Reversal of β cell de-differentiation by a small molecule inhibitor of the TGFβ pathway

Barak Blum; Adam N. Roose; Ornella Barrandon; René Maehr; Anthony C. Arvanites; Lance S. Davidow; Jeffrey C. Davis; Quinn P. Peterson; Lee L. Rubin; Douglas A. Melton

doi:10.7554/eLife.02809

Reversal of β cell de-differentiation by a small molecule inhibitor of the TGFβ pathway

Barak Blum, Adam N. Roose, Ornella Barrandon, René Maehr, Anthony C. Arvanites, Lance S. Davidow, Jeffrey C. Davis, Quinn P. Peterson, Lee L. Rubin, Douglas A. Melton

Physiology & Biomedical Engineering

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

Dysfunction or death of pancreatic β cells underlies both types of diabetes. This functional decline begins with β cell stress and de-differentiation. Current drugs for type 2 diabetes (T2D) lower blood glucose levels but they do not directly alleviate β cell stress nor prevent, let alone reverse, β cell de-differentiation. We show here that Urocortin 3 (Ucn3), a marker for mature β cells, is down-regulated in the early stages of T2D in mice and when β cells are stressed in vitro. Using an insulin expression-coupled lineage tracer, with Ucn3 as a reporter for the mature β cell state, we screen for factors that reverse β cell de-differentiation. We find that a small molecule inhibitor of TGFβ receptor I (Alk5) protects cells from the loss of key β cell transcription factors and restores a mature β cell identity even after exposure to prolonged and severe diabetes.

Original language	English (US)
Article number	e02809
Pages (from-to)	e02809
Journal	eLife
Volume	3
DOIs	https://doi.org/10.7554/eLife.02809
State	Published - 2014

Keywords

Alk5 inhibitor II
Tgf-beta
Ucn3
beta cells
cell biology
dedifferentiation
developmental biology
diabetes
human
mouse
stem cells

ASJC Scopus subject areas

General Immunology and Microbiology
General Biochemistry, Genetics and Molecular Biology
General Neuroscience

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10.7554/eLife.02809

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title = "Reversal of β cell de-differentiation by a small molecule inhibitor of the TGFβ pathway",

abstract = "Dysfunction or death of pancreatic β cells underlies both types of diabetes. This functional decline begins with β cell stress and de-differentiation. Current drugs for type 2 diabetes (T2D) lower blood glucose levels but they do not directly alleviate β cell stress nor prevent, let alone reverse, β cell de-differentiation. We show here that Urocortin 3 (Ucn3), a marker for mature β cells, is down-regulated in the early stages of T2D in mice and when β cells are stressed in vitro. Using an insulin expression-coupled lineage tracer, with Ucn3 as a reporter for the mature β cell state, we screen for factors that reverse β cell de-differentiation. We find that a small molecule inhibitor of TGFβ receptor I (Alk5) protects cells from the loss of key β cell transcription factors and restores a mature β cell identity even after exposure to prolonged and severe diabetes. ",

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AU - Blum, Barak

AU - Roose, Adam N.

AU - Barrandon, Ornella

AU - Maehr, René

AU - Arvanites, Anthony C.

AU - Davidow, Lance S.

AU - Davis, Jeffrey C.

AU - Peterson, Quinn P.

AU - Rubin, Lee L.

AU - Melton, Douglas A.

PY - 2014

Y1 - 2014

N2 - Dysfunction or death of pancreatic β cells underlies both types of diabetes. This functional decline begins with β cell stress and de-differentiation. Current drugs for type 2 diabetes (T2D) lower blood glucose levels but they do not directly alleviate β cell stress nor prevent, let alone reverse, β cell de-differentiation. We show here that Urocortin 3 (Ucn3), a marker for mature β cells, is down-regulated in the early stages of T2D in mice and when β cells are stressed in vitro. Using an insulin expression-coupled lineage tracer, with Ucn3 as a reporter for the mature β cell state, we screen for factors that reverse β cell de-differentiation. We find that a small molecule inhibitor of TGFβ receptor I (Alk5) protects cells from the loss of key β cell transcription factors and restores a mature β cell identity even after exposure to prolonged and severe diabetes.

AB - Dysfunction or death of pancreatic β cells underlies both types of diabetes. This functional decline begins with β cell stress and de-differentiation. Current drugs for type 2 diabetes (T2D) lower blood glucose levels but they do not directly alleviate β cell stress nor prevent, let alone reverse, β cell de-differentiation. We show here that Urocortin 3 (Ucn3), a marker for mature β cells, is down-regulated in the early stages of T2D in mice and when β cells are stressed in vitro. Using an insulin expression-coupled lineage tracer, with Ucn3 as a reporter for the mature β cell state, we screen for factors that reverse β cell de-differentiation. We find that a small molecule inhibitor of TGFβ receptor I (Alk5) protects cells from the loss of key β cell transcription factors and restores a mature β cell identity even after exposure to prolonged and severe diabetes.

KW - Alk5 inhibitor II

KW - Tgf-beta

KW - Ucn3

KW - beta cells

KW - cell biology

KW - dedifferentiation

KW - developmental biology

KW - diabetes

KW - human

KW - mouse

KW - stem cells

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Reversal of β cell de-differentiation by a small molecule inhibitor of the TGFβ pathway

Abstract

Keywords

ASJC Scopus subject areas

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