2018
DOI: 10.1101/258798
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Single-cell analysis of progenitor cell dynamics and lineage specification of the human fetal kidney

Abstract: ABSTRACT:The mammalian kidney develops through repetitive and reciprocal interactions between the ureteric bud and the metanephric mesenchyme to give rise to the entire collecting system and the nephrons, respectively. Most of our knowledge of the developmental regulators driving this process has been gained from the study of gene expression and functional genetics in mice and other animal models. In order to shed light on human kidney development, we have used single- INTRODUCTION:

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Cited by 9 publications
(15 citation statements)
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“…Of interest, mesenchymal-2 cells in organoids were enriched for MGP, GAS2, PRXX2 and FOXP2 , known markers of fetal mesangial cells in the developing kidney. Similarly, mesenchymal-5 cells in organoids were enriched for fetal stromal genes SULTIE1, DKK1 (Iglesias et al, 2007), NR2F1 (Schwab et al, 2003), ID3, ZEB2, COL6A3 (Menon et al, 2018) and DCN. In contrast, mesenchymal types that did not map to human kidney cell types included genes associated with cartilage formation (Ohba et al, 2015) (ACAN, SOX9, MATN4, LECT1, EPYC, COL9A3 and COL9A1)( Fig.…”
Section: Methods)mentioning
confidence: 98%
“…Of interest, mesenchymal-2 cells in organoids were enriched for MGP, GAS2, PRXX2 and FOXP2 , known markers of fetal mesangial cells in the developing kidney. Similarly, mesenchymal-5 cells in organoids were enriched for fetal stromal genes SULTIE1, DKK1 (Iglesias et al, 2007), NR2F1 (Schwab et al, 2003), ID3, ZEB2, COL6A3 (Menon et al, 2018) and DCN. In contrast, mesenchymal types that did not map to human kidney cell types included genes associated with cartilage formation (Ohba et al, 2015) (ACAN, SOX9, MATN4, LECT1, EPYC, COL9A3 and COL9A1)( Fig.…”
Section: Methods)mentioning
confidence: 98%
“…The 18 clusters expressed on average 12,900 genes -likely a good representation of each cell type's full transcriptome. Importantly, three-fold more clusters were detected for the S-shaped body compared to previously reported data (Lindström et al, 2018a;Menon et al, 2018;Hochane et al, 2019;Tran et al, 2019) and the depth and breadth of the resulting transcriptomic data enabled subtle gene expression changes to be visualized within scarce transitioning cell-states.…”
Section: Single-cell Transcriptomes Identified For Human Nephrogenesismentioning
confidence: 67%
“…In previous efforts to resolve the diversity of nephron precursors, we and others have applied single cell RNA sequencing (scRNA-seq) to human nephrogenesis (Lindström et al, 2018a;Menon et al, 2018;Hochane et al, 2019;Tran et al, 2019). When cell clusters are compared with in situ and immunolocalization studies (Lindström et al, 2018b(Lindström et al, , 2018a, distinct cell clusters are likely an amalgamation of multiple related precursor types.…”
Section: Introductionmentioning
confidence: 99%
“…Several technologies are generating gene expression data at bulk, regional and single cell level for comprehensive coverage of the transcriptome for the reference (relatively healthy or pathologically normal) and disease atlases (AKI and CKD subtypes). Single nucleus (sn) (UCSD/WU) and single cell (sc) (UCSF and Premiere -Michigan/Broad/Princeton sites) RNA-seq technologies are being used for cataloging molecularly-defined cell populations for the generation a single cell kidney atlas (13)(14)(15). Each of these technologies uses different approaches in sample preparation, dissociation or processing that have unique advantages and disadvantages (see TIS protocol on https://kpmp.org/researcher-resources/).…”
Section: Overview Of Kpmp Technologies: Creating a Molecular And Funcmentioning
confidence: 99%