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The Cys674 residue (C674) in the sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2 (SERCA2) is key to maintaining its enzyme activity. The irreversible oxidation of C674 occurs broadly in aortic aneurysms. Substitution of C674 promotes a phenotypic transition of aortic smooth muscle cells (SMCs) and exacerbates angiotensin II-induced aortic aneurysm. However, its underlying mechanism remains enigmatic.
Inactivation of Cys674 (C674) in the sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2 (SERCA2) causes intracellular Ca2+ accumulation, which activates calcineurin-mediated nuclear factor of activated T-lymphocytes (NFAT)/NF-κB pathways, and results in the phenotypic modulation of smooth muscle cells (SMCs) to accelerate angiotensin II-induced aortic aneurysms. Our goal was to investigate the mechanism involved.
Sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2 (SERCA2) is vital to maintain intracellular calcium homeostasis. SERCA2 cysteine 674 (C674) is highly conservative and its irreversible oxidation is upregulated in human and mouse aortic aneurysms, especially in smooth muscle cells (SMCs). The contribution of SERCA2 and its redox C674 in the development of aortic aneurysm remains enigmatic. Objective: Our goal was to investigate the contribution of inactivation of C674 to the development of aortic aneurysm and the mechanisms involved. Approach and results: Using SERCA2 C674S knock-in (SKI) mouse line, in which half of C674 was substituted by serine 674 (S674) to represent partial irreversible oxidation of C674 in aortic aneurysm, we found that in aortic SMCs the replacement of C674 by S674 resulted in SMC phenotypic modulation. In SKI SMCs, the increased intracellular calcium activated calcium-dependent calcineurin, which promoted the nuclear translocation of nuclear factor of activated T-lymphocytes (NFAT) and nuclear factor kappa-B (NFκB), while inhibition of calcineurin blocked SMC phenotypic modulation. Besides, the replacement of C674 by S674 accelerated angiotensin II-induced aortic aneurysm. Conclusions: Our results indicate that the inactivation of C674 by causing the accumulation of intracellular calcium to activate calcineurin-mediated NFAT/NFκB pathways, resulted in SMC phenotypic modulation to accelerate aortic aneurysm, which highlights the importance of C674 redox state in the development of aortic aneurysms.
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