Background:
Paraoxonase 3 (Pon3), is one of the three isoforms of the paraoxonase gene family. While Pon1 and Pon2 are widely studied, there is a paucity of knowledge regarding Pon3. Pon3 is synthesized in the liver and can circulate bound to high-density lipoproteins. There is significant expression in the kidney also. Pon3 has the ability to metabolize eicosanoids, which can act as signaling molecules and have known roles in the pathophysiology of some renal diseases. Decreased Pon activity is associated with elevated levels of eicosanoid metabolites and adverse clinical outcomes. We tested the hypothesis that targeted disruption of Pon3 results in elevated levels of pro-inflammatory eicosanoids and progression of renal injury.
Methods/ Results:
Ten week old male Dahl salt-sensitive (SS rats) and Pon3 mutant rats (SS
Pon3
KO) were maintained on 8% high salt diet for eight weeks, to initiate salt-sensitive hypertensive renal disease. Previously we observed that SS
Pon3
KO rats on eight weeks high salt diet demonstrated significantly increased phenotypic renal injury and mortality. In the current study, we noted that SS
Pon3
KO had significantly decreased (p<0.05) glomerular filtration rate compared to SS wild type. Blood pressure (radiotelemetry) as well as plasma angiotensin and aldosterone (LC-MS/MS) were not different between the two groups after high salt diet. We used targeted lipidomic profiling to determine eicosanoid content in renal cortex from SS
Pon3
KO and SS wild type rats at the end of eight weeks of high salt diet. We found that hydroxyl fatty acids 5-HEPE and 5-HETE (5-lipoxygenase dependent arachidonic acid metabolites) were significantly (p<0.05) elevated in the renal cortex of SS
Pon3
KO compared to SS wild type rats. In addition to being mediators of inflammation, these metabolites are associated with renal cell injury and death. Furthermore, prostaglandin 6-keto-PGF
1α
, which has known links to renal inflammation, was significantly (p<0.05) increased in renal cortex of SS-
Pon3
KO compared to SS wild type rats.
Conclusion:
These findings suggest that targeted deletion of Pon3 increases pro-inflammatory eicosanoids (5-HETE and 5-HEPE) and prostaglandins (6-keto-PGF
1α
), as well as increases renal damage independent of blood pressure.
Prolyl hydroxyl Binding Protein (PHD) and its Linkage to Changes in MyD88/p65 Pathway in Renal Injury Induced by Nitric Oxide Deficiency and High Salt Diet
