Serial block-face scanning electron microscopy reveals novel intercellular connections in human term placental microvasculature
Serial block-face scanning electron microscopy reveals novel intercellular connections in human term placental microvasculature
The placental microvasculature is a conduit for fetal blood allowing solute exchange between the mother and the fetus. Serial block-face scanning electron microscopy (SBF SEM) allows ultrastructure to be viewed in three dimensions and provides a new perspective on placental anatomy. This study used SBF SEM to study endothelial cells within the human placental microvasculature from uncomplicated pregnancies. Term human placental villi were aldehyde-fixed and processed for imaging by SBF SEM. Manual segmentation was carried out on a terminal villous capillary and an intermediate villous arteriole and venule. Twenty-seven SBF SEM stacks from terminal villi were analysed using stereological approaches to determine the volumes of microvascular components and the proportions of pericyte coverage. SBF SEM analysis of capillary endothelial cells revealed the presence of interendothelial protrusions (IEPs) originating from the donor cell at the endothelial junction and forming deep thin projections up to 7 μm into the adjacent endothelial cells. IEP density was estimated to be in the order of 35 million cm-3 placental tissue. Pericytes cover 15% of the fetal capillary surface area in terminal villi. In comparison, the cytotrophoblast covered 24% of the syncytiotrophoblast basal membrane. A trans-endothelial channel was observed in a region of the vasculo-syncytial capillary. Pericyte coverage was extensive in both arteriole and venule. Three-dimensional imaging of the placental microvasculature identified novel ultrastructural features and provided an insight into factors that may influence capillary permeability and placental function. We hypothesise that the IEPs may allow mechanosensing between adjacent endothelial cells to assist in the maintenance of vessel integrity. The numbers of endothelial junctions, the presence of trans-endothelial channels and the extent of pericyte coverage all provide an insight into the factors determining capillary permeability.
endothelial junction, filopodia, microvasculature, placenta, villi
241-249
Palaiologou, Eleni
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Goggin, Patricia
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Chatelet, David S
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Ribeiro de Souza, Rodolfo
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Chiu, Wendy
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Ashley, Brogan
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Lofthouse, Emma M
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Sengers, Bram G
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Torrens, Christopher
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Page, Anton M
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Cleal, Jane K
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Lewis, Rohan M
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1 August 2020
Palaiologou, Eleni
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Goggin, Patricia
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Chatelet, David S
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Ribeiro de Souza, Rodolfo
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Chiu, Wendy
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Ashley, Brogan
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Lofthouse, Emma M
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Sengers, Bram G
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Torrens, Christopher
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Page, Anton M
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Cleal, Jane K
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Lewis, Rohan M
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Palaiologou, Eleni, Goggin, Patricia, Chatelet, David S, Ribeiro de Souza, Rodolfo, Chiu, Wendy, Ashley, Brogan, Lofthouse, Emma M, Sengers, Bram G, Torrens, Christopher, Page, Anton M, Cleal, Jane K and Lewis, Rohan M
(2020)
Serial block-face scanning electron microscopy reveals novel intercellular connections in human term placental microvasculature.
Journal of Anatomy, 237 (2), .
(doi:10.1111/joa.13191).
Abstract
The placental microvasculature is a conduit for fetal blood allowing solute exchange between the mother and the fetus. Serial block-face scanning electron microscopy (SBF SEM) allows ultrastructure to be viewed in three dimensions and provides a new perspective on placental anatomy. This study used SBF SEM to study endothelial cells within the human placental microvasculature from uncomplicated pregnancies. Term human placental villi were aldehyde-fixed and processed for imaging by SBF SEM. Manual segmentation was carried out on a terminal villous capillary and an intermediate villous arteriole and venule. Twenty-seven SBF SEM stacks from terminal villi were analysed using stereological approaches to determine the volumes of microvascular components and the proportions of pericyte coverage. SBF SEM analysis of capillary endothelial cells revealed the presence of interendothelial protrusions (IEPs) originating from the donor cell at the endothelial junction and forming deep thin projections up to 7 μm into the adjacent endothelial cells. IEP density was estimated to be in the order of 35 million cm-3 placental tissue. Pericytes cover 15% of the fetal capillary surface area in terminal villi. In comparison, the cytotrophoblast covered 24% of the syncytiotrophoblast basal membrane. A trans-endothelial channel was observed in a region of the vasculo-syncytial capillary. Pericyte coverage was extensive in both arteriole and venule. Three-dimensional imaging of the placental microvasculature identified novel ultrastructural features and provided an insight into factors that may influence capillary permeability and placental function. We hypothesise that the IEPs may allow mechanosensing between adjacent endothelial cells to assist in the maintenance of vessel integrity. The numbers of endothelial junctions, the presence of trans-endothelial channels and the extent of pericyte coverage all provide an insight into the factors determining capillary permeability.
Text
joa.13191
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More information
Accepted/In Press date: 3 March 2020
e-pub ahead of print date: 5 March 2020
Published date: 1 August 2020
Additional Information:
Funding Information:
E.P. is funded by a Gerald Kerkut Charitable Trust studentship and a University of Southampton Vice Chancellor's Studentship. Equipment in the Biomedical Imaging Unit was supported by MR/L012626/1 Southampton Imaging under MRC UKRMP Funding. The authors have no conflicts of interest.
Publisher Copyright:
© 2020 The Authors. Journal of Anatomy published by John Wiley & Sons Ltd on behalf of Anatomical Society
Keywords:
endothelial junction, filopodia, microvasculature, placenta, villi
Identifiers
Local EPrints ID: 439381
URI: http://eprints.soton.ac.uk/id/eprint/439381
ISSN: 0021-8782
PURE UUID: 61178712-587f-4da8-9823-bae614abb15a
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Date deposited: 21 Apr 2020 16:30
Last modified: 17 Mar 2024 03:06
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Contributors
Author:
Eleni Palaiologou
Author:
Patricia Goggin
Author:
David S Chatelet
Author:
Rodolfo Ribeiro de Souza
Author:
Wendy Chiu
Author:
Brogan Ashley
Author:
Emma M Lofthouse
Author:
Christopher Torrens
Author:
Anton M Page
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