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Resolution of the three dimensional structure of components of the glomerular filtration barrier

BACKGROUND: The human glomerulus is the primary filtration unit of the kidney, and contains the Glomerular Filtration Barrier (GFB). The GFB had been thought to comprise 3 layers – the endothelium, the basement membrane and the podocyte foot processes. However, recent studies have suggested that at...

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Autores principales: Arkill, Kenton P, Qvortrup, Klaus, Starborg, Tobias, Mantell, Judith M, Knupp, Carlo, Michel, C Charles, Harper, Steve J, Salmon, Andy HJ, Squire, John M, Bates, Dave O, Neal, Chris R
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3922634/
https://www.ncbi.nlm.nih.gov/pubmed/24484633
http://dx.doi.org/10.1186/1471-2369-15-24
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author Arkill, Kenton P
Qvortrup, Klaus
Starborg, Tobias
Mantell, Judith M
Knupp, Carlo
Michel, C Charles
Harper, Steve J
Salmon, Andy HJ
Squire, John M
Bates, Dave O
Neal, Chris R
author_facet Arkill, Kenton P
Qvortrup, Klaus
Starborg, Tobias
Mantell, Judith M
Knupp, Carlo
Michel, C Charles
Harper, Steve J
Salmon, Andy HJ
Squire, John M
Bates, Dave O
Neal, Chris R
author_sort Arkill, Kenton P
collection PubMed
description BACKGROUND: The human glomerulus is the primary filtration unit of the kidney, and contains the Glomerular Filtration Barrier (GFB). The GFB had been thought to comprise 3 layers – the endothelium, the basement membrane and the podocyte foot processes. However, recent studies have suggested that at least two additional layers contribute to the function of the GFB, the endothelial glycocalyx on the vascular side, and the sub-podocyte space on the urinary side. To investigate the structure of these additional layers is difficult as it requires three-dimensional reconstruction of delicate sub-microscopic (<1 μm) cellular and extracellular elements. METHODS: Here we have combined three different advanced electron microscopic techniques that cover multiple orders of magnitude of volume sampled, with a novel staining methodology (Lanthanum Dysprosium Glycosaminoglycan adhesion, or LaDy GAGa), to determine the structural basis of these two additional layers. Serial Block Face Scanning Electron Microscopy (SBF-SEM) was used to generate a 3-D image stack with a volume of a 5.3 x 10(5) μm(3) volume of a whole kidney glomerulus (13% of glomerular volume). Secondly, Focused Ion Beam milling Scanning Electron Microscopy (FIB-SEM) was used to image a filtration region (48 μm(3) volume). Lastly Transmission Electron Tomography (Tom-TEM) was performed on a 0.3 μm(3) volume to identify the fine structure of the glycocalyx. RESULTS: Tom-TEM clearly showed 20 nm fibre spacing in the glycocalyx, within a limited field of view. FIB-SEM demonstrated, in a far greater field of view, how the glycocalyx structure related to fenestrations and the filtration slits, though without the resolution of TomTEM. SBF-SEM was able to determine the extent of the sub-podocyte space and glycocalyx coverage, without additional heavy metal staining. Neither SBF- nor FIB-SEM suffered the anisotropic shrinkage under the electron beam that is seen with Tom-TEM. CONCLUSIONS: These images demonstrate that the three dimensional structure of the GFB can be imaged, and investigated from the whole glomerulus to the fine structure of the glycocalyx using three dimensional electron microscopy techniques. This should allow the identification of structural features regulating physiology, and their disruption in pathological states, aiding the understanding of kidney disease.
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spelling pubmed-39226342014-02-13 Resolution of the three dimensional structure of components of the glomerular filtration barrier Arkill, Kenton P Qvortrup, Klaus Starborg, Tobias Mantell, Judith M Knupp, Carlo Michel, C Charles Harper, Steve J Salmon, Andy HJ Squire, John M Bates, Dave O Neal, Chris R BMC Nephrol Research Article BACKGROUND: The human glomerulus is the primary filtration unit of the kidney, and contains the Glomerular Filtration Barrier (GFB). The GFB had been thought to comprise 3 layers – the endothelium, the basement membrane and the podocyte foot processes. However, recent studies have suggested that at least two additional layers contribute to the function of the GFB, the endothelial glycocalyx on the vascular side, and the sub-podocyte space on the urinary side. To investigate the structure of these additional layers is difficult as it requires three-dimensional reconstruction of delicate sub-microscopic (<1 μm) cellular and extracellular elements. METHODS: Here we have combined three different advanced electron microscopic techniques that cover multiple orders of magnitude of volume sampled, with a novel staining methodology (Lanthanum Dysprosium Glycosaminoglycan adhesion, or LaDy GAGa), to determine the structural basis of these two additional layers. Serial Block Face Scanning Electron Microscopy (SBF-SEM) was used to generate a 3-D image stack with a volume of a 5.3 x 10(5) μm(3) volume of a whole kidney glomerulus (13% of glomerular volume). Secondly, Focused Ion Beam milling Scanning Electron Microscopy (FIB-SEM) was used to image a filtration region (48 μm(3) volume). Lastly Transmission Electron Tomography (Tom-TEM) was performed on a 0.3 μm(3) volume to identify the fine structure of the glycocalyx. RESULTS: Tom-TEM clearly showed 20 nm fibre spacing in the glycocalyx, within a limited field of view. FIB-SEM demonstrated, in a far greater field of view, how the glycocalyx structure related to fenestrations and the filtration slits, though without the resolution of TomTEM. SBF-SEM was able to determine the extent of the sub-podocyte space and glycocalyx coverage, without additional heavy metal staining. Neither SBF- nor FIB-SEM suffered the anisotropic shrinkage under the electron beam that is seen with Tom-TEM. CONCLUSIONS: These images demonstrate that the three dimensional structure of the GFB can be imaged, and investigated from the whole glomerulus to the fine structure of the glycocalyx using three dimensional electron microscopy techniques. This should allow the identification of structural features regulating physiology, and their disruption in pathological states, aiding the understanding of kidney disease. BioMed Central 2014-02-01 /pmc/articles/PMC3922634/ /pubmed/24484633 http://dx.doi.org/10.1186/1471-2369-15-24 Text en Copyright © 2014 Arkill et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Arkill, Kenton P
Qvortrup, Klaus
Starborg, Tobias
Mantell, Judith M
Knupp, Carlo
Michel, C Charles
Harper, Steve J
Salmon, Andy HJ
Squire, John M
Bates, Dave O
Neal, Chris R
Resolution of the three dimensional structure of components of the glomerular filtration barrier
title Resolution of the three dimensional structure of components of the glomerular filtration barrier
title_full Resolution of the three dimensional structure of components of the glomerular filtration barrier
title_fullStr Resolution of the three dimensional structure of components of the glomerular filtration barrier
title_full_unstemmed Resolution of the three dimensional structure of components of the glomerular filtration barrier
title_short Resolution of the three dimensional structure of components of the glomerular filtration barrier
title_sort resolution of the three dimensional structure of components of the glomerular filtration barrier
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3922634/
https://www.ncbi.nlm.nih.gov/pubmed/24484633
http://dx.doi.org/10.1186/1471-2369-15-24
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