Effects of elevation of ANP and its deficiency on cardiorenal function
Daria V. Ilatovskaya, … , Alison J. Kriegel, Alexander Staruschenko
Daria V. Ilatovskaya, … , Alison J. Kriegel, Alexander Staruschenko
Published April 5, 2022
Citation Information: JCI Insight. 2022;7(9):e148682. https://doi.org/10.1172/jci.insight.148682.
View: Text | PDF
Research Article Nephrology

Effects of elevation of ANP and its deficiency on cardiorenal function

Abstract

Atrial natriuretic peptide (ANP), encoded by Nppa, is a vasodilatory hormone that promotes salt excretion. Genome-wide association studies identified Nppa as a causative factor of blood pressure development, and in humans, ANP levels were suggested as an indicator of salt sensitivity. This study aimed to provide insights into the effects of ANP on cardiorenal function in salt-sensitive hypertension. To address this question, hypertension was induced in SSNPPA–/– (KO of Nppa in the Dahl salt-sensitive [SS] rat background) or SSWT (WT Dahl SS) rats by a high-salt (HS) diet challenge (4% NaCl for 21 days). Chronic infusion of ANP in SSWT rats attenuated the increase in blood pressure and cardiorenal damage. Overall, the SSNPPA–/– strain demonstrated higher blood pressure and intensified cardiac fibrosis (with no changes in ejection fraction) compared with SSWT rats. Furthermore, SSNPPA–/– rats exhibited kidney hypertrophy and higher glomerular injury scores, reduced diuresis, and lower sodium and chloride excretion than SSWT when fed a HS diet. Additionally, the activity of epithelial Na+ channel (ENaC) was found to be increased in the collecting ducts of the SSNPPA–/– rats. Taken together, these data show promise for the therapeutic benefits of ANP and ANP-increasing drugs for treating salt-sensitive hypertension.

Authors

Daria V. Ilatovskaya, Vladislav Levchenko, Kristen Winsor, Gregory R. Blass, Denisha R. Spires, Elizaveta Sarsenova, Iuliia Polina, Adrian Zietara, Mark Paterson, Alison J. Kriegel, Alexander Staruschenko

×

Figure 4

ANP deficiency in male rats exacerbates glomerular damage but does not aggravate microalbuminuria and renal protein cast formation induced by a HS diet.

Options: View larger image (or click on image) Download as PowerPoint
ANP deficiency in male rats exacerbates glomerular damage but does not a...
(A) Representative cortical images from Masson trichrome–stained kidneys taken at 10× (upper row), and expended regions of interest (bottom row). Blind scores are shown on the right; each point on the graph is an average of 100 scored glomeruli from 1 rat. n = 6, 10, 5, and 11 independent tissues scored for the SSWT rats on NS and HS, and SSNPPA–/– rats on NS and HS. (B) Representative images from Masson trichrome–stained renal tissues showing protein casts formation. Shown are images taken at 20×; graph on the right summarizes the percentage of the protein cast area to whole kidney section area; n = 6, 6, 5, and 11 independent tissue scans analyzed for the SSWT rats on NS and HS, and SSNPPA–/– rats on NS and HS. (C) Urinary microalbumin excretion (normalized to urine flow). n = 8, 7, 7, and 8 urine samples from independent animals were analyzed for the SSWT rats on NS and HS, and SSNPPA–/– rats on NS and HS. (D) Representative staining for megalin in the renal cortex (20×). (E) Western blot analysis of megalin expression in the renal cortex of the SSWT rats on NS and HS, and SSNPPA–/– rats on NS and HS; each lane represents an independent renal tissue sample obtained from a different rat. n = 5 per group. (F) Intensity profiles of megalin staining assessed in the cortical proximal tubules of the SSWT rats and SSNPPA–/– rats on NS and HS. n = 3 animals per group; at least 8 random images at 40× were analyzed per animal, with n = 8–10 individual tubules measured per image (total n = 172, 238, 217, 229 in SSWT rats and SSNPPA–/– rats on NS and HS). (G) Plasma albumin levels obtained from SSWT rats on NS and HS, and SSNPPA–/– rats on NS and HS; n = 7, 7, 8, 8. Data were analyzed with 2-way ANOVA or repeated measures ANOVA; if significant, P values are shown on the graphs. Male animals were used. Scale bars: 50 μm.