Specific renal parenchymal-derived urinary extracellular vesicles identify age-associated structural changes in living donor kidneys

Abstract

Non-invasive tests to identify age and early disease-associated pathology within the kidney are needed. Specific populations of urinary extracellular vesicles (EVs) could potentially be used for such a diagnostic test. Random urine samples were obtained from age- and sex-stratified living kidney donors before kidney donation. A biopsy of the donor kidney was obtained at the time of transplantation to identify nephron hypertrophy (larger glomerular volume, cortex per glomerulus and mean profile tubular area) and nephrosclerosis (% fibrosis, % glomerulosclerosis and arteriosclerosis). Renal parenchymal-derived EVs in cell-free urine were quantified by digital flow cytometry. The relationship between these EV populations and structural pathology on the kidney biopsy was assessed. Clinical characteristics of the kidney donors (n=138, age range: 20–70 years, 50% women) were within the normative range. Overall, urine from women contained more EVs than that from men. The number of exosomes, juxtaglomerular cells and podocyte marker–positive EVs decreased (p<0.05) with increasing age. There were fewer total EVs as well as EVs positive for mesangial cell, parietal cell, descending limb of Henle's loop (simple squamous epithelium), collecting tubule-intercalated cell and monocyte chemoattractant protein-1 markers (p<0.05) in persons with nephron hypertrophy. The number of EVs positive for intercellular adhesion molecule-1, juxtaglomerular cell, podocyte, parietal cell, proximal tubular epithelial cell, distal tubular epithelial cell and collecting duct cells were fewer (p<0.05) in persons with nephrosclerosis. EVs carrying markers of cells from the renal pelvis epithelium did not associate with any indices of nephron hypertrophy or nephrosclerosis. Therefore, specific populations of EVs derived from cells of the glomerulus and nephron associate with underlying kidney structural changes. Further validation of these findings in other cohorts is needed to determine their clinical utility.

• microvesicles
• microparticles
• exosomes
• urinary vesicles
• fibrosis
• nephron hypertrophy
• glomerulosclerosis
• arteriosclerosis

Acknowledgements

This study was supported by National Institutes of Health Grant DK090358 and partly by R25-DK101405, Mayo Clinic O'Brien Urology Research Center (U54 DK100227), American Heart Association grant 12GRNT12050147 and the Mayo Clinic NIH Specialized Center of Research (SCOR) on Sex Differences (AG44170). The authors thank the Mayo Clinic technical staff – Samuel N. Edeh, Zejfa Haskic and Timothy M. Halling – for technical assistance and data entry.