Cargando…

Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair

Transforming growth factor (TGF) β has diverse and sometimes paradoxical effects on cell proliferation and differentiation, presumably reflecting a fundamental but incompletely-understood role in regulating tissue homeostasis. It is generally considered that downstream activity is modulated at the l...

Descripción completa

Detalles Bibliográficos
Autores principales: Fleming, Jonathan M., Shabir, Saqib, Varley, Claire L., Kirkwood, Lisa A., White, Angela, Holder, Julie, Trejdosiewicz, Ludwik K., Southgate, Jennifer
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3526617/
https://www.ncbi.nlm.nih.gov/pubmed/23284691
http://dx.doi.org/10.1371/journal.pone.0051404
_version_ 1782253601656143872
author Fleming, Jonathan M.
Shabir, Saqib
Varley, Claire L.
Kirkwood, Lisa A.
White, Angela
Holder, Julie
Trejdosiewicz, Ludwik K.
Southgate, Jennifer
author_facet Fleming, Jonathan M.
Shabir, Saqib
Varley, Claire L.
Kirkwood, Lisa A.
White, Angela
Holder, Julie
Trejdosiewicz, Ludwik K.
Southgate, Jennifer
author_sort Fleming, Jonathan M.
collection PubMed
description Transforming growth factor (TGF) β has diverse and sometimes paradoxical effects on cell proliferation and differentiation, presumably reflecting a fundamental but incompletely-understood role in regulating tissue homeostasis. It is generally considered that downstream activity is modulated at the ligand:receptor axis, but microarray analysis of proliferative versus differentiating normal human bladder epithelial cell cultures identified unexpected transcriptional changes in key components of the canonical TGFβ R/activin signalling pathway associated with cytodifferentiation. Changes included upregulation of the transcriptional modulator SMAD3 and downregulation of inhibitory modulators SMURF2 and SMAD7. Functional analysis of the signalling pathway revealed that non-differentiated normal human urothelial cells responded in paracrine mode to TGFβ by growth inhibition, and that exogenous TGFβ inhibited rather than promoted differentiation. By contrast, in differentiated cell cultures, SMAD3 was activated upon scratch-wounding and was involved in promoting tissue repair. Exogenous TGFβ enhanced the repair and resulted in hyperplastic scarring, indicating a feedback loop implicit in an autocrine pathway. Thus, the machinery for autocrine activation of the SMAD3-mediated TGFβR pathway is established during urothelial differentiation, but signalling occurs only in response to a trigger, such as wounding. Our study demonstrates that the circuitry of the TGFβR pathway is defined transcriptionally within a tissue-specific differentiation programme. The findings provide evidence for re-evaluating the role of TGFβR signalling in epithelial homeostasis as an autocrine-regulated pathway that suppresses differentiation and promotes tissue repair. This provides a new paradigm to help unravel the apparently diverse and paradoxical effect of TGFβ signalling on cell proliferation and differentiation.
format Online
Article
Text
id pubmed-3526617
institution National Center for Biotechnology Information
language English
publishDate 2012
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-35266172013-01-02 Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair Fleming, Jonathan M. Shabir, Saqib Varley, Claire L. Kirkwood, Lisa A. White, Angela Holder, Julie Trejdosiewicz, Ludwik K. Southgate, Jennifer PLoS One Research Article Transforming growth factor (TGF) β has diverse and sometimes paradoxical effects on cell proliferation and differentiation, presumably reflecting a fundamental but incompletely-understood role in regulating tissue homeostasis. It is generally considered that downstream activity is modulated at the ligand:receptor axis, but microarray analysis of proliferative versus differentiating normal human bladder epithelial cell cultures identified unexpected transcriptional changes in key components of the canonical TGFβ R/activin signalling pathway associated with cytodifferentiation. Changes included upregulation of the transcriptional modulator SMAD3 and downregulation of inhibitory modulators SMURF2 and SMAD7. Functional analysis of the signalling pathway revealed that non-differentiated normal human urothelial cells responded in paracrine mode to TGFβ by growth inhibition, and that exogenous TGFβ inhibited rather than promoted differentiation. By contrast, in differentiated cell cultures, SMAD3 was activated upon scratch-wounding and was involved in promoting tissue repair. Exogenous TGFβ enhanced the repair and resulted in hyperplastic scarring, indicating a feedback loop implicit in an autocrine pathway. Thus, the machinery for autocrine activation of the SMAD3-mediated TGFβR pathway is established during urothelial differentiation, but signalling occurs only in response to a trigger, such as wounding. Our study demonstrates that the circuitry of the TGFβR pathway is defined transcriptionally within a tissue-specific differentiation programme. The findings provide evidence for re-evaluating the role of TGFβR signalling in epithelial homeostasis as an autocrine-regulated pathway that suppresses differentiation and promotes tissue repair. This provides a new paradigm to help unravel the apparently diverse and paradoxical effect of TGFβ signalling on cell proliferation and differentiation. Public Library of Science 2012-12-19 /pmc/articles/PMC3526617/ /pubmed/23284691 http://dx.doi.org/10.1371/journal.pone.0051404 Text en © 2012 Fleming et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Fleming, Jonathan M.
Shabir, Saqib
Varley, Claire L.
Kirkwood, Lisa A.
White, Angela
Holder, Julie
Trejdosiewicz, Ludwik K.
Southgate, Jennifer
Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title_full Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title_fullStr Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title_full_unstemmed Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title_short Differentiation-Associated Reprogramming of the Transforming Growth Factor β Receptor Pathway Establishes the Circuitry for Epithelial Autocrine/Paracrine Repair
title_sort differentiation-associated reprogramming of the transforming growth factor β receptor pathway establishes the circuitry for epithelial autocrine/paracrine repair
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3526617/
https://www.ncbi.nlm.nih.gov/pubmed/23284691
http://dx.doi.org/10.1371/journal.pone.0051404
work_keys_str_mv AT flemingjonathanm differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT shabirsaqib differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT varleyclairel differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT kirkwoodlisaa differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT whiteangela differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT holderjulie differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT trejdosiewiczludwikk differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair
AT southgatejennifer differentiationassociatedreprogrammingofthetransforminggrowthfactorbreceptorpathwayestablishesthecircuitryforepithelialautocrineparacrinerepair