Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination

The major epidermal integrins are α3β1 and hemidesmosome-specific α6β4; both share laminin 5 as ligand. Keratinocyte culture studies implicate both integrins in adhesion, proliferation, and stem cell maintenance and suggest unique roles for αβ1 integrins in migration and terminal differentiation. In...

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Autores principales: Raghavan, Srikala, Bauer, Christoph, Mundschau, Gina, Li, Qingqin, Fuchs, Elaine
Formato: Texto
Lenguaje:English
Publicado: The Rockefeller University Press 2000
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Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2175239/
https://www.ncbi.nlm.nih.gov/pubmed/10974002
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author Raghavan, Srikala
Bauer, Christoph
Mundschau, Gina
Li, Qingqin
Fuchs, Elaine
author_facet Raghavan, Srikala
Bauer, Christoph
Mundschau, Gina
Li, Qingqin
Fuchs, Elaine
author_sort Raghavan, Srikala
collection PubMed
description The major epidermal integrins are α3β1 and hemidesmosome-specific α6β4; both share laminin 5 as ligand. Keratinocyte culture studies implicate both integrins in adhesion, proliferation, and stem cell maintenance and suggest unique roles for αβ1 integrins in migration and terminal differentiation. In mice, however, whereas ablation of α6 or β4 results in loss of hemidesmosomes, epidermal polarity, and basement membrane (BM) attachment, ablation of α3 only generates microblistering due to localized internal shearing of BM. Using conditional knockout technology to ablate β1 in skin epithelium, we have uncovered biological roles for αβ1 integrins not predicted from either the α3 knockout or from in vitro studies. In contrast to α3 null mice, β1 mutant mice exhibit severe skin blistering and hair defects, accompanied by massive failure of BM assembly/organization, hemidesmosome instability, and a failure of hair follicle keratinocytes to remodel BM and invaginate into the dermis. Although epidermal proliferation is impaired, a spatial and temporal program of terminal differentiation is executed. These results indicate that β1's minor partners in skin are important, and together, αβ1 integrins are required not only for extracellular matrix assembly but also for BM formation. This, in turn, is required for hemidesmosome stability, epidermal proliferation, and hair follicle morphogenesis. However, β1 downregulation does not provide the trigger to terminally differentiate.
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spelling pubmed-21752392008-05-01 Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination Raghavan, Srikala Bauer, Christoph Mundschau, Gina Li, Qingqin Fuchs, Elaine J Cell Biol Original Article The major epidermal integrins are α3β1 and hemidesmosome-specific α6β4; both share laminin 5 as ligand. Keratinocyte culture studies implicate both integrins in adhesion, proliferation, and stem cell maintenance and suggest unique roles for αβ1 integrins in migration and terminal differentiation. In mice, however, whereas ablation of α6 or β4 results in loss of hemidesmosomes, epidermal polarity, and basement membrane (BM) attachment, ablation of α3 only generates microblistering due to localized internal shearing of BM. Using conditional knockout technology to ablate β1 in skin epithelium, we have uncovered biological roles for αβ1 integrins not predicted from either the α3 knockout or from in vitro studies. In contrast to α3 null mice, β1 mutant mice exhibit severe skin blistering and hair defects, accompanied by massive failure of BM assembly/organization, hemidesmosome instability, and a failure of hair follicle keratinocytes to remodel BM and invaginate into the dermis. Although epidermal proliferation is impaired, a spatial and temporal program of terminal differentiation is executed. These results indicate that β1's minor partners in skin are important, and together, αβ1 integrins are required not only for extracellular matrix assembly but also for BM formation. This, in turn, is required for hemidesmosome stability, epidermal proliferation, and hair follicle morphogenesis. However, β1 downregulation does not provide the trigger to terminally differentiate. The Rockefeller University Press 2000-09-04 /pmc/articles/PMC2175239/ /pubmed/10974002 Text en © 2000 The Rockefeller University Press This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/4.0/).
spellingShingle Original Article
Raghavan, Srikala
Bauer, Christoph
Mundschau, Gina
Li, Qingqin
Fuchs, Elaine
Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title_full Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title_fullStr Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title_full_unstemmed Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title_short Conditional Ablation of β1 Integrin in Skin: Severe Defects in Epidermal Proliferation, Basement Membrane Formation, and Hair Follicle Invagination
title_sort conditional ablation of β1 integrin in skin: severe defects in epidermal proliferation, basement membrane formation, and hair follicle invagination
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2175239/
https://www.ncbi.nlm.nih.gov/pubmed/10974002
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