Abstract
Human alpha-1 antitrypsin (hAAT) is a versatile protease inhibitor, but little is known about its targets in the aldosterone-sensitive distal nephron and its role in electrolyte balance and blood pressure control. We analyzed urinary electrolytes, osmolality, and blood pressure from hAAT transgenic (hAAT-Tg) mice and C57B/6 wild-type control mice maintained on either a normal salt or high salt diet. Urinary sodium, potassium, and chloride concentrations as well as urinary osmolality were lower in hAAT-Tg mice maintained on a high salt diet during both the active and inactive cycles. hAAT-Tg mice showed a lower systolic blood pressure compared to C57B6 mice when maintained on a normal salt diet but this was not observed when they were maintained on a high salt diet. Cathepsin B protein activity was less in hAAT-Tg mice compared to wild-type controls. Protein expression of the alpha subunit of the sodium epithelial channel (ENaC) alpha was also reduced in the hAAT-Tg mice. Natriuretic peptide receptor C (NPRC) protein expression in membrane fractions of the kidney cortex was reduced while circulating levels of atrial natriuretic peptide (ANP) were greater in hAAT-Tg mice compared to wild-type controls. This study characterizes the electrolyte and blood pressure phenotype of hAAT-Tg mice during the inactive and active cycles and investigates the mechanism by which ENaC activation is inhibited in part by a mechanism involving decreased cathepsin B activity and increased ANP levels in the systemic circulation.
Highlights
Alpha-1-antitrypsin (AAT) is a serine protease inhibitor (SERPIN), which is mainly produced in the liver and secreted in to the circulation (Kohnlein and Welte, 2008)
Accumulating studies have shown that a non-dipping blood pressure phenotype during the inactive cycle leads to an increased risk of cardiovascular disease, stroke, and high mortality (Solocinski et al, 2017), we investigated whether epithelial transport methods in the aldosterone-sensitive distal nephron can contribute to changes in electrolytes and blood pressure in mice overexpressing human AAT (hAAT)
Urinary concentrations of sodium were significantly lower in male hAAT transgenic (hAAT-Tg) mice compared to male wild-type control mice maintained on a high salt diet for the inactive cycle while the urinary concentrations of sodium were significantly lower in female hAAT-Tg mice compared to female wild-type mice maintained on a high salt diet for the active cycle (Figures 1A,B)
Summary
Alpha-1-antitrypsin (AAT) is a serine protease inhibitor (SERPIN), which is mainly produced in the liver and secreted in to the circulation (Kohnlein and Welte, 2008). AAT is a multifunctional protein with anti-inflammatory and immunoregulatory properties in addition to its inhibitory function of proteinases (Bai et al, 2021). It has been shown that human AAT (hAAT) has therapeutic potential in mouse models of human diseases including type 1 diabetes (Song et al, 2004; Lu et al, 2006; Ma et al, 2010), arthritis (Grimstein et al, 2010, 2011), lupus (Elshikha et al, 2016, 2018), and osteoporosis (Akbar et al, 2016). It has been shown that AAT has anti-aging effect (Yuan et al, 2018). These results suggest that AAT may have more unknown functions
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