Abstract
Rationale: The effects of a high salt (HS) diet upon renal metabolism and O2 utilization have not been extensively studied and there is a significant gap in our understanding of the role of oxidative stress in the effciency of energy production and substrate metabolism. The present study compared the effects of a HS diet (4% NaCl) on changes in O2 consumption and transcriptomic profiles in Dahl salt-sensitive (SS) rats to SS rats with a global knockout of NADPH oxidase 4 (NOX4) gene (SS Nox4−/−). Methods: Male SS (n=9) and SS Nox4−/− (n=10) rats were fed a 0.4% NaCl (LS) diet. At 7-8 weeks of age, the rats were implanted with a renal artery ultrasonic flow probe (Transonic) together with a femoral arterial catheter and a renal venous catheter. Renal blood flow (RBF) and mean arterial pressure (MAP) were measured continuously (24/7) and arterial (A) and renal venous (Vr) blood was sampled intermittently when rats were fed the LS and on days 7, 14, and 21 after switching to the HS diet. A and Vr blood O2 content was immediately measured by radiometer. From separate groups of rats subjected to the same protocol, the renal cortical tissue (Cx) and outer medulla (OM) were removed for mRNAseq analysis (Novogene, Inc). Results: When switching to the HS diet, the average 24-hour MAP of SS rats rose from 122 ± 2 to 140 ± 2 on HS7 to 164 ± 5 mmHg by HS21. In contrast, MAP in SS Nox4−/− rats increased from 121 ± 2 at LS to 132 ± 1 at HS7 to 152 ± 3 mmHg at HS21 (p<0.05, compared to SS). RBF, normalized by changes of kidney weights obtained in another group of SS and SS Nox4−/− rats fed the same HS diet, SS rats exhibited a significant reduction of RBF over the 3 weeks of the HS diet averaging LS 7.2 ± 0.6, HS7 5.1 ± 0.5 and HS21 4.6 ± 0.7 mL/min/g kidney weight (gkw). This reduction of RBF was not observed in SS Nox4−/− rats (LS 6.8 ± 0.8, HS7 6.6 ± 0.6, HS21 6.0 ± 0.6 mL/min/gkw). The kidney O2 extraction ratio at LS tended to be lower in SS Nox4−/− (11.2 ± 1.7%) compared to SS (14.0 ± 1.1%) (p=0.10). When switched to the HS diet, O2 extraction was significantly reduced in the SS Nox4−/− rats reaching 8.3 ± 1.0% at HS21 (p<0.05), while it did not change significantly in SS (12.7 ± 1.4%) at HS21. Notably, as determined by RNAseq analysis, Ucp2 expression in cortical tissue was significantly greater in SS fed HS than in SS Nox4−/−rats at HS21 . A gene enrichment analysis of the mRNAseq cortical tissue data (GSEA-KEGG pathways) focused on metabolic pathways indicated that knockout of Nox4 resulted in reduced expression of linoleic acid, lysine, and histidine metabolism pathways at LS when compared to SS. Those differences were not observed after HS feeding. However, upregulation of oxidative phosphorylation pathway was observed at HS21 in SS Nox4−/− when compared to SS rats. In the OM, a greater expression of genes associated with fatty acid degradation and carbon metabolism was observed in SS Nox4−/− rats when fed LS which was observed also at HS21. Conclusion: The preliminary results of this study suggest that reduced extraction of O2 in the SS Nox4−/− rats compared to SS rats may be partially explained by the differential response of Ucp2 to salt. Further studies are needed to determine whether the effciency of ATP production is enhanced in SS Nox4−/− as consequence of reduction of reactive oxygen species (e.g., H2O2) and the related downstream pathways such as phosphorylation of mTORC1. R01 HL151587, AHA 23POST1008714. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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