A microscopic view on the renal endothelial glycocalyx

Martijn J. C. Dane; Bernard M. van den Berg; Dae Hyun Lee; Margien G. S. Boels; Gesa L. Tiemeier; M. Cristina Avramut; Anton Jan van Zonneveld; Johan van der Vlag; Hans Vink; Ton J. Rabelink

doi:10.1152/ajprenal.00532.2014

A microscopic view on the renal endothelial glycocalyx

Martijn J. C. Dane, Bernard M. van den Berg, Dae Hyun Lee, Margien G. S. Boels, Gesa L. Tiemeier, M. Cristina Avramut, Anton Jan van Zonneveld, Johan van der Vlag, Hans Vink, Ton J. Rabelink^*

^*Corresponding author for this work

Fysiologie

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Endothelial cells perform key homeostatic functions such as regulating blood flow, permeability, and aiding immune surveillance for pathogens. While endothelial activation serves normal physiological adaptation, maladaptation of these endothelial functions has been identified as an important effector mechanism in the progression of renal disease as well as the associated development of cardiovascular disease. The primary interface between blood and the endothelium is the glycocalyx. This carbohydrate-rich gel-like structure with its associated proteins mediates most of the regulatory functions of the endothelium. Because the endothelial glycocalyx is a highly dynamic and fragile structure ex vivo, and traditional tissue processing for staining and perfusion-fixation usually results in a partial or complete loss of the glycocalyx, studying its dimensions and function has proven to be challenging. In this review, we will outline the core functions of the glycocalyx and focus on different techniques to study structure-function relationships in kidney and vasculature.

Original language	English
Pages (from-to)	F956-F966
Journal	American Journal of Physiology-Renal Physiology
Volume	308
Issue number	9
DOIs	https://doi.org/10.1152/ajprenal.00532.2014
Publication status	Published - 1 May 2015

Keywords

renal
endothelial glycocalyx
endothelial surface layer
imaging
glomerular endothelium

Access to Document

10.1152/ajprenal.00532.2014

Cite this

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title = "A microscopic view on the renal endothelial glycocalyx",

abstract = "Endothelial cells perform key homeostatic functions such as regulating blood flow, permeability, and aiding immune surveillance for pathogens. While endothelial activation serves normal physiological adaptation, maladaptation of these endothelial functions has been identified as an important effector mechanism in the progression of renal disease as well as the associated development of cardiovascular disease. The primary interface between blood and the endothelium is the glycocalyx. This carbohydrate-rich gel-like structure with its associated proteins mediates most of the regulatory functions of the endothelium. Because the endothelial glycocalyx is a highly dynamic and fragile structure ex vivo, and traditional tissue processing for staining and perfusion-fixation usually results in a partial or complete loss of the glycocalyx, studying its dimensions and function has proven to be challenging. In this review, we will outline the core functions of the glycocalyx and focus on different techniques to study structure-function relationships in kidney and vasculature.",

keywords = "renal, endothelial glycocalyx, endothelial surface layer, imaging, glomerular endothelium",

author = "Dane, {Martijn J. C.} and {van den Berg}, {Bernard M.} and Lee, {Dae Hyun} and Boels, {Margien G. S.} and Tiemeier, {Gesa L.} and Avramut, {M. Cristina} and {van Zonneveld}, {Anton Jan} and {van der Vlag}, Johan and Hans Vink and Rabelink, {Ton J.}",

year = "2015",

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doi = "10.1152/ajprenal.00532.2014",

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T1 - A microscopic view on the renal endothelial glycocalyx

AU - Dane, Martijn J. C.

AU - van den Berg, Bernard M.

AU - Lee, Dae Hyun

AU - Boels, Margien G. S.

AU - Tiemeier, Gesa L.

AU - Avramut, M. Cristina

AU - van Zonneveld, Anton Jan

AU - van der Vlag, Johan

AU - Vink, Hans

AU - Rabelink, Ton J.

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Endothelial cells perform key homeostatic functions such as regulating blood flow, permeability, and aiding immune surveillance for pathogens. While endothelial activation serves normal physiological adaptation, maladaptation of these endothelial functions has been identified as an important effector mechanism in the progression of renal disease as well as the associated development of cardiovascular disease. The primary interface between blood and the endothelium is the glycocalyx. This carbohydrate-rich gel-like structure with its associated proteins mediates most of the regulatory functions of the endothelium. Because the endothelial glycocalyx is a highly dynamic and fragile structure ex vivo, and traditional tissue processing for staining and perfusion-fixation usually results in a partial or complete loss of the glycocalyx, studying its dimensions and function has proven to be challenging. In this review, we will outline the core functions of the glycocalyx and focus on different techniques to study structure-function relationships in kidney and vasculature.

AB - Endothelial cells perform key homeostatic functions such as regulating blood flow, permeability, and aiding immune surveillance for pathogens. While endothelial activation serves normal physiological adaptation, maladaptation of these endothelial functions has been identified as an important effector mechanism in the progression of renal disease as well as the associated development of cardiovascular disease. The primary interface between blood and the endothelium is the glycocalyx. This carbohydrate-rich gel-like structure with its associated proteins mediates most of the regulatory functions of the endothelium. Because the endothelial glycocalyx is a highly dynamic and fragile structure ex vivo, and traditional tissue processing for staining and perfusion-fixation usually results in a partial or complete loss of the glycocalyx, studying its dimensions and function has proven to be challenging. In this review, we will outline the core functions of the glycocalyx and focus on different techniques to study structure-function relationships in kidney and vasculature.

KW - renal

KW - endothelial glycocalyx

KW - endothelial surface layer

KW - imaging

KW - glomerular endothelium

U2 - 10.1152/ajprenal.00532.2014

DO - 10.1152/ajprenal.00532.2014

M3 - Article

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VL - 308

SP - F956-F966

JO - American Journal of Physiology-Renal Physiology

JF - American Journal of Physiology-Renal Physiology

IS - 9

ER -