Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease

Jennifer C. Chandler; Daniyal J. Jafree; Saif Malik; Gideon Pomeranz; Mary Ball; Maria Kolatsi-Joannou; Alice Piapi; William J. Mason; Andrew V. Benest; David O. Bates; Aleksandra Letunovska; Reem Al-Saadi; Marion Rabant; Olivia Boyer; Kathy Pritchard-Jones; Paul J. Winyard; Andrew S. Mason; Adrian S. Woolf; Aoife M. Waters; David A. Long

doi:10.1002/path.6339

Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease

Jennifer C. Chandler
, Daniyal J. Jafree
, Saif Malik
, Gideon Pomeranz
, Mary Ball
, Maria Kolatsi-Joannou
, Alice Piapi
, William J. Mason
, Andrew V. Benest
, David O. Bates
, Aleksandra Letunovska
, Reem Al-Saadi
, Marion Rabant
, Olivia Boyer
, Kathy Pritchard-Jones
, Paul J. Winyard
, Andrew S. Mason
, Adrian S. Woolf
, Aoife M. Waters
, David A. Long

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

Abstract

WT1 encodes a podocyte transcription factor whose variants can cause an untreatable glomerular disease in early childhood. Although WT1 regulates many podocyte genes, it is poorly understood which of them are initiators in disease and how they subsequently influence other cell-types in the glomerulus. We hypothesised that this could be resolved using single-cell RNA sequencing (scRNA-seq) and ligand-receptor analysis to profile glomerular cell–cell communication during the early stages of disease in mice harbouring an orthologous human mutation in WT1 (Wt1^R394W/+). Podocytes were the most dysregulated cell-type in the early stages of Wt1^R394W/+ disease, with disrupted angiogenic signalling between podocytes and the endothelium, including the significant downregulation of transcripts for the vascular factors Vegfa and Nrp1. These signalling changes preceded glomerular endothelial cell loss in advancing disease, a feature also observed in biopsy samples from human WT1 glomerulopathies. Addition of conditioned medium from murine Wt1^R394W/+ primary podocytes to wild-type glomerular endothelial cells resulted in impaired endothelial looping and reduced vascular complexity. Despite the loss of key angiogenic molecules in Wt1^R394W/+ podocytes, the pro-vascular molecule adrenomedullin was upregulated in Wt1^R394W/+ podocytes and plasma and its further administration was able to rescue the impaired looping observed when glomerular endothelium was exposed to Wt1^R394W/+ podocyte medium. In comparative analyses, adrenomedullin upregulation was part of a common injury signature across multiple murine and human glomerular disease datasets, whilst other gene changes were unique to WT1 disease. Collectively, our study describes a novel role for altered angiogenic signalling in the initiation of WT1 glomerulopathy. We also identify adrenomedullin as a proangiogenic factor, which despite being upregulated in early injury, offers an insufficient protective response due to the wider milieu of dampened vascular signalling that results in endothelial cell loss in later disease.

Original language	English
Pages (from-to)	212-227
Number of pages	16
Journal	Journal of Pathology
Volume	264
Issue number	2
DOIs	https://doi.org/10.1002/path.6339
Publication status	Published - Oct 2024
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

adrenomedullin
childhood glomerular disease
glomerular endothelium
neuropilin-1
podocyte
single-cell transcriptomics
vascular endothelial growth factor-A
WT1 glomerulopathy

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10.1002/path.6339

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Chandler, J. C., Jafree, D. J., Malik, S., Pomeranz, G., Ball, M., Kolatsi-Joannou, M., Piapi, A., Mason, W. J., Benest, A. V., Bates, D. O., Letunovska, A., Al-Saadi, R., Rabant, M., Boyer, O., Pritchard-Jones, K., Winyard, P. J., Mason, A. S., Woolf, A. S., Waters, A. M., & Long, D. A. (2024). Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease. Journal of Pathology, 264(2), 212-227. https://doi.org/10.1002/path.6339

@article{e6cf84b8be704a3faa23fa91f27c50bb,

title = "Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease",

abstract = "WT1 encodes a podocyte transcription factor whose variants can cause an untreatable glomerular disease in early childhood. Although WT1 regulates many podocyte genes, it is poorly understood which of them are initiators in disease and how they subsequently influence other cell-types in the glomerulus. We hypothesised that this could be resolved using single-cell RNA sequencing (scRNA-seq) and ligand-receptor analysis to profile glomerular cell–cell communication during the early stages of disease in mice harbouring an orthologous human mutation in WT1 (Wt1R394W/+). Podocytes were the most dysregulated cell-type in the early stages of Wt1R394W/+ disease, with disrupted angiogenic signalling between podocytes and the endothelium, including the significant downregulation of transcripts for the vascular factors Vegfa and Nrp1. These signalling changes preceded glomerular endothelial cell loss in advancing disease, a feature also observed in biopsy samples from human WT1 glomerulopathies. Addition of conditioned medium from murine Wt1R394W/+ primary podocytes to wild-type glomerular endothelial cells resulted in impaired endothelial looping and reduced vascular complexity. Despite the loss of key angiogenic molecules in Wt1R394W/+ podocytes, the pro-vascular molecule adrenomedullin was upregulated in Wt1R394W/+ podocytes and plasma and its further administration was able to rescue the impaired looping observed when glomerular endothelium was exposed to Wt1R394W/+ podocyte medium. In comparative analyses, adrenomedullin upregulation was part of a common injury signature across multiple murine and human glomerular disease datasets, whilst other gene changes were unique to WT1 disease. Collectively, our study describes a novel role for altered angiogenic signalling in the initiation of WT1 glomerulopathy. We also identify adrenomedullin as a proangiogenic factor, which despite being upregulated in early injury, offers an insufficient protective response due to the wider milieu of dampened vascular signalling that results in endothelial cell loss in later disease.",

keywords = "adrenomedullin, childhood glomerular disease, glomerular endothelium, neuropilin-1, podocyte, single-cell transcriptomics, vascular endothelial growth factor-A, WT1 glomerulopathy",

author = "Chandler, \{Jennifer C.\} and Jafree, \{Daniyal J.\} and Saif Malik and Gideon Pomeranz and Mary Ball and Maria Kolatsi-Joannou and Alice Piapi and Mason, \{William J.\} and Benest, \{Andrew V.\} and Bates, \{David O.\} and Aleksandra Letunovska and Reem Al-Saadi and Marion Rabant and Olivia Boyer and Kathy Pritchard-Jones and Winyard, \{Paul J.\} and Mason, \{Andrew S.\} and Woolf, \{Adrian S.\} and Waters, \{Aoife M.\} and Long, \{David A.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). The Journal of Pathology published by John Wiley \& Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.",

year = "2024",

month = oct,

doi = "10.1002/path.6339",

language = "English",

volume = "264",

pages = "212--227",

journal = "Journal of Pathology",

issn = "0022-3417",

publisher = "John Wiley and Sons Ltd",

number = "2",

}

Chandler, JC, Jafree, DJ, Malik, S, Pomeranz, G, Ball, M, Kolatsi-Joannou, M, Piapi, A, Mason, WJ, Benest, AV, Bates, DO, Letunovska, A, Al-Saadi, R, Rabant, M, Boyer, O, Pritchard-Jones, K, Winyard, PJ, Mason, AS, Woolf, AS, Waters, AM & Long, DA 2024, 'Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease', Journal of Pathology, vol. 264, no. 2, pp. 212-227. https://doi.org/10.1002/path.6339

TY - JOUR

T1 - Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease

AU - Chandler, Jennifer C.

AU - Jafree, Daniyal J.

AU - Malik, Saif

AU - Pomeranz, Gideon

AU - Ball, Mary

AU - Kolatsi-Joannou, Maria

AU - Piapi, Alice

AU - Mason, William J.

AU - Benest, Andrew V.

AU - Bates, David O.

AU - Letunovska, Aleksandra

AU - Al-Saadi, Reem

AU - Rabant, Marion

AU - Boyer, Olivia

AU - Pritchard-Jones, Kathy

AU - Winyard, Paul J.

AU - Mason, Andrew S.

AU - Woolf, Adrian S.

AU - Waters, Aoife M.

AU - Long, David A.

PY - 2024/10

Y1 - 2024/10

N2 - WT1 encodes a podocyte transcription factor whose variants can cause an untreatable glomerular disease in early childhood. Although WT1 regulates many podocyte genes, it is poorly understood which of them are initiators in disease and how they subsequently influence other cell-types in the glomerulus. We hypothesised that this could be resolved using single-cell RNA sequencing (scRNA-seq) and ligand-receptor analysis to profile glomerular cell–cell communication during the early stages of disease in mice harbouring an orthologous human mutation in WT1 (Wt1R394W/+). Podocytes were the most dysregulated cell-type in the early stages of Wt1R394W/+ disease, with disrupted angiogenic signalling between podocytes and the endothelium, including the significant downregulation of transcripts for the vascular factors Vegfa and Nrp1. These signalling changes preceded glomerular endothelial cell loss in advancing disease, a feature also observed in biopsy samples from human WT1 glomerulopathies. Addition of conditioned medium from murine Wt1R394W/+ primary podocytes to wild-type glomerular endothelial cells resulted in impaired endothelial looping and reduced vascular complexity. Despite the loss of key angiogenic molecules in Wt1R394W/+ podocytes, the pro-vascular molecule adrenomedullin was upregulated in Wt1R394W/+ podocytes and plasma and its further administration was able to rescue the impaired looping observed when glomerular endothelium was exposed to Wt1R394W/+ podocyte medium. In comparative analyses, adrenomedullin upregulation was part of a common injury signature across multiple murine and human glomerular disease datasets, whilst other gene changes were unique to WT1 disease. Collectively, our study describes a novel role for altered angiogenic signalling in the initiation of WT1 glomerulopathy. We also identify adrenomedullin as a proangiogenic factor, which despite being upregulated in early injury, offers an insufficient protective response due to the wider milieu of dampened vascular signalling that results in endothelial cell loss in later disease.

AB - WT1 encodes a podocyte transcription factor whose variants can cause an untreatable glomerular disease in early childhood. Although WT1 regulates many podocyte genes, it is poorly understood which of them are initiators in disease and how they subsequently influence other cell-types in the glomerulus. We hypothesised that this could be resolved using single-cell RNA sequencing (scRNA-seq) and ligand-receptor analysis to profile glomerular cell–cell communication during the early stages of disease in mice harbouring an orthologous human mutation in WT1 (Wt1R394W/+). Podocytes were the most dysregulated cell-type in the early stages of Wt1R394W/+ disease, with disrupted angiogenic signalling between podocytes and the endothelium, including the significant downregulation of transcripts for the vascular factors Vegfa and Nrp1. These signalling changes preceded glomerular endothelial cell loss in advancing disease, a feature also observed in biopsy samples from human WT1 glomerulopathies. Addition of conditioned medium from murine Wt1R394W/+ primary podocytes to wild-type glomerular endothelial cells resulted in impaired endothelial looping and reduced vascular complexity. Despite the loss of key angiogenic molecules in Wt1R394W/+ podocytes, the pro-vascular molecule adrenomedullin was upregulated in Wt1R394W/+ podocytes and plasma and its further administration was able to rescue the impaired looping observed when glomerular endothelium was exposed to Wt1R394W/+ podocyte medium. In comparative analyses, adrenomedullin upregulation was part of a common injury signature across multiple murine and human glomerular disease datasets, whilst other gene changes were unique to WT1 disease. Collectively, our study describes a novel role for altered angiogenic signalling in the initiation of WT1 glomerulopathy. We also identify adrenomedullin as a proangiogenic factor, which despite being upregulated in early injury, offers an insufficient protective response due to the wider milieu of dampened vascular signalling that results in endothelial cell loss in later disease.

KW - adrenomedullin

KW - childhood glomerular disease

KW - glomerular endothelium

KW - neuropilin-1

KW - podocyte

KW - single-cell transcriptomics

KW - vascular endothelial growth factor-A

KW - WT1 glomerulopathy

UR - https://www.scopus.com/pages/publications/85201948954

U2 - 10.1002/path.6339

DO - 10.1002/path.6339

M3 - Article

C2 - 39177649

AN - SCOPUS:85201948954

SN - 0022-3417

VL - 264

SP - 212

EP - 227

JO - Journal of Pathology

JF - Journal of Pathology

IS - 2

ER -

Single-cell transcriptomics identifies aberrant glomerular angiogenic signalling in the early stages of WT1 kidney disease

Abstract

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Keywords

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