Heart Failure–Related Hyperphosphorylation in the Cardiac Troponin I C Terminus Has Divergent Effects on Cardiac Function In Vivo

Li, Yuejin; Zhu, Guangshuo; Paolocci, Nazareno; Zhang, Pingbo; Takahashi, Cyrus; Okumus, Nazli; Heravi, Amir S.; Keceli, Gizem; Ramírez-Correa, Genaro A.; Kass, David A.; Murphy, Anne M.

doi:10.1161/circheartfailure.117.003850

Cited by 9 publications

(6 citation statements)

References 40 publications

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“…In the model of HOCl-induced oxidative damage, EA can reduce the damage to vascular endothelial function in WT mice, but it cannot protect the vascular endothelial tissues in Nrf2 knockout mice. This result further confirmed that Nrf2 is a key protein involved in the antioxidant effect of EA [21,22]. By investigating the effect of EA on AS in mice, this study showed that EA exerted a protective effect against stroke and atherosclerosis in humans.…”

Section: Detection Of Vasodilation Functions In Micesupporting

confidence: 73%

Protective Effect of Ellagic Acid in Vascular Epoxidation Damage in a Murine Model of Atherosclerosis

Xiong¹

2019

FARMACIA

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In order to explore the mechanism underlying the protective effect of ellagic acid (EA) against vascular dysfunction and oxidative damage in vascular endothelial cells, a high-fat diet (HFD) murine model was established using 32 ApoE -/mice and 32 wild type C57BL/6 mice (WT). The degree of atherosclerosis, blood biochemical parameters, the expression of nitric oxide synthase (NOS), the expression of Nrf2 (nuclear factor (erythroid derived 2) like 2) and HO-1 (heme oxygenase-1) proteins were analysed. In addition, the protective effect of EA against oxidative damage in mouse vascular endothelia was studied by detecting the relaxation status of vascular endothelia. The results showed that the plaque area of atherosclerosis decreased significantly in mice treated with EA by increasing the expression of Nrf2 and HO-1 in blood vessels. The level of Nrf2 and HO-1 proteins in the arteries of WT mice and ApoE -/mice treated with EA were significantly increased, suggesting that EA improves vasodilation by increasing Nrf2 expression. RezumatPentru a studia mecanismul care stă la baza efectului protector al acidului ellagic (EA) asupra disfuncției vasculare și a leziunii oxidative în celulele endoteliale vasculare, a fost utilizat un model murin cu dietă bogată în grăsimi (HFD) folosind 32 de șoareci ApoE -/și 32 de șoareci tip C57BL/6 (WT). A fost analizat gradul de ateroscleroză, parametrii biochimici, expresia nitric oxid sintazei (NOS), expresia Nrf2 (factorul nuclear 2) și HO-1 (hem oxigenază-1). În plus, efectul protector al EA împotriva degradării oxidative în endoteliul vascular a fost studiat prin detectarea stării de relaxare a acestuia. Rezultatele au arătat că zona plăcii de ateroscleroză a scăzut semnificativ la șoarecii tratați cu EA prin creșterea expresiei Nrf2 și HO-1 în vasele de sânge. Nivelul proteinelor Nrf2 și HO-1 din arterele șoarecilor WT și ApoE -/tratați cu EA a fost semnificativ crescut, sugerând că EA îmbunătățește vasodilatația prin creșterea expresiei Nrf2.

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Section: Detection Of Vasodilation Functions In Micesupporting

confidence: 73%

Protective Effect of Ellagic Acid in Vascular Epoxidation Damage in a Murine Model of Atherosclerosis

Xiong¹

2019

FARMACIA

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“…Neonatal rat ventricular myocyte studies. Neonatal rat hearts were isolated from 0-1-day-old Sprague-Dawley rat pups (Charles River Laboratories), placed in icecold Krebs-Henseleit Buffer (KHB) 56 , and rinsed twice. Next, the atria were removed, and the isolated ventricles were digested in 37°C KHB supplemented with 1 g:100 mL collagenase type-II (Worthington) and 0.05% trypsin with intermittent stirring.…”

Section: Methodsmentioning

confidence: 99%

Cardiomyocyte contractile impairment in heart failure results from reduced BAG3-mediated sarcomeric protein turnover

et al. 2021

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The association between reduced myofilament force-generating capacity (Fmax) and heart failure (HF) is clear, however the underlying molecular mechanisms are poorly understood. Here, we show impaired Fmax arises from reduced BAG3-mediated sarcomere turnover. Myofilament BAG3 expression decreases in human HF and positively correlates with Fmax. We confirm this relationship using BAG3 haploinsufficient mice, which display reduced Fmax and increased myofilament ubiquitination, suggesting impaired protein turnover. We show cardiac BAG3 operates via chaperone-assisted selective autophagy (CASA), conserved from skeletal muscle, and confirm sarcomeric CASA complex localization is BAG3/proteotoxic stress-dependent. Using mass spectrometry, we characterize the myofilament CASA interactome in the human heart and identify eight clients of BAG3-mediated turnover. To determine if increasing BAG3 expression in HF can restore sarcomere proteostasis/Fmax, HF mice were treated with rAAV9-BAG3. Gene therapy fully rescued Fmax and CASA protein turnover after four weeks. Our findings indicate BAG3-mediated sarcomere turnover is fundamental for myofilament functional maintenance.

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“…Muscle contraction and its molecular motor myosin are regulated through the phosphorylation of cardiomyocyte cytoskeletal proteins, such as the regulatory myosin light chain (MLC2). Decreased levels of phosphorylated MLC2 (MLC2-P) have been observed in HF [19,20]. HF top-down quantitative proteomics has identi ed the phosphorylation of cardiac troponin I (cTnI) as a candidate biomarker for chronic HF [21].…”

Section: Discussionmentioning

confidence: 99%

Genomic and RNA-Seq Profiling of Patients with Heart Failure Identified Alterations in Phosphorylation and Immune Signaling Pathways

Zhang¹,

Li²,

Xu³

et al. 2021

Preprint

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Background: Heart failure (HF) is a complex pathophysiological state in which the delivery of blood and nutrients to the tissues is inadequate. It is rarely curable and often associated with poor prognosis. The current study aimed to analyze the exomic and RNA-Seq data of patients with HF to identify the key altered pathways. Methods: Heart failure participants were recruited, and whole blood samples were collected. The samples were used for whole exome sequencing and RNA-Seq analysis. Gene expression and RNA-Seq results were verified by Gene chips and RT-PCRResults: We report a dysregulation of phosphorylation and immune signaling in patients with HF both by exomic and RNA-Seq data. We identified mutations in TITIN,OBSCURIN, NOD2, CDH2, MAP3K5, and SLC17A4 to be associated with HF by exomic analysis. And certain genes, S100A12, S100A8, S100A9, PFDN5, and TMCC2, were found upregulated in patients with HF by RNA-Seq. Conlcusion: Our results demonstrated the overall disruption of key phosphorylation and immune signaling pathways in patients with HF.

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Heart Failure–Related Hyperphosphorylation in the Cardiac Troponin I C Terminus Has Divergent Effects on Cardiac Function In Vivo

Cited by 9 publications

References 40 publications

Protective Effect of Ellagic Acid in Vascular Epoxidation Damage in a Murine Model of Atherosclerosis

Protective Effect of Ellagic Acid in Vascular Epoxidation Damage in a Murine Model of Atherosclerosis

Cardiomyocyte contractile impairment in heart failure results from reduced BAG3-mediated sarcomeric protein turnover

Genomic and RNA-Seq Profiling of Patients with Heart Failure Identified Alterations in Phosphorylation and Immune Signaling Pathways

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