Proteomic Analysis of Urine Exosomes Reveals Renal Tubule Response to Leptospiral Colonization in Experimentally Infected Rats: e0003640

Proteomic Analysis of Urine Exosomes Reveals Renal Tubule Response to Leptospiral Colonization in Experimentally Infected Rats e0003640

Background Infectious Leptospira colonize the kidneys of reservoir (e.g. rats) and accidental hosts such as humans. The renal response to persistent leptospiral colonization, as measured by urinary protein biosignatures, has not been systematically studied. Urinary exosomes--bioactive membrane-bound...

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Bibliographic Details
Published in:PLoS neglected tropical diseases Vol. 9; no. 3
Main Authors: RamachandraRao, Satish P, Matthias, Michael A, Mondrogon, Chanthel-Kokoy, Aghania, Eamon, Park, Cathleen, Kong, Casey, Ishaya, Michelle, Madrigal, Assael, Horng, Jennifer, Khoshaba, Roni, Bounkhoun, Anousone, Basilico, Fabrizio, Palma, Antonella De, Agresta, Anna Maria, Awdishu, Linda, Naviaux, Robert K, Vinetz, Joseph M, Mauri, Pierluigi
Format: Journal Article
Language:English
Published: San Francisco Public Library of Science 01-03-2015
Subjects:
Animals
Colonization
Deaths
Disease
Experiments
Infections
Kidneys
Leptospirosis
Liquid chromatography
Mass spectrometry
Multivariate analysis
Proteins
Proteomics
Rodents
Statistical models
Tropical diseases
Urine
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Summary:Background Infectious Leptospira colonize the kidneys of reservoir (e.g. rats) and accidental hosts such as humans. The renal response to persistent leptospiral colonization, as measured by urinary protein biosignatures, has not been systematically studied. Urinary exosomes--bioactive membrane-bound nanovesicles--contain cell-state specific cargo that additively reflect formation all along the nephron. We hypothesized that Leptospira-infection will alter the content of urine exosomes, and further, that these Leptospira-induced alterations will hold clues to unravel novel pathways related to bacterial-host interactions. Methodology/Principal findings Exosome protein content from 24 hour urine samples of Leptospira-infected rats was compared with that of uninfected rats using SDS-PAGE and liquid chromatography/tandem mass spectrometry (LC-MS/MS). Statistical models were used to identify significantly dysregulated proteins in Leptospira-infected and uninfected rat urine exosomes. In all, 842 proteins were identified by LC-MS/MS proteomics of total rat urine and 204 proteins associated specifically with exosomes. Multivariate analysis showed that 25 proteins significantly discriminated between uninfected control and infected rats. Alanyl (membrane) aminopeptidase, also known as CD13 topped this list with the highest score, a finding we validated by Western immunoblotting. Whole urine analysis showed Tamm-Horsfall protein level reduction in the infected rat urine. Total urine and exosome proteins were significantly different in male vs. female infected rats. Conclusions We identified exosome-associated renal tubule-specific responses to Leptospira infection in a rat chronic colonization model. Quantitative differences in infected male and female rat urine exosome proteins vs. uninfected controls suggest that urine exosome analysis identifies important differences in kidney function that may be of clinical and pathological significance.
ISSN:1935-2727
1935-2735
DOI:10.1371/journal.pntd.0003640