Conclusions
The G6PDS188F loss-of-function variant found in humans protected rats from Ang-II-induced HTN and kidney damage, but not from vascular inflammation and arterial stiffness.
Objective
To determine the effect of Ang-II-induced hypertension (HTN) and stiffness in a rat model of the Mediterranean G6PD (G6PDS188F) variant and in wild-type (WT) rats.
Results
Our findings revealed that infusion of Ang-II (490 ng/kg/min) elicited less HTN and medial hypertrophy of carotid artery in G6PDS188F than in WT rats. Additionally, Ang-II induced less glomerular and tubular damage in the kidneys - a consequence of elevated pressure - in G6PDS188F than WT rats. However, Ang-II-induced arterial stiffness increased in G6PDS188F and WT rats, and there were no differences between the groups. Mechanistically, we found aorta of G6PDS188F as compared to WT rats produced less sustained contraction and less inositol-1,2,3-phosphate (IP3) and superoxide in response to Ang-II. Furthermore, aorta of G6PDS188F as compared to WT rats expressed lower levels of phosphorylated extracellular-signal regulated kinase (ERK). Interestingly, the aorta of G6PDS188F as compared to WT rats infused with Ang-II transcribed more (50-fold) myosin heavy chain-11 (MYH11) gene, which encodes contractile protein of smooth muscle cell (SMC), and less (2.3-fold) actin-binding Rho-activating gene, which encodes a protein that enhances SMC proliferation. A corresponding increase in MYH11 and Leiomodin-1 (LMOD1) staining was observed in arteries of Ang-II treated G6PDS188F rats. However, G6PD deficiency did not affect the accumulation of CD45+ cells and transcription of genes encoding interleukin-6 and collagen-1a1 by Ang-II. Conclusions: The G6PDS188F loss-of-function variant found in humans protected rats from Ang-II-induced HTN and kidney damage, but not from vascular inflammation and arterial stiffness.