Abstract
Introduction: The Na+-K+ pump controls translocation of Na+ and K+ across the cell membrane which indirectly affects heart muscle contraction. Glutathionylation of the Na+-K+ pump’s β1 subunit (NKβ1) is a reversible post-translational oxidative modification, where a glutathione adduct forms a disulphide bond with the cysteine residue at site 45, leading to a reduction in pump activity. Using CRISPR/Cas9 technology, we created a transgenic mouse line (CRISPR-β1) that has a mutation in cysteine to serine at site 45 on NKβ1, causing insensitivity to β1-GSS. Hypothesis: We hypothesize that a mutation of the β1-GSS can inhibit transverse aortic constriction (TAC)-induced cardiac fibrosis. Methods and Results: TAC was induced in both the wild-type (WT) and CRISPR-NKβ1 mutated mice (CRISPR-β1) over a period of four weeks. Gene sequencing showed that cysteine 45 was replaced by serine, and immunoprecipitation of the free cysteine demonstrated that cysteine 45 was mutated in the β1 subunit of the CRISPR-β1 mice hearts. TAC significantly reduced cardiac function in the WT but not the CRISPR-β1 mice (ejection fraction: WT TAC: 36.24% ± 3.49%; CRISPR-β1 TAC: 57.5% ± 3.41%). Similarly, we found that the CRISPR-β1 mice were protected from cardiac hypertrophy, as evidenced by a significant reduction in cardiomyocytes size (WT TAC: 452.1 μm2 ± 30.74 μm2 ; CRISPR-β1 TAC: 271.1 μm 2 ± 11.0 μm 2 ). TAC significantly increased interstitial and perivascular fibrosis in the left ventricles of WT but not the CRISPR-β1 mice (interstitial: WT TAC: 18.4% ± 1.96%; CRISPR-β1 TAC: 5.2% ± 1.62%, perivascular: WT TAC: 42.6% ± 4.5%; CRISPR-β1 TAC: 22.01% ± 1.6%). Cardioprotective effects observed in the CRISPR-β1 mice were at least in part attributed to a significant reduction in the expression of ANP, BNP, Tgfb1, Fn1 and Ctgf genes. Conclusions: Our data indicate that CRISPR mutation of the Na+-K+ pump’s β1 subunit prevents the development of cardiac fibrosis and heart failure in a TAC-induced mouse model.
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