Biomedicines (Sep 2022)

Cardioprotective Role for Paraoxonase-1 in Chronic Kidney Disease

  • Prabhatchandra Dube,
  • Fatimah K. Khalaf,
  • Armelle DeRiso,
  • Chrysan J. Mohammed,
  • Jacob A. Connolly,
  • Dhanushya Battepati,
  • Apurva Lad,
  • Joshua D. Breidenbach,
  • Andrew L. Kleinhenz,
  • Bella Khatib-Shahidi,
  • Mitra Patel,
  • Iman Tassavvor,
  • Amira F. Gohara,
  • Deepak Malhotra,
  • Eric E. Morgan,
  • Steven T. Haller,
  • David J. Kennedy

DOI
https://doi.org/10.3390/biomedicines10092301
Journal volume & issue
Vol. 10, no. 9
p. 2301

Abstract

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Paraoxonase-1 (PON-1) is a hydrolytic enzyme associated with HDL, contributing to its anti-inflammatory, antioxidant, and anti-atherogenic properties. Deficiencies in PON-1 activity result in oxidative stress and detrimental clinical outcomes in the context of chronic kidney disease (CKD). However, it is unclear if a decrease in PON-1 activity is mechanistically linked to adverse cardiovascular events in CKD. We investigated the hypothesis that PON-1 is cardioprotective in a Dahl salt-sensitive model of hypertensive renal disease. Experiments were performed on control Dahl salt-sensitive rats (SSMcwi, hereafter designated SS-WT rats) and mutant PON-1 rats (SS-Pon1em1Mcwi, hereafter designated SS-PON-1 KO rats) generated using CRISPR gene editing technology. Age-matched 10-week-old SS and SS-PON-1 KO male rats were maintained on high-salt diets (8% NaCl) for five weeks to induce hypertensive renal disease. Echocardiography showed that SS-PON-1 KO rats but not SS-WT rats developed compensated left ventricular hypertrophy after only 4 weeks on the high-salt diet. RT-PCR analysis demonstrated a significant increase in the expression of genes linked to cardiac hypertrophy, inflammation, and fibrosis, as well as a significant decrease in genes essential to left ventricular function in SS-PON-1 KO rats compared to SS-WT rats. A histological examination also revealed a significant increase in cardiac fibrosis and immune cell infiltration in SS-PON-1 KO rats, consistent with their cardiac hypertrophy phenotype. Our data suggest that a loss of PON-1 in the salt-sensitive hypertensive model of CKD leads to increased cardiac inflammation and fibrosis as well as a molecular and functional cardiac phenotype consistent with compensated left ventricular hypertrophy.

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