Endothelium refers to cells that line the interior surface of blood vessels and lymphatic vessels, forming an interface between circulating blood or lymph in the lumen and the rest of the vessel wall. It is a thin layer of simple squamous cells called endothelial cells. Endothelial cells in direct contact with blood are called vascular endothelial cells, whereas those in direct contact with lymph are known as lymphatic endothelial cells.
Diagram showing the location of endothelial cells
Vascular endothelial cells line the entire circulatory system, from the heart to the smallest capillaries. These cells have unique functions in vascular biology. These functions include fluid filtration, such as in the glomerulus of the kidney, blood vessel tone, hemostasis, neutrophil recruitment, and hormone trafficking. Endothelium of the interior surfaces of the heart chambers is called endocardium.
Endothelium is mesodermal in origin. Both blood and lymphatic capillaries are composed of a single layer of endothelial cells called a monolayer. In straight sections of a blood vessel, vascular endothelial cells typically align and elongate in the direction of fluid flow.
The foundational model of anatomy makes a distinction between endothelial cells and epithelial cells on the basis of which tissues they develop from, and states that the presence of vimentin rather than keratin filaments separate these from epithelial cells. Many considered the endothelium a specialized epithelial tissue.
Endothelial cells are involved in many aspects of vascular biology, including:
- Barrier function - the endothelium acts as a semi-selective barrier between the vessel lumen and surrounding tissue, controlling the passage of materials and the transit of white blood cells into and out of the bloodstream. Excessive or prolonged increases in permeability of the endothelial monolayer, as in cases of chronic inflammation, may lead to tissue edema/swelling.
- Blood clotting (thrombosis & fibrinolysis). The endothelium normally provides a non-thrombogenic surface because it contains, for example, heparan sulfate which acts as a cofactor for activating antithrombin, a protease that inactivates several factors in the coagulation cascade.
- Formation of new blood vessels (angiogenesis)
- Vasoconstriction and vasodilation, and hence the control of blood pressure
- Repair of damaged or diseased organs via an injection of blood vessel cells
- Angiopoietin-2 works with VEGF to facilitate cell proliferation and migration of endothelial cells
Endothelial dysfunction, or the loss of proper endothelial function, is a hallmark for vascular diseases, and is often regarded as a key early event in the development of atherosclerosis. Impaired endothelial function, causing hypertension and thrombosis, is often seen in patients with coronary artery disease, diabetes mellitus, hypertension, hypercholesterolemia, as well as in smokers. Endothelial dysfunction has also been shown to be predictive of future adverse cardiovascular events, and is also present in inflammatory disease such as rheumatoid arthritis and systemic lupus erythematosus. One of the main mechanisms of endothelial dysfunction is the diminishing of nitric oxide, often due to high levels of asymmetric dimethylarginine, which interfere with the normal L-arginine-stimulated nitric oxide synthesis and so leads to hypertension. The most prevailing mechanism of endothelial dysfunction is an increase in reactive oxygen species, which can impair nitric oxide production and activity via several mechanisms. The signalling protein ERK5 is essential for maintaining normal endothelial cell function. A further consequence of damage to the endothelium is the release of pathological quantities of von Willebrand factor, which promote platelet aggregation and adhesion to the subendothelium, and thus the formation of potentially fatal thrombi.
- Cellular dewetting
- Endothelial activation
- Endothelial microparticle
- Endothelial progenitor cell
- Endothelium-derived relaxing factor (EDRF)
- Robert F. Furchgott (1998 Nobel prize for discovery of EDRF)
- Platelet activation
- Susac's syndrome
- Tunica intima
- Weibel–Palade body
- Angiocrine growth factors
- "Endothelium" at Dorland's Medical Dictionary
- Eskin, S.G.; Ives, C.L.; McIntire, L.V.; Navarro, L.T. "Response of cultured endothelial cells to steady flow". Microvascular Research. 28 (1): 87–94. doi:10.1016/0026-2862(84)90031-1.
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- "FMA". Archived from the original on 2013-10-02. Retrieved 2013-09-28.
- Kovacic, Jason; Mercader, Nadia; Torres, Miguel; Boehm, Manfred; Fuster, Valentin (2012). "Cardiovascular Development to Disease Epithelial-to-Mesenchymal and Endothelial-to-Mesenchymal Transition: From Cardiovascular Development to Disease". Circulation. 125: 1795–1808. doi:10.1161/circulationaha.111.040352. Retrieved 8 November 2014.
- Li X, Fang P, et al. (April 2016). "Mitochondrial Reactive Oxygen Species Mediate Lysophosphatidylcholine-Induced Endothelial Cell Activation". Arteriosclerosis, Thrombosis, and Vascular Biology. 36: 1090–100. doi:10.1161/ATVBAHA.115.306964. PMC . PMID 27127201.
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- Anatomy photo: Circulatory/vessels/capillaries1/capillaries3 - Comparative Organology at University of California, Davis, "Capillaries, non-fenestrated (EM, Low)"
- Histology image: 21402ooa – Histology Learning System at Boston University
- Endothelium Journal of Endothelial Cell Research, Informa Healthcare
- Endothelium and inflammation
- Platelet Activation, University of Washington