Molecular determinants of microvascular dysfunction in hypertensive pregnancy and preeclampsia

doi:10.1111/micc.12508

. 2018 Oct 19:e12508.

doi: 10.1111/micc.12508. Online ahead of print.

Molecular determinants of microvascular dysfunction in hypertensive pregnancy and preeclampsia

Wentao Yu¹, Wei Gao¹, Dan Rong¹, Zhixian Wu¹, Raouf A Khalil¹

Affiliations

Affiliation

¹ Vascular Surgery Research Laboratories, Division of Vascular and Endovascular Surgery, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts.

PMID: 30338879
PMCID: PMC6474836
DOI: 10.1111/micc.12508

Molecular determinants of microvascular dysfunction in hypertensive pregnancy and preeclampsia

Wentao Yu et al. Microcirculation. 2018.

. 2018 Oct 19:e12508.

doi: 10.1111/micc.12508. Online ahead of print.

Authors

Wentao Yu¹, Wei Gao¹, Dan Rong¹, Zhixian Wu¹, Raouf A Khalil¹

Affiliation

¹ Vascular Surgery Research Laboratories, Division of Vascular and Endovascular Surgery, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts.

PMID: 30338879
PMCID: PMC6474836
DOI: 10.1111/micc.12508

Abstract

Preeclampsia is a pregnancy-related disorder characterized by hypertension and often fetal intrauterine growth restriction, but the underlying mechanisms are unclear. Defective placentation and apoptosis of invasive cytotrophoblasts cause inadequate remodeling of spiral arteries, placental ischemia, and reduced uterine perfusion pressure (RUPP). RUPP causes imbalance between the anti-angiogenic factors soluble fms-like tyrosine kinase-1 and soluble endoglin and the pro-angiogenic vascular endothelial growth factor and placental growth factor, and stimulates the release of proinflammatory cytokines, hypoxia-inducible factor, reactive oxygen species, and angiotensin AT₁ receptor agonistic autoantibodies. These circulating factors target the vascular endothelium, smooth muscle and various components of the extracellular matrix. Generalized endotheliosis in systemic, renal, cerebral, and hepatic vessels causes decreases in endothelium-derived vasodilators such as nitric oxide, prostacyclin and hyperpolarization factor, and increases in vasoconstrictors such as endothelin-1 and thromboxane A2. Enhanced mechanisms of vascular smooth muscle contraction, such as intracellular Ca²⁺ , protein kinase C, and Rho-kinase cause further increases in vasoconstriction. Changes in matrix metalloproteinases and extracellular matrix cause inadequate vascular remodeling and increased arterial stiffening, leading to further increases in vascular resistance and hypertension. Therapeutic options are currently limited, but understanding the molecular determinants of microvascular dysfunction could help in the design of new approaches for the prediction and management of preeclampsia.

Keywords: endothelium; extracellular matrix; microvessels; placental ischemia; vascular smooth muscle.

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Figures

**Fig. 1.**
Mechanisms of microvascular dysfunction in HTN-Preg. Initial reduction of uteroplacental perfusion pressure (RUPP) and uteroplacental ischemia causes the release of bioactive and circulating factors, which target blood vessels leading to decreased endothelium-dependent vascular relaxation pathways, increased endothelin-1 (ET-1) and mechanisms of VSM contraction, and abnormalities in MMPs expression/activity and increased collagen deposition in extracellular matrix (ECM), resulting in increased vascular resistance and HTN-Preg. AT₁-AA, AngII AT₁R agonistic autoantibodies; EDHF, endothelium-derived hyperpolarizing factor; HIF, hypoxia-inducible factor; HO, hemeoxygenase, IL-6, interleukin-6; NO, nitric oxide; PKC, protein kinase C; PlGF, placental growth factor; ROS, reactive oxygen species; sEng, soluble endoglin; sFlt-1, soluble fms-like tyrosine kinase-1; TNFα, tumor necrosis factor-α; VEGF, vascular endothelial growth factor; VSM, vascular smooth muscle

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References

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[1] Ouzounian JG, Elkayam U. Physiologic changes during normal pregnancy and delivery. Cardiol Clin. 2012;30(3):317–329. - PubMed

[2] Ouzounian JG, Elkayam U. Physiologic changes during normal pregnancy and delivery. Cardiol Clin. 2012;30(3):317–329. - PubMed

[3] Poston L, McCarthy AL, Ritter JM. Control of vascular resistance in the maternal and feto-placental arterial beds. Pharmacology & therapeutics. 1995;65(2):215–239. - PubMed

[4] Poston L, McCarthy AL, Ritter JM. Control of vascular resistance in the maternal and feto-placental arterial beds. Pharmacology & therapeutics. 1995;65(2):215–239. - PubMed

[5] Thornburg KL, Jacobson SL, Giraud GD, Morton MJ. Hemodynamic changes in pregnancy. Seminars in perinatology. 2000;24(1):11–14. - PubMed

[6] Thornburg KL, Jacobson SL, Giraud GD, Morton MJ. Hemodynamic changes in pregnancy. Seminars in perinatology. 2000;24(1):11–14. - PubMed

[7] Valdes G, Kaufmann P, Corthorn J, Erices R, Brosnihan KB, Joyner-Grantham J. Vasodilator factors in the systemic and local adaptations to pregnancy. Reproductive biology and endocrinology : RB&E. 2009;7:79. - PMC - PubMed

[8] Valdes G, Kaufmann P, Corthorn J, Erices R, Brosnihan KB, Joyner-Grantham J. Vasodilator factors in the systemic and local adaptations to pregnancy. Reproductive biology and endocrinology : RB&E. 2009;7:79. - PMC - PubMed

[9] Ali SM, Khalil RA. Genetic, immune and vasoactive factors in the vascular dysfunction associated with hypertension in pregnancy. Expert opinion on therapeutic targets. 2015;19(11):1495–1515. - PMC - PubMed

[10] Ali SM, Khalil RA. Genetic, immune and vasoactive factors in the vascular dysfunction associated with hypertension in pregnancy. Expert opinion on therapeutic targets. 2015;19(11):1495–1515. - PMC - PubMed

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Molecular determinants of microvascular dysfunction in hypertensive pregnancy and preeclampsia

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Molecular determinants of microvascular dysfunction in hypertensive pregnancy and preeclampsia

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