Pathophysiological mechanism and therapeutic role of S100 proteins in cardiac failure: a systematic review

Imbalzano, Egidio; Mandraffino, Giuseppe; Casciaro, Marco; Quartuccio, S.; Saitta, Antonino; Gangemi, Sebastiano

doi:10.1007/s10741-016-9529-8

Cited by 28 publications

(19 citation statements)

References 73 publications

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“…The latest advances in S100 proteins related to heart failure examined by Imbalzano et al . () reported that S100 proteins could be exploited as markers in stadiation and prognosis of chronic heart failure. Also, these proteins, especially S100a1, have emerged as an attractive therapeutic target in failing heart.…”

Section: Discussionmentioning

confidence: 99%

Effect of testosterone supplementation on nitroso‐redox imbalance, cardiac metabolism markers, and S100 proteins expression in the heart of castrated male rats

et al. 2017

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The aim of this study was to investigate the effects of castration and testosterone supplementation on nitroso-redox status, cardiac metabolism markers, and S100 proteins expression in the heart of male rats. 50 male Wistar rats were randomized into five groups with ten animals each: group 1: control intact (CON); group 2: sham operated (Sh-O); group 3: sesame oil-treated rats (S-oil); group 4: gonadoectomized (GDX); and group 5: gonadoectomized rats treated with testosterone (GDX-T) for 8 weeks. Our results showed myofibrillar weaving, apoptosis, inflammation, and fibrosis (as reflected by increased activity of MMP 9 and MMP 2) in the heart of gonadoectomized rats. Testosterone supplementation restored the normal structure of the heart. In addition, a state of nitroso-redox imbalance was observed in the heart of castrated rats with increased NO (425.1 ± 322.8 vs. 208 ± 67.06, p ˂ 0.05) and MDA (33.18 ± 9.45 vs. 22.04 ± 7.13, p ˂ 0.05) and decreased GSH levels (0.71 ± 0.13 vs. 1.09 ± 0.19, p = 0.001). Testosterone treatment leads to a re-establish of only NO levels (425.1 ± 322.8 vs. 210.4 ± 114.3, p > 0.05). Markers of cardiac metabolism showed an enhancement of LDH activity (12725 ± 4604 vs. 5381 ± 3122, p ˂ 0.05) in the heart of castrated rats. This was inversed by testosterone replacement (12725 ± 4604 vs. 5781 ± 5187, p ˂ 0.05). Furthermore, castration induced heart's accumulation of triglycerides (37.24 ± 6.17 vs. 27.88 ± 6.47, p ˂ 0.05) and total cholesterol (61.44 ± 3.59 vs. 54.11 ± 7.55, p ˂ 0.05), which were significantly reduced by testosterone supplementation (29.03 ± 2.47 vs. 37.24 ± 6.17, p ˂ 0.05) and (47.9 ± 4.15 vs. 61.44 ± 3.59, p ˂ 0.001). Cardiomyocytes of castrated rats showed a decreased immunoexpression of S100 proteins compared to control animals. A restoration of S100 proteins immunostaining in cardiomyocyte cytoplasm was observed after testosterone supplementation. These findings confirm the deleterious effects of testosterone deficiency on cardiac function and highlight the involvement of nitric oxide, metalloproteinases 2 and 9, and S100 proteins.

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Section: Discussionmentioning

confidence: 99%

Effect of testosterone supplementation on nitroso‐redox imbalance, cardiac metabolism markers, and S100 proteins expression in the heart of castrated male rats

et al. 2017

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“…It is noted that S100A8/A9 can activate the vascular endothelium and increase endothelial permeability and has been found associated with atherogenesis and cardiovascular disease [37][38][39]. S100A8/A9 complex plasma levels were significantly higher in patients with chronic heart failure [40]. It is suggested that serum S100A8/A9 was shown to be associated with the severity of CAD in patients with diabetes mellitus [41,42].…”

Section: Fei Long Et Al Hub Genes In Coronary Artery Diseasementioning

confidence: 99%

Screening hub genes in coronary artery disease based on integrated analysis

Long

Yang

et al. 2018

Cardiol J.

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“…SERCA2a activity can also be regulated by S100A1, which is a small protein highly expressed in the human heart. S100A1 influences Ca 2+ cycling through interacting with SERCA2a and PLN, RyR, as well as mitochondrial F1-ATPase activity 36. S100A1 can increase SERCA2a activity and thereby enhancing cardiac contractility 37.…”

Section: Serca2a Is a Target Of Interest For Treating Hfrefmentioning

confidence: 99%

New insights into SERCA2a gene therapy in heart failure: pay attention to the negative effects of B-type natriuretic peptides

Zhai

Luo

et al. 2018

J Med Genet

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Sarcoplasmic/endoplasmic reticulum calcium ATPase 2a (SERCA2a) is a target of interest in gene therapy for heart failure with reduced ejection fraction (HFrEF). However, the results of an important clinical study, the Calcium Upregulation by Percutaneous Administration of Gene Therapy in Cardiac Disease (CUPID) trial, were controversial. Promising results were observed in the CUPID 1 trial, but the results of the CUPID 2 trial were negative. The factors that caused the controversial results remain unclear. Importantly, enrolled patients were required to have a higher plasma level of B-type natriuretic peptide (BNP) in the CUPID 2 trial. Moreover, BNP was shown to inhibit SERCA2a expression. Therefore, it is possible that high BNP levels interact with treatment effects of SERCA2a gene transfer and accordingly lead to negative results of CUPID 2 trial. From this point of view, effects of SERCA2a gene therapy should be explored in heart failure with preserved ejection fraction, which is characterised by lower BNP levels compared with HFrEF. In this review, we summarise the current knowledge of SERCA2a gene therapy for heart failure, analyse potential interaction between BNP levels and therapeutic effects of SERCA2a gene transfer and provide directions for future research to solve the identified problems.

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Pathophysiological mechanism and therapeutic role of S100 proteins in cardiac failure: a systematic review

Cited by 28 publications

References 73 publications

Effect of testosterone supplementation on nitroso‐redox imbalance, cardiac metabolism markers, and S100 proteins expression in the heart of castrated male rats

Effect of testosterone supplementation on nitroso‐redox imbalance, cardiac metabolism markers, and S100 proteins expression in the heart of castrated male rats

Screening hub genes in coronary artery disease based on integrated analysis

New insights into SERCA2a gene therapy in heart failure: pay attention to the negative effects of B-type natriuretic peptides

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