Activation of bradykinin-sensitive pericardial afferents increases systemic venous tone in conscious rats

Martin, Douglas; Vogel, Erin; Freeling, Jessica; Reihe, Casey

doi:10.1016/j.autneu.2019.102624

Cited by 3 publications

(9 citation statements)

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“…One possibility is that the dichotomous hemodynamic responses were dependent on the balance of afferent activation produced by pericardial BK injection. It is noteworthy that our approach, which mirrored that of McDermott ( McDermott et al, 1995 ) and our previous study ( Martin et al, 2020 ), used a pericardial catheter fixed in place along the lateral left ventricle to inject into the pericardial sac. Thus, the injectate was able to circulate within the pericardial sac and likely activated different types of cardiac afferents leading to overall activation of bradykinin-sensitive pericardial afferents.…”

Section: Discussionmentioning

confidence: 96%

“…This work in male rats using pressure-volume loop analysis indicated that localized epicardial BK application increased overall systemic flow, CO, by approximately 14% ( Wang et al, 2017 ). Since we reported previously that pericardial bradykinin injection increased venous tone ( Martin et al, 2020 ), we expected increased CO in response to pericardial bradykinin injection. In fact, we observed two distinct patterns of pericardial BK-induced hemodynamic responses.…”

Section: Discussionmentioning

confidence: 96%

“…Pinkham reported that estrogen modulates cardiac afferent mediated autonomic drive ( Pinkham and Barrett, 2015 ). We demonstrated that pericardial BK injection increased venous tone, an important CO control factor, in both male and female rats ( Martin et al, 2020 ) in a sexually dimorphic manner. Accordingly, we hypothesized that activation of pericardial bradykinin-sensitive afferents would produce a sexually dimorphic cardiac output response.…”

Section: Introductionmentioning

confidence: 83%

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Hemodynamic patterns associated with activation of bradykinin-sensitive pericardial afferents

Martin

Drummer

Freeling

et al. 2022

Current Research in Physiology

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The heart is endowed with reflexogenic areas capable of powerful blood pressure responses. Relatively little work has studied the hemodynamic mechanisms underlying these responses and whether these are sexually dimorphic. We hypothesized that activation of bradykinin-sensitive pericardial afferents would produce a sexually dimorphic cardiac output response. Male and female Sprague Dawley rats were anesthetized and instrumented with catheters for recording arterial pressure, with an aortic arch flow probe to record cardiac output and with a catheter in the pericardial sac. Mean arterial pressure ( MAP ), cardiac index ( CI ) and total peripheral resistance index ( TPRI ) responses to pericardial bradykinin injection (0.1, 1 μg/kg) were recorded. Pericardial bradykinin injection caused similar increases in MAP in male and female rats. However, the underlying hemodynamic patterns varied considerably. We identified a cluster of CI responders and TPRI responders in both male and female rats. Within CI responders, females exhibited greater CI increases than males. Conversely, in TPRI responders, males exhibited a greater TPRI increase than females. We conclude that aggregate activation of bradykinin-sensitive pericardial afferents is associated with a relatively uniform pressor response but different hemodynamic patterns with males exhibiting a more robust vascular response and females a more robust cardiac output response.

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Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 83%

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Hemodynamic patterns associated with activation of bradykinin-sensitive pericardial afferents

Martin

Drummer

Freeling

et al. 2022

Current Research in Physiology

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“…Veins play an important role in the control of cardiovascular function by regulating venous return, cardiac output, and, therefore, arterial blood pressure. Our previous work showed that pericardial injection of bradykinin increased MCFP, an index of venous tone(Martin et al, 2020). We also reported that disinhibition of the PVN increased venous tone(Martin et al, 2006).…”

Section: Discussionmentioning

confidence: 97%

Venoconstrictor responses to activation of bradykinin‐sensitive pericardial afferents involve the region of the hypothalamic paraventricular nucleus

Martin

Reihe

Drummer

et al. 2022

Physiological Reports

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Veins are important in the control of venous return, cardiac output, and cardiovascular homeostasis. However, the effector systems modulating venous function remain to be fully elucidated. We demonstrated that activation of bradykininsensitive pericardial afferents elicited systemic venoconstriction. The hypothalamic paraventricular nucleus (PVN) is an important site modulating autonomic outflow to the venous compartment. We tested the hypothesis that the PVN region is involved in the venoconstrictor response to pericardial injection of bradykinin. Rats were anesthetized with urethane/alpha chloralose and instrumented for recording arterial pressure, vena caval pressure, and mean circulatory filling pressure (MCFP), an index of venous tone. The rats were fitted with a pericardial catheter and PVN injector guide tubes. Mean arterial pressure (MAP), heart rate (HR), and MCFP responses to pericardial injection of bradykinin (1, 10 µg/kg) were recorded before and after PVN injection of omega conotoxin GVIA (200 ng/200 nl). Pericardial injection of saline produced no systematic effects on MAP, HR, or MCFP. In contrast, pericardial injection of bradykinin was associated with short latency increases in MAP (16 ± 4 to 18 ± 2 mm Hg) and MCFP 0.35 ± 0.19 to 1.01 ± 0.27 mm Hg. Heart rate responses to pericardial BK were highly variable, but HR was significantly increased (15 ± 9 bpm) at the higher BK dose. Conotoxin injection in the PVN region did not affect baseline values for these variables. However, injection of conotoxin into the area of the PVN largely attenuated the pressor (−1 ± 3 to 6 ± 3 mm Hg), MCFP (−0.19 ± 0.07 to 0.20 ± 0.18 mm Hg), and HR (4 ± 14 bpm) responses to pericardial bradykinin injection. We conclude that the PVN region is involved in the venoconstrictor responses to pericardial bradykinin injection.

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“…Institutionally supported core facilities performed comprehensive assessments of the impact of VTD on live animals. Both the Physiology Core Facility [ 50 – 53 ] and the Behavioral Core Facility [ 29 , 54 , 55 ] at the University of South Dakota have published in their respective specialties. Blood/tissues were collected, and subsequent bioanalysis was performed by collaborators at the Center for Human Toxicology at the University of Utah.…”

Section: Methodsmentioning

confidence: 99%

Pre-clinical safety and therapeutic efficacy of a plant-based alkaloid in a human colon cancer xenograft model

et al. 2022

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A high-throughput drug screen revealed that veratridine (VTD), a natural plant alkaloid, induces expression of the anti-cancer protein UBXN2A in colon cancer cells. UBXN2A suppresses mortalin, a heat shock protein, with dominant roles in cancer development including epithelial–mesenchymal transition (EMT), cancer cell stemness, drug resistance, and apoptosis. VTD-dependent expression of UBXN2A leads to the deactivation of mortalin in colon cancer cells, making VTD a potential targeted therapy in malignant tumors with high levels of mortalin. VTD was used clinically for the treatment of hypertension in decades past. However, the discovery of newer antihypertensive drugs and concerns over potential neuro- and cardiotoxicity ended the use of VTD for this purpose. The current study aims to determine the safety and efficacy of VTD at doses sufficient to induce UBXN2A expression in a mouse model. A set of flow-cytometry experiments confirmed that VTD induces both early and late apoptosis in a dose-dependent manner. In vivo intraperitoneal (IP) administration of VTD at 0.1 mg/kg every other day (QOD) for 4 weeks effectively induced expression of UBXN2A in the small and large intestines of mice. Liquid chromatography–tandem mass spectrometry (LC–MS/MS) assays on tissues collected from VTD-treated animals demonstrated VTD concentrations in the low pg/mg range. To address concerns regarding neuro- and cardiotoxicity, a comprehensive set of behavioral and cardiovascular assessments performed on C57BL/6NHsd mice revealed that VTD generates no detectable neurotoxicity or cardiotoxicity in animals receiving 0.1 mg/kg VTD QOD for 30 days. Finally, mouse xenograft experiments in athymic nude mice showed that VTD can suppress tumor growth. The main causes for the failure of experimental oncologic drug candidates are lack of sufficient safety and efficacy. The results achieved in this study support the potential utility of VTD as a safe and efficacious anti-cancer molecule.

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Activation of bradykinin-sensitive pericardial afferents increases systemic venous tone in conscious rats

Cited by 3 publications

References 61 publications

Hemodynamic patterns associated with activation of bradykinin-sensitive pericardial afferents

Hemodynamic patterns associated with activation of bradykinin-sensitive pericardial afferents

Venoconstrictor responses to activation of bradykinin‐sensitive pericardial afferents involve the region of the hypothalamic paraventricular nucleus

Pre-clinical safety and therapeutic efficacy of a plant-based alkaloid in a human colon cancer xenograft model

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