Urinary Single-Cell Profiling Captures the Cellular Diversity of the Kidney

Urinary Single-Cell Profiling Captures the Cellular Diversity of the Kidney

Microscopic analysis of urine sediment is probably the most commonly used diagnostic procedure in nephrology. The urinary cells, however, have not yet undergone careful unbiased characterization. Single-cell transcriptomic analysis was performed on 17 urine samples obtained from five subjects at two...

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Published in:Journal of the American Society of Nephrology Vol. 32; no. 3; pp. 614 - 627
Main Authors: Abedini, Amin, Zhu, Yuan O, Chatterjee, Shatakshee, Halasz, Gabor, Devalaraja-Narashimha, Kishor, Shrestha, Rojesh, S Balzer, Michael, Park, Jihwan, Zhou, Tong, Ma, Ziyuan, Sullivan, Katie Marie, Hu, Hailong, Sheng, Xin, Liu, Hongbo, Wei, Yi, Boustany-Kari, Carine M, Patel, Uptal, Almaani, Salem, Palmer, Matthew, Townsend, Raymond, Blady, Shira, Hogan, Jonathan, Morton, Lori, Susztak, Katalin
Format: Journal Article
Language:English
Published: United States American Society of Nephrology 01-03-2021
Subjects:
Aged
Basic Research
DNA Barcoding, Taxonomic
Female
Gene Library
Humans
Kidney - cytology
Kidney - metabolism
Kidney Diseases - genetics
Kidney Diseases - pathology
Kidney Diseases - urine
Male
Middle Aged
Podocytes - cytology
Podocytes - metabolism
RNA-Seq
Single-Cell Analysis - methods
Single-Cell Analysis - statistics & numerical data
Transcriptome
Urinary Bladder - cytology
Urinary Bladder - metabolism
Urine - cytology
RNA sequencing
diabetic kidney disease
single-cell transcriptomics
urine
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Summary:Microscopic analysis of urine sediment is probably the most commonly used diagnostic procedure in nephrology. The urinary cells, however, have not yet undergone careful unbiased characterization. Single-cell transcriptomic analysis was performed on 17 urine samples obtained from five subjects at two different occasions, using both spot and 24-hour urine collection. A pooled urine sample from multiple healthy individuals served as a reference control. In total 23,082 cells were analyzed. Urinary cells were compared with human kidney and human bladder datasets to understand similarities and differences among the observed cell types. Almost all kidney cell types can be identified in urine, such as podocyte, proximal tubule, loop of Henle, and collecting duct, in addition to macrophages, lymphocytes, and bladder cells. The urinary cell-type composition was subject specific and reasonably stable using different collection methods and over time. Urinary cells clustered with kidney and bladder cells, such as urinary podocytes with kidney podocytes, and principal cells of the kidney and urine, indicating their similarities in gene expression. A reference dataset for cells in human urine was generated. Single-cell transcriptomics enables detection and quantification of almost all types of cells in the kidney and urinary tract.
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A.A., Y.O.Z., and S.C. contributed equally to this work.
The TRIDENT Study Investigators are Katalin Susztak, Raymond Townsend, Shira Blady, Matthew Palmer, Carine Boustany, Richard Urquhart, Paolo Guarnieri, Lea Sarov-Blat, Erding Hu, Lori Morton, Kishor Devalaraja, Uptal Patel, Shawn Badal, John Liles, Jonathan Rosen, Anil Karihaloo, Randy Luciano, Jonathan Hogan, Amy Mottl, Shweta Bansal, Salem Almaani, Christos Argyropoulos, Kirk Campbell, Tamara Isakova, Oliver Lenz, Harold Szerlip, Matthias Kretzler, Pietro Canetta, Jeffery Schelling, Rupali Avasare, Frank Brosius, Michael Ross, Nelson Kopyt, James Tumlin, Julia Scialla, Richard Lafayette, Manisha Singh, and Yan Zhong.
ISSN:1046-6673
1533-3450
1533-3450
DOI:10.1681/asn.2020050757