Single Cell Profiling of Acute Kidney Injury Reveals Novel Transcriptional Signatures, Mixed Identities and Epithelial-to-Stromal Crosstalk

Rudman-Melnick, Valeria; Adam, Mike; Potter, Andrew; Chokshi, Saagar M.; Ma, Qing; Drake, Keri A.; Schuh, Meredith P.; Kofron, Matthew; Devarajan, Prasad; Potter, S. Steven

doi:10.1101/2019.12.30.890905

2019

DOI: 10.1101/2019.12.30.890905

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Single Cell Profiling of Acute Kidney Injury Reveals Novel Transcriptional Signatures, Mixed Identities and Epithelial-to-Stromal Crosstalk

Valeria Rudman-Melnick

Mike Adam

Andrew Potter

et al.

Abstract: Acute kidney injury (AKI) is a rapid decline of renal function, with an incidence of up to 67% of intensive care unit patients. Current treatments are merely supportive, emphasizing the need for deeper understanding that could lead to improved therapies. We used single cell RNA sequencing, in situ hybridization and protein expression analyses to create comprehensive renal cell specific transcriptional profiles of multiple AKI stages. We revealed that AKI induces marked dedifferentiation, renal developmental ge… Show more

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Molecular Mechanisms of Renal Progenitor Regulation: How Many Pieces in the Puzzle?

Peired

Melica

Molli

et al. 2021

Cells

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Kidneys of mice, rats and humans possess progenitors that maintain daily homeostasis and take part in endogenous regenerative processes following injury, owing to their capacity to proliferate and differentiate. In the glomerular and tubular compartments of the nephron, consistent studies demonstrated that well-characterized, distinct populations of progenitor cells, localized in the parietal epithelium of Bowman capsule and scattered in the proximal and distal tubules, could generate segment-specific cells in physiological conditions and following tissue injury. However, defective or abnormal regenerative responses of these progenitors can contribute to pathologic conditions. The molecular characteristics of renal progenitors have been extensively studied, revealing that numerous classical and evolutionarily conserved pathways, such as Notch or Wnt/β-catenin, play a major role in cell regulation. Others, such as retinoic acid, renin-angiotensin-aldosterone system, TLR2 (Toll-like receptor 2) and leptin, are also important in this process. In this review, we summarize the plethora of molecular mechanisms directing renal progenitor responses during homeostasis and following kidney injury. Finally, we will explore how single-cell RNA sequencing could bring the characterization of renal progenitors to the next level, while knowing their molecular signature is gaining relevance in the clinic.

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Molecular Mechanisms of Renal Progenitor Regulation: How Many Pieces in the Puzzle?

Peired

Melica

Molli

et al. 2021

Cells

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Single Cell Profiling of Acute Kidney Injury Reveals Novel Transcriptional Signatures, Mixed Identities and Epithelial-to-Stromal Crosstalk

Cited by 1 publication

References 100 publications

Molecular Mechanisms of Renal Progenitor Regulation: How Many Pieces in the Puzzle?

Molecular Mechanisms of Renal Progenitor Regulation: How Many Pieces in the Puzzle?

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