Integrated β-catenin, BMP, PTEN, and notch signalling patterns the nephron

Nils O. Lindström; Melanie L. Lawrence; Sally F. Burn; Jeanette A. Johansson; Elvira Rm Bakker; Rachel A. Ridgway; C. Hong Chang; Michele J. Karolak; Leif Oxburgh; Denis J. Headon; Owen J. Sansom; Ron Smits; Jamie A. Davies; Peter Hohenstein

doi:10.7554/eLife.04000.001

Integrated β-catenin, BMP, PTEN, and notch signalling patterns the nephron

Nils O. Lindström^*, Melanie L. Lawrence, Sally F. Burn, Jeanette A. Johansson, Elvira Rm Bakker, Rachel A. Ridgway, C. Hong Chang, Michele J. Karolak, Leif Oxburgh, Denis J. Headon, Owen J. Sansom, Ron Smits, Jamie A. Davies, Peter Hohenstein

^*Corresponding author for this work

Gastroenterology & Hepatology

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

13 Citations (Scopus)

Abstract

The different segments of the nephron and glomerulus in the kidney balance the processes of water homeostasis, solute recovery, blood filtration, and metabolite excretion. When segment function is disrupted, a range of pathological features are presented. Little is known about nephron patterning during embryogenesis. In this study, we demonstrate that the early nephron is patterned by a gradient in β-catenin activity along the axis of the nephron tubule. By modifying β-catenin activity, we force cells within nephrons to differentiate according to the imposed β-catenin activity level, thereby causing spatial shifts in nephron segments. The β-catenin signalling gradient interacts with the BMP pathway which, through PTEN/PI3K/AKT signalling, antagonises β-catenin activity and promotes segment identities associated with low β-catenin activity. β-catenin activity and PI3K signalling also integrate with Notch signalling to control segmentation: modulating β-catenin activity or PI3K rescues segment identities normally lost by inhibition of Notch. Our data therefore identifies a molecular network for nephron patterning.

Original language	English
Article number	e04000
Pages (from-to)	1-29
Number of pages	29
Journal	eLife
Volume	2015
Issue number	4
DOIs	https://doi.org/10.7554/eLife.04000.001
Publication status	Published - 2 Mar 2015

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Lindström, N. O., Lawrence, M. L., Burn, S. F., Johansson, J. A., Bakker, E. R., Ridgway, R. A., Chang, C. H., Karolak, M. J., Oxburgh, L., Headon, D. J., Sansom, O. J., Smits, R., Davies, J. A., & Hohenstein, P. (2015). Integrated β-catenin, BMP, PTEN, and notch signalling patterns the nephron. eLife, 2015(4), 1-29. [e04000]. https://doi.org/10.7554/eLife.04000.001

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abstract = "The different segments of the nephron and glomerulus in the kidney balance the processes of water homeostasis, solute recovery, blood filtration, and metabolite excretion. When segment function is disrupted, a range of pathological features are presented. Little is known about nephron patterning during embryogenesis. In this study, we demonstrate that the early nephron is patterned by a gradient in β-catenin activity along the axis of the nephron tubule. By modifying β-catenin activity, we force cells within nephrons to differentiate according to the imposed β-catenin activity level, thereby causing spatial shifts in nephron segments. The β-catenin signalling gradient interacts with the BMP pathway which, through PTEN/PI3K/AKT signalling, antagonises β-catenin activity and promotes segment identities associated with low β-catenin activity. β-catenin activity and PI3K signalling also integrate with Notch signalling to control segmentation: modulating β-catenin activity or PI3K rescues segment identities normally lost by inhibition of Notch. Our data therefore identifies a molecular network for nephron patterning.",

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AU - Ridgway, Rachel A.

AU - Chang, C. Hong

AU - Karolak, Michele J.

AU - Oxburgh, Leif

AU - Headon, Denis J.

AU - Sansom, Owen J.

AU - Smits, Ron

AU - Davies, Jamie A.

AU - Hohenstein, Peter

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AB - The different segments of the nephron and glomerulus in the kidney balance the processes of water homeostasis, solute recovery, blood filtration, and metabolite excretion. When segment function is disrupted, a range of pathological features are presented. Little is known about nephron patterning during embryogenesis. In this study, we demonstrate that the early nephron is patterned by a gradient in β-catenin activity along the axis of the nephron tubule. By modifying β-catenin activity, we force cells within nephrons to differentiate according to the imposed β-catenin activity level, thereby causing spatial shifts in nephron segments. The β-catenin signalling gradient interacts with the BMP pathway which, through PTEN/PI3K/AKT signalling, antagonises β-catenin activity and promotes segment identities associated with low β-catenin activity. β-catenin activity and PI3K signalling also integrate with Notch signalling to control segmentation: modulating β-catenin activity or PI3K rescues segment identities normally lost by inhibition of Notch. Our data therefore identifies a molecular network for nephron patterning.

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Integrated β-catenin, BMP, PTEN, and notch signalling patterns the nephron

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