3.8 Ϯ 1.3 bpm/mmHg; maximum, from 406 Ϯ 18 to 475 Ϯ 14 bpm) and of lumbar sympathetic nerve activity (gain from 2.6 Ϯ 0.7 to 4.8 Ϯ 1.6%/ mmHg; maximum, 149 Ϯ 32 to 273 Ϯ 48%), indicating that PVN GABA normally suppresses baroreflex function. Pregnancy decreased heart rate baroreflex gain (pregnant, 0.9 Ϯ 0.3 bpm/mmHg; virgin, 1.9 Ϯ 0.2 bpm/mmHg; P Ͻ 0.05). Following PVN bicuculline administration in pregnant rats, smaller (P Ͻ 0.01) increments in baroreflex gain (pregnant, 0.6 Ϯ 0.1 bpm/mmHg; virgin, 2.4 Ϯ 0.9 bpm/mmHg) and maximum (pregnant, 33 Ϯ 7 bpm; virgin, 75 Ϯ 12 bpm; P Ͻ 0.05) were produced. Collectively, these data suggest that the PVN normally inhibits the baroreflex via tonic GABAergic inputs and that this inhibition is less during pregnancy. heart rate; baroreceptor reflex; lumbar sympathetic nervous system; ␥-aminobutyric acid THE PARAVENTRICULAR NUCLEUS (PVN) of the hypothalamus integrates multiple forebrain and brain stem inputs to regulate the autonomic nervous system via outputs that ultimately converge with focal brain stem nuclei, such as the rostral ventrolateral medulla, as well as preganglionic sympathetic neurons in the spinal cord (7,27,29,32). While the contribution of the PVN and its connections to basal sympathetic tone at rest in normal animals is minimal, it appears to drive increased sympathetic activity in such pathophysiological states as hypertension, heart failure, and water deprivation (7,27). Moreover, the PVN mediates, in part, autonomic responses to diverse homeostatic challenges, such as changes in food intake, blood volume, stress, and body temperature (29). However, whether and how the PVN can also influence the regulation of the baroreceptor reflex is currently unclear.Of the PVN neurotransmitters and neuromodulators that effect these many functions, the tonically active inhibitory GABAergic inputs to preautonomic neurons are dominant (10, 28). Indeed, local pharmacological blockade of PVN GABA A receptors elicits profound increases in arterial pressure, heart rate (HR), and sympathetic activity and excites neurons that project to the brain stem or spinal cord (15,18,20,22). Therefore, one aim of the present study was to test the hypothes...

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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GABA in the paraventricular nucleus tonically suppresses baroreflex function: alterations during pregnancy

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Cassaglia

Brooks

2011

American Journal of Physiology-Regulatory, Integrative and Comp

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“…Z-Stack images (every 2 m) at a magnification of ϫ20 were obtained for brain regions of interest (ROIs): four rostral-caudal levels of the PVN, defined as levels [1][2][3][4], that contain the majority of AVP and spinally projecting cells (approximately Ϫ1.4 to Ϫ2.0 mm caudal to bregma) (1,61); the SON on either of the lateral edges of the optic tract (approximately Ϫ0.8 to 1.88 mm caudal to bregma); and the SFO (midline, approximately Ϫ0.8 to Ϫ1.4 mm caudal to bregma) (43). An Olympus BX51 with a disk-scanning unit (spinning disk), equipped with a three-axis motorized stage (Ludl Electronic Products, Hawthorne, NY), was used.…”

Section: Ihc Image Analysismentioning

confidence: 99%

“…In pregnant (P) rats, the operating pressure range for arterial baroreflex control of sympathetic nerve activity (SNA) shifts toward the lower baseline arterial pressure (AP) of pregnancy, and baroreflex-mediated sympathoexcitation is attenuated (31), likely due to increased baroreflex-independent GABAergic inhibition of the rostral ventrolateral medulla (RVLM) in the brain stem (27). These adaptations are consistent with increased orthostatic hypotension in P women and greater sensitivity to the hypotensive effects of hemorrhage in pregnancy (3). However, even though the RVLM is under greater GABAergic inhibition, baseline SNA is elevated in conscious P rats (31) and women (17,20).…”

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Relaxin increases sympathetic nerve activity and activates spinally projecting neurons in the paraventricular nucleus of nonpregnant, but not pregnant, rats

Coldren

Brown

Hasser

et al. 2015

American Journal of Physiology-Regulatory, Integrative and Comp

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Coldren KM, Brown R, Hasser EM, Heesch CM. Relaxin increases sympathetic nerve activity and activates spinally projecting neurons in the paraventricular nucleus of nonpregnant, but not pregnant, rats. Am J Physiol Regul Integr Comp Physiol 309: R1553-R1568, 2015. First published September 23, 2015; doi:10.1152/ajpregu.00186.2015.-Pregnancy is characterized by increased blood volume and baseline sympathetic nerve activity (SNA), vasodilation, and tachycardia. Relaxin (RLX), an ovarian hormone elevated in pregnancy, activates forebrain sites involved in control of blood volume and SNA through ANG II-dependent mechanisms and contributes to adaptations during pregnancy. In anesthetized, arterial baroreceptordenervated nonpregnant (NP) rats, RLX microinjected into the subfornical organ (SFO; 0.77 pmol in 50 nl) produced sustained increases in lumbar SNA (8 Ϯ 3%) and mean arterial pressure (MAP; 26 Ϯ 4 mmHg). Low-dose intracarotid artery infusion of RLX (155 pmol·ml Ϫ1 ·h Ϫ1 ; 1.5 h) had minor transient effects on AP and activated neurons [increased Fos-immunoreactivity (IR)] in the SFO and in spinally projecting (19 Ϯ 2%) and arginine-vasopressin (AVP)-IR (21 Ϯ 5%) cells in the paraventricular nucleus of the hypothalamus of NP, but not pregnant (P), rats. However, mRNA for RLX and ANG II type 1a receptors in the SFO was preserved in pregnancy. RLX receptor-IR is present in the region of the SFO in NP and P rats and is localized in astrocytes, the major source of angiotensinogen in the SFO. These data provide an anatomical substrate for a role of RLX in the resetting of AVP secretion and increased baseline SNA in pregnancy. Since RLX and ANG II receptor expression was preserved in the SFO of P rats, we speculate that the lack of response to exogenous RLX may be due to maximal activation by elevated endogenous levels of RLX in near-term pregnancy.Fos; paraventricular nucleus; subfornical organ; circumventricular organs; ANG II; arginine-vasopressin WITH ITS HIGHEST CIRCULATING levels achieved during pregnancy, relaxin (RLX) is a 6-kDa peptide hormone secreted primarily by the corpus luteum of the ovary. RLX-2 in humans is functionally equivalent to RLX-1 in all other mammals, and often both are called simply "relaxin" (2, 4, 21). Although best known for its role in growth and remodeling of the female reproductive tract during pregnancy, RLX peptide and RLX binding sites are present in male reproductive tissue and the heart, vasculature, kidney, and brain of both males and females. In regards to the cardiovascular system, in both male and female humans and rats, chronic administration of RLX causes vascular remodeling, angiogenesis, and systemic vasodilation (8). Endogenous RLX is a major contributor to peripheral vasodilation and augmented renal function seen in pregnancy, and recent clinical trials suggest that exogenously administered RLX may have therapeutic value in treating heart-failure patients (2,8,14).In addition to peripheral vascular effects, circulating RLX plays an important role in the central nervous sys...

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Endocrine‐Autonomic Linkages

Sladek

Michelini

Stachenfeld

et al. 2015

Comprehensive Physiology

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Interaction between the autonomic nervous system and the neuroendocrine system is critical for maintenance of homeostasis in a wide variety of physiological parameters such as body temperature, fluid and electrolyte balance, and blood pressure and volume. The anatomical and physiological mechanisms underlying integration of the neuroendocrine and autonomic mechanisms responsible for eliciting integrated autonomic and neuroendocrine actions are the focus of this article. This includes a focus on the hypothalamic paraventricular nucleus, because it includes both neuroendocrine neurons and preganglionic autonomic neurons that regulate sympathetic and parasympathetic outflow. The "wired" and "nonwired" mechanisms within PVN that facilitate communication between these neuronal populations are described. The impact of peripheral hormones, specifically the adrenal and gonadal steroids, on the neuroendocrine and autonomic systems is discussed, and exercise is used as a specific example of a physiological challenge/stress that requires precise integration of neuroendocrine and autonomic responses to maintain cardiovascular, fluid, and energy homeostasis.

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Pregnancy and the endocrine regulation of the baroreceptor reflex

Cited by 48 publications

References 191 publications

GABA in the paraventricular nucleus tonically suppresses baroreflex function: alterations during pregnancy

GABA in the paraventricular nucleus tonically suppresses baroreflex function: alterations during pregnancy

Relaxin increases sympathetic nerve activity and activates spinally projecting neurons in the paraventricular nucleus of nonpregnant, but not pregnant, rats

Endocrine‐Autonomic Linkages

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