Plastin 1 binds to keratin and is required for terminal web assembly in the intestinal epithelium
Plastin 1 binds to keratin and is required for terminal web assembly in the intestinal epithelium
Plastin 1 (I-plastin, fimbrin) along with villin and espin is a prominent actin-bundling protein of the intestinal brush border microvilli. We demonstrate here that plastin 1 accumulates in the terminal web and interacts with keratin 19, possibly contributing to anchoring the rootlets to the keratin network. This prompted us to investigate the importance of plastin 1 in brush border assembly. Although in vivo neither villin nor espin is required for brush border structure, plastin 1-deficient mice have conspicuous ultrastructural alterations: microvilli are shorter and constricted at their base, and, strikingly, their core actin bundles lack true rootlets. The composition of the microvilli themselves is apparently normal, whereas that of the terminal web is profoundly altered. Although the plastin 1 knockout mice do not show any overt gross phenotype and present a normal intestinal microanatomy, the alterations result in increased fragility of the epithelium. This is seen as an increased sensitivity of the brush border to biochemical manipulations, decreased transepithelial resistance, and increased sensitivity to dextran sodium sulfate-induced colitis. Plastin 1 thus emerges as an important regulator of brush border morphology and stability through a novel role in the organization of the terminal web, possibly by connecting actin filaments to the underlying intermediate filament network.
2549
Grimm-Gunter, E.-M. S.
f84fd71e-3978-4026-a967-6e9483b75664
Revenu, C.
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Ramos, S.
706a2f71-2627-420a-9e28-f0ca6efda3b1
Hurbain, I.
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Smyth, N.
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Ferrary, E.
5f040366-2b08-4172-b4f3-67aa97ed0700
Louvard, D.
29d57e72-53a8-40cb-9aea-aac72f8c6153
Robine, S.
21882055-ef4b-4346-b837-ef8661e86e9d
Rivero, F.
efcdd5cb-e6cb-44ba-b683-5e02343c27c5
2009
Grimm-Gunter, E.-M. S.
f84fd71e-3978-4026-a967-6e9483b75664
Revenu, C.
7c2d0362-6484-492f-8c2a-aec9fdb3e317
Ramos, S.
706a2f71-2627-420a-9e28-f0ca6efda3b1
Hurbain, I.
d88ce848-bbac-4e2f-9e9f-ab475cd75ab6
Smyth, N.
0eba2a40-3b43-4d40-bb64-621bd7e9d505
Ferrary, E.
5f040366-2b08-4172-b4f3-67aa97ed0700
Louvard, D.
29d57e72-53a8-40cb-9aea-aac72f8c6153
Robine, S.
21882055-ef4b-4346-b837-ef8661e86e9d
Rivero, F.
efcdd5cb-e6cb-44ba-b683-5e02343c27c5
Grimm-Gunter, E.-M. S., Revenu, C., Ramos, S., Hurbain, I., Smyth, N., Ferrary, E., Louvard, D., Robine, S. and Rivero, F.
(2009)
Plastin 1 binds to keratin and is required for terminal web assembly in the intestinal epithelium.
Molecular Biology of the Cell, 20 (10), .
(doi:10.1091/mbc.E08-10-1030).
Abstract
Plastin 1 (I-plastin, fimbrin) along with villin and espin is a prominent actin-bundling protein of the intestinal brush border microvilli. We demonstrate here that plastin 1 accumulates in the terminal web and interacts with keratin 19, possibly contributing to anchoring the rootlets to the keratin network. This prompted us to investigate the importance of plastin 1 in brush border assembly. Although in vivo neither villin nor espin is required for brush border structure, plastin 1-deficient mice have conspicuous ultrastructural alterations: microvilli are shorter and constricted at their base, and, strikingly, their core actin bundles lack true rootlets. The composition of the microvilli themselves is apparently normal, whereas that of the terminal web is profoundly altered. Although the plastin 1 knockout mice do not show any overt gross phenotype and present a normal intestinal microanatomy, the alterations result in increased fragility of the epithelium. This is seen as an increased sensitivity of the brush border to biochemical manipulations, decreased transepithelial resistance, and increased sensitivity to dextran sodium sulfate-induced colitis. Plastin 1 thus emerges as an important regulator of brush border morphology and stability through a novel role in the organization of the terminal web, possibly by connecting actin filaments to the underlying intermediate filament network.
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Published date: 2009
Organisations:
Biological Sciences
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Local EPrints ID: 157203
URI: http://eprints.soton.ac.uk/id/eprint/157203
ISSN: 1059-1524
PURE UUID: 8d260182-3cf6-497f-94ee-86cbbd2d484e
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Date deposited: 03 Jun 2010 13:40
Last modified: 14 Mar 2024 01:46
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Author:
E.-M. S. Grimm-Gunter
Author:
C. Revenu
Author:
S. Ramos
Author:
I. Hurbain
Author:
E. Ferrary
Author:
D. Louvard
Author:
S. Robine
Author:
F. Rivero
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