Cell-type selective markers represented in whole-kidney RNA-Seq data

JZ Clark, L Chen, CL Chou, HJ Jung, JW Lee… - bioRxiv, 2018 - biorxiv.org
JZ Clark, L Chen, CL Chou, HJ Jung, JW Lee, MA Knepper
bioRxiv, 2018biorxiv.org
Bulk-tissue RNA-Seq is seeing increasing use in the study of physiological and
pathophysiological processes in the kidney. However, the presence of multiple cell types in
kidney complicates the data interpretation. Here we address the question,“What cell types
are represented in whole-kidney RNA-Seq data?” to identify circumstances in which bulk-
kidney RNA-Seq can be successfully interpreted. We carried out RNA-Seq in mouse whole
kidneys and microdissected renal tubule segments. To aid in the interpretation of the data …
Abstract
Bulk-tissue RNA-Seq is seeing increasing use in the study of physiological and pathophysiological processes in the kidney. However, the presence of multiple cell types in kidney complicates the data interpretation. Here we address the question, “What cell types are represented in whole-kidney RNA-Seq data?” to identify circumstances in which bulk-kidney RNA-Seq can be successfully interpreted. We carried out RNA-Seq in mouse whole kidneys and microdissected renal tubule segments. To aid in the interpretation of the data, we compiled a database of cell-type selective protein markers for 43 cell types believed to be present in kidney tissue. The whole-kidney RNA-Seq analysis identified transcripts corresponding to 17742 genes, distributed over 5 orders of magnitude of expression level. Markers for all 43 curated cell types were detectable. Analysis of the cellular makeup of mouse and rat kidney, calculated from published literature, suggests that proximal tubule cells account for more than half of the mRNA in a kidney. Comparison of RNA-Seq data from microdissected proximal tubules with whole-kidney data supports this view. RNA-Seq data for cell-type selective markers in bulk-kidney samples provide a valid means to identify changes in minority-cell abundances in kidney tissue. Because proximal tubules make up a substantial fraction of whole-kidney samples, changes in proximal tubule gene expression can be assessed presumptively by bulk-kidney RNA-Seq, although results could potentially be obscured by the presence of mRNA from other cell types. The dominance of proximal tubule cells in whole-kidney samples also has implications for the interpretation of single-cell RNA-Seq data.
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