Author:
Yashchenko Alex,Bland Sarah J.,Song Cheng J.,Ahmed Ummey Khalecha Bintha,Sharp Rachel,Darby Isabella G.,Cordova Audrey M.,Smith Morgan E.,Lever Jeremie M.,Li Zhang,Aloria Ernald J.,Khan Shuja,Maryam Bibi,Liu Shanrun,Crowley Michael R.,Jones Kenneth L.,Zenewicz Lauren A.,George James F.,Mrug Michal,Crossman David K.,Hopp Katharina,Stavrakis Stavros,Humphrey Mary B.,Ginhoux Florent,Zimmerman Kurt A.
Abstract
Kidney macrophages are comprised of both monocyte-derived and tissue resident populations; however, the heterogeneity of kidney macrophages and factors that regulate their heterogeneity are poorly understood. Herein, we performed single cell RNA sequencing (scRNAseq), fate mapping, and parabiosis to define the cellular heterogeneity of kidney macrophages in healthy mice. Our data indicate that healthy mouse kidneys contain four major subsets of monocytes and two major subsets of kidney resident macrophages (KRM) including a population with enriched Ccr2 expression, suggesting monocyte origin. Surprisingly, fate mapping data using the newly developed Ms4a3Cre Rosa Stopf/f TdT model indicate that less than 50% of Ccr2+ KRM are derived from Ly6chi monocytes. Instead, we find that Ccr2 expression in KRM reflects their spatial distribution as this cell population is almost exclusively found in the kidney cortex. We also identified Cx3cr1 as a gene that governs cortex specific accumulation of Ccr2+ KRM and show that loss of Ccr2+ KRM reduces the severity of cystic kidney disease in a mouse model where cysts are mainly localized to the kidney cortex. Collectively, our data indicate that Cx3cr1 regulates KRM heterogeneity and niche-specific disease progression.
Funder
University of Alabama at Birmingham
PKD Foundation
National Institute of Diabetes and Digestive and Kidney Diseases
U.S. Department of Veterans Affairs
National Institutes of Health
National Institute of General Medical Sciences
Subject
Immunology,Immunology and Allergy