Protein kinase C promotes cardiac fibrosis and heart failure by modulating galectin-3 expression

Song, Xiang; Qian, Xiaoqian; Shen, Ming; Jiang, Rong; Wagner, Mary B.; Ding, Guoliang; Chen, Guangping; Shen, Baogen

doi:10.1016/j.bbamcr.2014.12.001

Cited by 72 publications

(60 citation statements)

References 38 publications

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“…Galectin-3 expression could be increased by PKC activation, which leads to collagen I and fibronection accumulation in cardiomyocytes. The regulation of collagen production indicates that galectin-3 can mediate PKC-induced cardiac fibrosis in heart failure [29].…”

Section: Galectin-3mentioning

confidence: 99%

Biomarkers in patients with myocardial fibrosis

Yang

Zheng

et al. 2017

Open Life Sciences

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Section: Galectin-3mentioning

confidence: 99%

Biomarkers in patients with myocardial fibrosis

Yang

Zheng

et al. 2017

Open Life Sciences

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“…Consistent with this result, we found that the TGF-β1/α-SMA/Col I pathway was induced in neonatal rat cardiac fibroblasts by Gal-3-enriched conditioned HL-1 culture media, and further confirmed the role of Gal-3 in fibroblast differentiation and proliferation with recombinant human Gal-3 protein treatment, both at 10 and 30 μg/mL; exogenous Gal-3 activated the profibrotic pathway and induced fibroblast proliferation, as detected by CCK-8. All of these results led us to the conclusion that although cardiomyocytes barely express Gal-3 under physiological conditions [9], under pathological conditions, cardiomyocytes may also act as an alternative source of Gal-3 [23,24], inducing fibroblasts to synthesize collagen and other pro-fibrotic components of the extracellular matrix.…”

Section: Discussionmentioning

confidence: 99%

“…However, some also reported that Gal-3 is expressed in ventricular myocytes in a pressure-overloaded remodeling heart model and that a high density of Gal-3-positive myocytes is related to abnormalities in remodeling and heart function [23]. Furthermore, HL-1 cells have been demonstrated to express Gal-3 at baseline and remarkably induce its expression following protein kinase C activation, indicating that cardiomyocytes may also act as a source of Gal-3 in the heart [24] and possibly be greatly induced in pathological conditions. Moreover, it has long been verified that rapidly-paced cardiomyocytes release substances that profoundly alter cardiac fibroblast function, although without identification of candidate molecules contributing to this effect [25].…”

Section: Discussionmentioning

confidence: 99%

Activation of TGF-β1/α-SMA/Col I Profibrotic Pathway in Fibroblasts by Galectin-3 Contributes to Atrial Fibrosis in Experimental Models and Patients

Shen

Wang

Min

et al. 2018

Cell Physiol Biochem

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Background/Aims: This study aimed to evaluate whether galectin-3 (Gal-3) contributes actively to atrial fibrosis both in patients and experimental atrial fibrillation (AF) models. Methods: Mouse HL-1 cardiomyocytes were subjected to rapid electrical stimulation (RES) to explore Gal-3 expression and secretion levels by western blotting (WB) and enzyme linked immunosorbent assay (ELISA). Neonatal rat cardiac fibroblasts were treated with conditioned culture medium and recombinant human Gal-3 to evaluate the activation of the transforming growth factor (TGF)-β1/α-smooth muscle actin (SMA)/collagen I (Col I) profibrotic pathway (WB) and fibroblast proliferation with a Cell Counting Kit-8 (CCK-8). Furthermore, in the rapid atrial pacing (RAP) rabbit AF model, atrial Gal-3 expression and its effects on the profibrotic pathway were evaluated (WB and Masson’s trichrome staining). Moreover, 44 consecutive patients who underwent single mitral valve repair/replacement were included, consisting of 28 patients with persistent AF (PeAF) and 16 with sinus rhythm (SR). Coronary sinus blood was also sampled to test circulating Gal-3 levels (ELISA), and atrial myocardium Gal-3 and its downstream TGF-β1/α-SMA pathway were also measured by WB and immunohistochemical staining. Results: Gal-3 expression in HL-1 cells and its secretion level in culture medium were greatly increased after 24 h RES. Treatment of neonatal rat cardiac fibroblasts with conditioned media collected from the RES group or recombinant human Gal-3 protein (10 and 30 µg/mL) for 72 h induced the activation of the TGF-β1/α-SMA/Col I profibrotic pathway. RAP increased Gal-3 levels and activated the TGF-β1/α-SMA/Col I pathway in rabbit left atria, while the Gal-3 inhibitor N-acetyllactosamine, injected at 4.5 mg/kg every 3 days, mitigated these adverse changes. Furthermore, Gal-3 levels in coronary sinus blood samples and myocardial Gal-3 expression levels were higher in the PeAF patients than in the SR patients, and higher level profibrotic pathway activation was also confirmed. Conclusions: Activation of Gal-3 expression in the atria can subsequently activate the TGF-β1/α-SMA/Col I pathway in cardiac fibroblasts, which may enhance atrial fibrosis.

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“…Significant upregulation of MMP-8 gene expression in carotid plaque tissue was observed in patients carrying haplotype G(-381)T(-799) of two MMP-8 promoter polymorphisms rs11225395 (-799 C/T) and rs1320632 (-381 A/G) [82]. Recently, it was shown that Ang II treatment in vitro causes increased collagen I synthesis and galectin-3 (Gal-3) expression in mouse HL-1 cardiomyocytes via protein kinase Calpha (PKC-α) pathway [83]. Gal-3 is involved in all processes active in atherosclerosis: cell adhesion, cell activation and chemoattraction, cell growth and differentiation [84].…”

Section: Role Of Ras In Atherosclerosis Progression and Acute Complicmentioning

confidence: 99%

Involvement of the Renin‐Angiotensin System in Atherosclerosis

Kolaković¹,

Živković²,

Stanković³

2017

Renin-Angiotensin System - Past, Present and Future

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The renin-angiotensin system (RAS) is a well known for its role in the regulation of the blood pressure (BP). Angiotensin II (Ang II), the main mediator of the RAS, may act either, as a systemic molecule or a locally produced factor. Within the vessel wall it has significant proinflammatory role by inducing the oxidative stress, secretion of inflammatory cytokines and adhesion molecules. Ang II could trigger proliferation of vascular smooth muscle cells (VSMC) and its migration to the outer layer of the vessel wall. It could induce the release of matrix metalloproteinase (MMPs), from human VSMC and thus increase susceptibility to rupture of atherosclerotic lesions. Binding of Ang II to AT1R/AT2R could have opposing actions in vascular injury. The ACE2/Ang (1-7)/Mas axis of the RAS also opposes the unfavourable actions of ACE/Ang II/ATR1 axis. Inhibition of RAS could reduce inflammation-associated processes in vasculature, independently of lowering BP. RAS is significantly modulated by the genes coding for this system. Certain genetic variants (SNPs) in the RAS genes have been denoted as the functional ones and have been associated with hypertension, cardiovascular phenotypes and atherosclerosis. Also, the genetic components of the RAS interfere with the regulators of gene expression by microRNAs (miRs).

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Protein kinase C promotes cardiac fibrosis and heart failure by modulating galectin-3 expression

Cited by 72 publications

References 38 publications

Biomarkers in patients with myocardial fibrosis

Biomarkers in patients with myocardial fibrosis

Activation of TGF-β1/α-SMA/Col I Profibrotic Pathway in Fibroblasts by Galectin-3 Contributes to Atrial Fibrosis in Experimental Models and Patients

Involvement of the Renin‐Angiotensin System in Atherosclerosis

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