Identification of Glomerular and Podocyte-specific Genes and Pathways Activated by Sera of Patients with Focal Segmental Glomerulosclerosis

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2019 Oct 4

PMID 31581251

Citations 14

Authors

Lilian Otalora

Efren Chavez

Daniel Watford

Lissett Tueros

Mayrin Correa

Viji Nair

Philip Ruiz

Patricia Wahl

Sean Eddy

Sebastian Martini

Matthias Kretzler

George W Burke 3rd

Alessia Fornoni

Sandra Merscher

Affiliations

Soon will be listed here.

Abstract

Focal segmental glomerulosclerosis (FSGS) accounts for about 40% of all nephrotic syndrome cases in adults. The presence of several potential circulating factors has been suggested in patients with primary FSGS and particularly in patients with recurrent disease after transplant. Irrespectively of the nature of the circulating factors, this study was aimed at identifying early glomerular/podocyte-specific pathways that are activated by the sera of patients affected by FSGS. Kidney biopsies were obtained from patients undergoing kidney transplantation due to primary FSGS. Donor kidneys were biopsied pre-reperfusion (PreR) and a subset 1-2 hours after reperfusion of the kidney (PostR). Thirty-one post reperfusion (PostR) and 36 PreR biopsy samples were analyzed by microarray and gene enrichment KEGG pathway analysis. Data were compared to those obtained from patients with incident primary FSGS enrolled in other cohorts as well as with another cohort to correct for pathways activated by ischemia reperfusion. Using an ex-vivo cell-based assay in which human podocytes were cultured in the presence of sera from patients with recurrent and non recurrent FSGS, the molecular signature of podocytes exposed to sera from patients with REC was compared to the one established from patients with NON REC. We demonstrate that inflammatory pathways, including the TNF pathway, are primarily activated immediately after exposure to the sera of patients with primary FSGS, while phagocytotic pathways are activated when proteinuria becomes clinically evident. The TNF pathway activation by one or more circulating factors present in the sera of patients with FSGS supports prior experimental findings from our group demonstrating a causative role of local TNF in podocyte injury in FSGS. Correlation analysis with clinical and histological parameters of disease was performed and further supported a possible role for TNF pathway activation in FSGS. Additionally, we identified a unique set of genes that is specifically activated in podocytes when cultured in the presence of serum of patients with REC FSGS. This clinical translational study supports our prior experimental findings describing a potential role of the TNF pathway in the pathogenesis of FSGS. Validation of these findings in larger cohorts may lay the ground for the implementation of integrated system biology approaches to risk stratify patients affected by FSGS and to identify novel pathways relevant to podocyte injury.

Citing Articles

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FSGS Recurrence Collaboration: Report of a Symposium.

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Physiological Replication of the Human Glomerulus Using a Triple Culture Microphysiological System.

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Current understanding of the molecular mechanisms of circulating permeability factor in focal segmental glomerulosclerosis.

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