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Clinical Trial Details — Status: Terminated

Administrative data

NCT number NCT03371823
Other study ID # 1009297
Secondary ID
Status Terminated
Phase Phase 4
First received
Last updated
Start date September 1, 2017
Est. completion date December 31, 2019

Study information

Verified date January 2022
Source University of Delaware
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study is to investigate the role of ET-1 in mediating vasoconstrictor tone in hypertensive postmenopausal women (PMW) alone and in combination with a commonly prescribed Angiotensin II (ANG II) antagonist. The long term goal is to understand the mechanisms contributing to hypertension (HTN) in PMW. This study is the first step in reaching our goal.


Description:

Cardiovascular disease (CVD) is the leading cause of death in women, and mortality from CVD is higher in PMW compared to age-matched men. PMW are at a greater risk for developing HTN, a major risk factor for CVD. They are also more likely to have uncontrolled or resistant HTN despite medication. ANG II is a common therapeutic target for the treatment HTN. ANG II blockade is highly effective in normalizing blood pressure (BP) in hypertensive male rats, but does not reduce BP to the same degree in hypertensive post menopausal female rats. Endothelin-1 (ET-1) receptor antagonists reduce BP in hypertensive postmenopausal female rats, but have no effect on males. Thus the mechanisms contributing to HTN in female rats and likely women, particularly after menopause, are complex, multifactorial and not completely understood. After menopause, the vasoconstrictor effects of both ANG II and ET-1 are amplified in animal models. As such, these two predominant pathways may contribute to the high incidence of HTN in PMW. ET-1 is a potent vasoconstrictor produced and released by endothelial cells that binds to two receptor subtypes, ET-A and ET-B. While both receptors are located on vascular smooth muscle (VSM) and mediate vasoconstriction, ET-B receptors are also located on the endothelium and mediate vasodilation via nitric oxide. Importantly, the production of ET-1 and expression of ET-A and B receptors can be modulated by hormones such as estradiol and ANG II. Estradiol attenuates ET-1 production, and reduces ET-1 mediated vasoconstriction via an ET-B receptor mechanism in vitro. Thus, decline in estradiol after menopause may enhance vasoconstrictor tone via ET-1 and lead to HTN. ET-1 also potentiates the vasoconstrictor effects of ANG II since the vasoconstrictor and hypertensive effects of ANG II are ameliorated by ET-1 receptor blockade. Additionally, ANG II stimulates the synthesis of ET-1 and upregulates ET-A and ET-B receptor expression on VSM. The ANG II receptor antagonist Losartan reduces ET-A and ET-B receptor expression and attenuates the constrictor effects of ET-1 in a diabetic rat model. Therefore, ET-1 is an important independent factor contributing to HTN in PMW, but therapeutic agents targeting both ANG II and ET-1 may have greater efficacy given their interactions. The investigators propose a comprehensive assessment of vascular function by measuring blood flow responses in the cutaneous circulation during perfusion of ET-1 receptor antagonists via microdialysis, combined with measures of intracellular protein and receptor expression of endothelial cells and skin punch biopsies collected from normotensive and hypertensive PMW. Investigators central hypothesis is that hypertensive PMW have greater ET-1 mediated vasoconstrictor tone due to increased ET-1 expression, down-regulation of ET-B receptors on endothelial cells and up-regulation of both ET-A and ET-B receptors on VSM leading to increased vasoconstriction and HTN. Investigators further hypothesize that ANG II exacerbates the increase in ET-1, and ET-A and ET-B receptor expression contributing to exaggerated constriction with HTN in PMW.


Recruitment information / eligibility

Status Terminated
Enrollment 8
Est. completion date December 31, 2019
Est. primary completion date December 31, 2019
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Female
Age group 50 Years to 70 Years
Eligibility Inclusion Criteria: - Women. - > 1year post menopausal. - Age range 50-70 years - Resting ECG in normal limits - Standard blood chemistry within normal limits - Systolic blood pressure: <130mm Hg for normotensives; >130mm Hg for hypertensives. - Diastolic blood pressure: < 80mm Hg for normotensives; > 80mm Hg for hypertensives. Exclusion Criteria: - History of cardiovascular disease - Blood clots or stroke - Cancer - Diabetes - Kidney or Liver disease - Obesity (BMI>35kg/m2) - Pregnant/Breast feeding - Current use of hormone therapy - Current use of tobacco products - High cholesterol - Current use of anti-hypertensive meds

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Normotensive
FMD is a measure of endothelial function by assessing the degree to which vessel dilates in response to increased flow. Pulse Wave Analysis and Pulse Wave Velocity assesses arterial stiffness and wave reflection in all women. Laser Doppler flowmetry is used in combination with cutaneous microdialysis as a minimally invasive technique to examine mechanisms of vascular function. ET-B and ET-A receptor antagonists will be perfused via intradermal microdialysis fibers while measuring cutaneous blood flow. ET-1 production and ET-B receptor expression in endothelial cells collected from an antecubital vein will also be assessed. Immunohistochemistry will be performed on skin punch biopsy samples to assess for protein expression of ET-A and ET-B receptors.
Drug:
Hypertensives
ANG II increases the synthesis of ET-1 and alters ET-A/B receptor expression, thus affecting ET-1 bioavailability. Losartan is an ANG II receptor antagonist which attenuates ET-1 production. Losartan 50 mg daily is administered for 14 days to hypertensive women. FMD is used to measure endothelial function. Pulse Wave Analysis and Pulse Wave Velocity assesses arterial stiffness and wave reflection. Laser Doppler flowmetry with cutaneous microdialysis is used to examine vascular function when ET-A and ET-B receptor antagonists is perfused via intradermal microdialysis fibers. ET-1 production and ET-B receptor expression in endothelial cells collected from an antecubital vein will be assessed. Skin punch biopsy samples will be used to assess for protein expression of ET-A and ET-B receptors.

Locations

Country Name City State
United States University of Delaware Newark Delaware

Sponsors (2)

Lead Sponsor Collaborator
University of Delaware National Institutes of Health (NIH)

Country where clinical trial is conducted

United States, 

References & Publications (25)

Ballew JR, Fink GD. Role of ET(A) receptors in experimental ANG II-induced hypertension in rats. Am J Physiol Regul Integr Comp Physiol. 2001 Jul;281(1):R150-4. — View Citation

Barton M, Meyer MR. Postmenopausal hypertension: mechanisms and therapy. Hypertension. 2009 Jul;54(1):11-8. doi: 10.1161/HYPERTENSIONAHA.108.120022. Epub 2009 May 26. Review. — View Citation

Barton M, Shaw S, d'Uscio LV, Moreau P, Lüscher TF. Angiotensin II increases vascular and renal endothelin-1 and functional endothelin converting enzyme activity in vivo: role of ETA receptors for endothelin regulation. Biochem Biophys Res Commun. 1997 Sep 29;238(3):861-5. — View Citation

Dimitrijevic I, Edvinsson ML, Chen Q, Malmsjö M, Kimblad PO, Edvinsson L. Increased expression of vascular endothelin type B and angiotensin type 1 receptors in patients with ischemic heart disease. BMC Cardiovasc Disord. 2009 Aug 25;9:40. doi: 10.1186/1471-2261-9-40. — View Citation

Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, Bravata DM, Dai S, Ford ES, Fox CS, Franco S, Fullerton HJ, Gillespie C, Hailpern SM, Heit JA, Howard VJ, Huffman MD, Kissela BM, Kittner SJ, Lackland DT, Lichtman JH, Lisabeth LD, Magid D, Marcus GM, Marelli A, Matchar DB, McGuire DK, Mohler ER, Moy CS, Mussolino ME, Nichol G, Paynter NP, Schreiner PJ, Sorlie PD, Stein J, Turan TN, Virani SS, Wong ND, Woo D, Turner MB; American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Executive summary: heart disease and stroke statistics--2013 update: a report from the American Heart Association. Circulation. 2013 Jan 1;127(1):143-52. doi: 10.1161/CIR.0b013e318282ab8f. Review. — View Citation

Gössl M, Mitchell A, Lerman A, Opazo Saez A, Schäfers RF, Erbel R, Philipp T, Wenzel RR. Endothelin-B-receptor-selective antagonist inhibits endothelin-1 induced potentiation on the vasoconstriction to noradrenaline and angiotensin II. J Hypertens. 2004 Oct;22(10):1909-16. — View Citation

Haynes WG. Endothelins as regulators of vascular tone in man. Clin Sci (Lond). 1995 May;88(5):509-17. Review. — View Citation

Hong HJ, Chan P, Liu JC, Juan SH, Huang MT, Lin JG, Cheng TH. Angiotensin II induces endothelin-1 gene expression via extracellular signal-regulated kinase pathway in rat aortic smooth muscle cells. Cardiovasc Res. 2004 Jan 1;61(1):159-68. — View Citation

Ishikawa K, Ihara M, Noguchi K, Mase T, Mino N, Saeki T, Fukuroda T, Fukami T, Ozaki S, Nagase T, et al. Biochemical and pharmacological profile of a potent and selective endothelin B-receptor antagonist, BQ-788. Proc Natl Acad Sci U S A. 1994 May 24;91(11):4892-6. — View Citation

Juan SH, Chen JJ, Chen CH, Lin H, Cheng CF, Liu JC, Hsieh MH, Chen YL, Chao HH, Chen TH, Chan P, Cheng TH. 17beta-estradiol inhibits cyclic strain-induced endothelin-1 gene expression within vascular endothelial cells. Am J Physiol Heart Circ Physiol. 2004 Sep;287(3):H1254-61. Epub 2004 May 6. — View Citation

Kanno K, Hirata Y, Tsujino M, Imai T, Shichiri M, Ito H, Marumo F. Up-regulation of ETB receptor subtype mRNA by angiotensin II in rat cardiomyocytes. Biochem Biophys Res Commun. 1993 Aug 16;194(3):1282-7. — View Citation

Kim JK, Alley D, Seeman T, Karlamangla A, Crimmins E. Recent changes in cardiovascular risk factors among women and men. J Womens Health (Larchmt). 2006 Jul-Aug;15(6):734-46. — View Citation

Kobayashi T, Nogami T, Taguchi K, Matsumoto T, Kamata K. Diabetic state, high plasma insulin and angiotensin II combine to augment endothelin-1-induced vasoconstriction via ETA receptors and ERK. Br J Pharmacol. 2008 Dec;155(7):974-83. doi: 10.1038/bjp.2008.327. Epub 2008 Aug 18. — View Citation

Kohno M, Horio T, Ikeda M, Yokokawa K, Fukui T, Yasunari K, Kurihara N, Takeda T. Angiotensin II stimulates endothelin-1 secretion in cultured rat mesangial cells. Kidney Int. 1992 Oct;42(4):860-6. — View Citation

Lima R, Yanes LL, Davis DD, Reckelhoff JF. Roles played by 20-HETE, angiotensin II and endothelin in mediating the hypertension in aging female spontaneously hypertensive rats. Am J Physiol Regul Integr Comp Physiol. 2013 Feb;304(3):R248-51. doi: 10.1152/ajpregu.00380.2012. Epub 2012 Dec 5. — View Citation

Moreau P, d'Uscio LV, Shaw S, Takase H, Barton M, Lüscher TF. Angiotensin II increases tissue endothelin and induces vascular hypertrophy: reversal by ET(A)-receptor antagonist. Circulation. 1997 Sep 2;96(5):1593-7. — View Citation

Pedersen SH, Nielsen LB, Mortensen A, Nilas L, Ottesen B. Progestins oppose the effects of estradiol on the endothelin-1 receptor type B in coronary arteries from ovariectomized hyperlipidemic rabbits. Menopause. 2008 May-Jun;15(3):503-10. doi: 10.1097/gme.0b013e318156f803. — View Citation

Reckelhoff JF. Gender differences in the regulation of blood pressure. Hypertension. 2001 May;37(5):1199-208. Review. — View Citation

Wenner MM, Sebzda KN, Kuczmarski AV, Pohlig RT, Edwards DG. ET(B) receptor contribution to vascular dysfunction in postmenopausal women. Am J Physiol Regul Integr Comp Physiol. 2017 Jul 1;313(1):R51-R57. doi: 10.1152/ajpregu.00410.2016. Epub 2017 Apr 24. — View Citation

Wenzel RR, Rüthemann J, Bruck H, Schäfers RF, Michel MC, Philipp T. Endothelin-A receptor antagonist inhibits angiotensin II and noradrenaline in man. Br J Clin Pharmacol. 2001 Aug;52(2):151-7. — View Citation

Yanagisawa M, Kurihara H, Kimura S, Tomobe Y, Kobayashi M, Mitsui Y, Yazaki Y, Goto K, Masaki T. A novel potent vasoconstrictor peptide produced by vascular endothelial cells. Nature. 1988 Mar 31;332(6163):411-5. — View Citation

Yanes LL, Reckelhoff JF. Postmenopausal hypertension. Am J Hypertens. 2011 Jul;24(7):740-9. doi: 10.1038/ajh.2011.71. Epub 2011 Apr 21. Review. — View Citation

Yanes LL, Romero DG, Cucchiarelli VE, Fortepiani LA, Gomez-Sanchez CE, Santacruz F, Reckelhoff JF. Role of endothelin in mediating postmenopausal hypertension in a rat model. Am J Physiol Regul Integr Comp Physiol. 2005 Jan;288(1):R229-33. Epub 2004 Aug 19. — View Citation

Yanes LL, Romero DG, Iles JW, Iliescu R, Gomez-Sanchez C, Reckelhoff JF. Sexual dimorphism in the renin-angiotensin system in aging spontaneously hypertensive rats. Am J Physiol Regul Integr Comp Physiol. 2006 Aug;291(2):R383-90. Epub 2006 Mar 30. — View Citation

Yanes LL, Romero DG, Iliescu R, Zhang H, Davis D, Reckelhoff JF. Postmenopausal hypertension: role of the Renin-Angiotensin system. Hypertension. 2010 Sep;56(3):359-63. doi: 10.1161/HYPERTENSIONAHA.110.152975. Epub 2010 Aug 2. — View Citation

* Note: There are 25 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary ET-1 Mediated Constriction Cutaneous blood flow is measured via laser Doppler flowmetry during cutaneous microdialysis perfusions of ET-A and ET-B receptor antagonists as previously described by Wenner MM in 2017(see reference list). Each participant was assessed at baseline and 2 weeks later.
Secondary Endothelin Receptor A and B Expression ET-A and ET-B receptors will be examined using immunocytochemistry from 3mm skin punch biopsy in women pre/post losartan administration. This Secondary aim was not complete due to difficulty with enrollment (no data collected in these groups). Baseline and 2 weeks later
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