Endothelial dysfunction in cerebral aneurysms

Dallas L. Sheinberg, David J. Mccarthy, Omar Elwardany, Jean Paul Bryant, Evan Luther, Stephanie H. Chen, John W. Thompson, Robert M. Starke

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Endothelial cell (EC) dysfunction is known to contribute to cerebral aneurysm (CA) pathogenesis. Evidence shows that damage or injury to the EC layer is the first event in CA formation. The mechanisms behind EC dysfunction in CA disease are interrelated and include hemodynamic stress, hazardous nitric oxide synthase (NOS) activity, oxidative stress, estrogen imbalance, and endothelial cell-to-cell junction compromise. Abnormal variations in hemodynamic stress incite pathological EC transformation and inflammatory zone formation, ultimately leading to destruction of the vascular wall and aneurysm dilation. Hemodynamic stress activates key molecular pathways that result in the upregulation of chemotactic cytokines and adhesion molecules, leading to inflammatory cell recruitment and infiltration. Concurrently, oxidative stress damages EC-to-EC junction proteins, resulting in interendothelial gap formation. This further promotes leukocyte traffic into the vessel wall and the release of matrix metalloproteinases, which propagates vascular remodeling and breakdown. Abnormal hemodynamic stress and inflammation also trigger adverse changes in NOS activity, altering proper EC mediation of vascular tone and the local inflammatory environment. Additionally, the vasoprotective hormone estrogen modulates gene expression that often suppresses these harmful processes. Crosstalk between these sophisticated pathways contributes to CA initiation, progression, and rupture. This review aims to outline the complex mechanisms of EC dysfunction in CA pathogenesis.

Original languageEnglish (US)
Article number9221
JournalNeurosurgical focus
Volume47
Issue number1
DOIs
StatePublished - Jul 2019

Keywords

  • Cerebral aneurysm
  • Endothelial cell dysfunction
  • Hemodynamic stress
  • Inflammation
  • NOS
  • Reactive oxygen species

ASJC Scopus subject areas

  • Surgery
  • Clinical Neurology

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