Illumina HiSeq 2500 sequencing; GSM3053300: Cell1; Mus musculus; RNA-Seq

Cell1

Fibrosis is the common final pathway of virtually all chronic injury to the kidney. While it is well accepted that myofibroblasts are the scar-producing cells in the kidney, their cellular origin is still hotly debated. The relative contribution of proximal tubular epithelium and circulating cells including mesenchymal stem cells, macrophages and fibrocytes to the myofibroblast pool remains highly controversial. Using inducible genetic fate tracing of proximal tubular epithelium we confirm that proximal tubule does not contribute to the myofibroblast pool. However, in parabiosis models in which one parabiont is genetically labeled and the other is unlabeled and undergoes kidney fibrosis, we demonstrate that a small fraction of genetically labeled renal myofibroblasts derive from the circulation. Single cell RNA-Sequencing confirms this finding but indicates that these cells are circulating monocytes, express few extracellular matrix or other myofibroblast genes and do express many proinflammatory cytokines. We conclude that this small circulating myofibroblast progenitor population contributes to renal fibrosis by paracrine rather than direct mechanisms. Overall design: Single cell RNA-seq was performed on FACS-sorted PDGFRB+CD45- and PDGFRB+CD45+ cell populations

Parabiosis and single-cell RNA-Sequencing reveal a limited contribution of monocytes to myofibroblasts in kidney fibrosis

Submitted by Gene Expression Omnibus on 25-APR-2018

Kidney dissociation protocol: Mice were euthanized and perfused with sterile PBS via the left ventricle and the kidneys were placed in PBS with 5% FBS. After thoroughly mincing the tissue/organ using a sterile scalpel (Feather), the tissue/organ was placed in gentleMACS C Tubes (Miltenyi Biotec) containing 1.5ml DMEM (Life Technologies) with 0.1mg/ml Liberase TL (Roche). The tissue was then dissociated using the D program of the gentleMacs dissociator (Miltenyi Biotec) followed by 30 min incubation at 37Â°C. FACS-seq protocol: Single cell sorting was performed at the Siteman Flow Cytometry Core (Washington University) using an iCyt Synergy sorter (Sony). Single cells were sorted directly into 10x lysis buffer (Clontech) in 96well PCR plates. Data were analyzed by using Flow Jo software (Version 9.6.2, Tree Star Inc).  96-well plates with single cell in each well were sealed and sent to the sequencing core at Washington University in St Louis (Genome Technology Access Center, GTAC). RNA from individual wells were processed with the Clonetech Smarter system and ligated with unique barcodes. Each plate was then pooled into one library and the resulting pools were then ligated to adapters containing unique 7bp index sequences so that samples originating from a single plate can be identified by Illumina conventional indexing strategies and each individual well is defined by barcoades sequenced on the first read of a paired end read pair. All plates were pooled into a single library and subjected to Illumina sequencing (HiSeq2500 2x50bp). RNA libraries were prepared for sequencing using standard FACS-seq procedure

Parabiosis and single-cell RNA-Sequencing reveal a limited contribution of monocytes to myofibroblasts in kidney fibrosis

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