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1. Electrophysiological insights into the relationship between calcium dynamics and cardiomyocyte beating function in chronic hemodialysis treatment

   For patients in which the Ca ²⁺ concentration of dialysis fluid is lower than that in plasma, chronic hemodialysis treatment often leads to cardiac...

   Hiroyuki Hamada, Tadashi Tomo, ... Akihiro C. Yamashita in Journal of Artificial Organs

   Article 10 September 2020
   

2. Intracellular O-linked glycosylation directly regulates cardiomyocyte L-type Ca²⁺ channel activity and excitation–contraction coupling

   Cardiomyocyte L-type Ca ²⁺ channels (Ca _v s) are targets of signaling pathways that modulate channel activity in response to physiologic stimuli. Ca _v ...

   Andrew R. Ednie, Eric S. Bennett in Basic Research in Cardiology

   Article 10 September 2020
   

3. Reprogramming of Non-myocytes into Cardiomyocyte-like Cells: Challenges and Opportunities

   Purpose of Review

   The high global incidence of heart disease drives the need for methods of mending damaged hearts. Direct reprogramming of cardiac...

   Gregory Farber, Li Qian in Current Cardiology Reports

   Article 19 June 2020

4. A fatty acid from mother’s milk drives cardiomyocyte maturation in newborn mice

   Irene Fernández-Ruiz in Nature Reviews Cardiology

   Article 06 June 2023

5. DEAD-box helicase 17 (DDX17) protects cardiac function by promoting mitochondrial homeostasis in heart failure

   DEAD-box helicase 17 (DDX17) is a typical member of the DEAD-box family with transcriptional cofactor activity. Although DDX17 is abundantly...

   Ming**g Yan, Junpeng Gao, ... Tao Shen in Signal Transduction and Targeted Therapy

   Article Open access 24 May 2024
   

6. Thrombospondin 1 and Reelin act through Vldlr to regulate cardiac growth and repair

   Adult mammalian cardiomyocytes have minimal cell cycle capacity, which leads to poor regeneration after cardiac injury such as myocardial infarction....

   Lijuan Pei, Zhaohui Ouyang, ... Ke Wei in Basic Research in Cardiology

   Article 26 December 2023
   

7. Cardiomyocyte microvesicles: proinflammatory mediators after myocardial ischemia?

   Myocardial infarction is a frequent complication of cardiovascular disease leading to high morbidity and mortality worldwide. Elevated C-reactive...

   Patrick Malcolm Siegel, Judith Schmich, ... Philipp Diehl in Journal of Thrombosis and Thrombolysis

   Article Open access 14 June 2020
   

8. Cardiac-specific methylation patterns of circulating DNA for identification of cardiomyocyte death

   Background

   Correct detection of human cardiomyocyte death is essential for definitive diagnosis and appropriate management of cardiovascular diseases....

   Qin Liu, Jian Ma, ... Liang Zhang in BMC Cardiovascular Disorders

   Article Open access 29 June 2020
   

9. METTL14-mediated N6-methyladenosine modification induces the ferroptosis of hypoxia/reoxygenation-induced cardiomyocytes

   Background

   Hypoxia/reoxygenation (H/R) induces cardiomyocyte ferroptosis, a core remodeling event in myocardial ischemia/reperfusion injury....

   Chunyu Zhao, Jianing Li in Journal of Cardiothoracic Surgery

   Article Open access 25 April 2024
   

10. Exercise training decreases lactylation and prevents myocardial ischemia–reperfusion injury by inhibiting YTHDF2

    Exercise improves cardiac function and metabolism. Although long-term exercise leads to circulating and micro-environmental metabolic changes, the...

    Gui-e Xu, Pujiao Yu, ... Junjie **ao in Basic Research in Cardiology

    Article 02 April 2024
    

11. Non-cell-autonomous manner of AAV administration to attenuate cardiomyocyte hypertrophy by targeting paracrine signaling on ECM to reduce viral dosage

    Lei Liu, Peng Yue, ... Yifei Li in Signal Transduction and Targeted Therapy

    Article Open access 03 January 2022
    

12. LncRNAMORT is upregulated in myocardial infarction and promotes the apoptosis of cardiomyocyte by downregulating miR-93

    Background

    Myocardial infarction (MI) affects the expression of a large number of lncRNAs, while the functions of those dysregulated lncRNAs are...

    **g Lv, Yi Zhu, Shanglong Yao in BMC Cardiovascular Disorders

    Article Open access 25 May 2020
    

13. Cardiomyocyte-derived calcitonin regulates atrial fibrosis and AF

    Irene Fernández-Ruiz in Nature Reviews Cardiology

    Article 16 November 2020

14. Regeneration of the heart: from molecular mechanisms to clinical therapeutics

    Heart injury such as myocardial infarction leads to cardiomyocyte loss, fibrotic tissue deposition, and scar formation. These changes reduce cardiac...

    Qian-Yun Guo, Jia-Qi Yang, ... Yu-Jie Zhou in Military Medical Research

    Article Open access 26 April 2023
    

15. Novel GSDMD inhibitor GI-Y1 protects heart against pyroptosis and ischemia/reperfusion injury by blocking pyroptotic pore formation

    Activation of gasdermin D (GSDMD) and its concomitant cardiomyocyte pyroptosis are critically involved in multiple cardiac pathological conditions....

    Lingfeng Zhong, Jibo Han, ... Bozhi Ye in Basic Research in Cardiology

    Article 02 October 2023
    

16. Effects of obstructive sleep apnea on myocardial injury and dysfunction: a review focused on the molecular mechanisms of intermittent hypoxia

    Obstructive sleep apnea (OSA) is characterized by intermittent hypoxia (IH) and is strongly associated with adverse cardiovascular outcomes....

    Wen Liu, Qing Zhu, ... Chunyan Ma in Sleep and Breathing

    Article 07 August 2023
    

17. MLKL-mediated necroptosis is a target for cardiac protection in mouse models of type-1 diabetes

    Background

    Cardiomyocyte death contributes to cardiac pathology of diabetes. Studies have shown that the RIPK3/MLKL necroptosis signaling is activated...

    Ting Cao, Rui Ni, ... Tianqing Peng in Cardiovascular Diabetology

    Article Open access 27 August 2022
    

18. Pro-fibrotic and apoptotic activities of circARAP1 in myocardial ischemia–reperfusion injury

    Reperfusion modality can cause damage to cardiomyocytes, known as myocardial ischemia–reperfusion injury (MI/RI). Circular RNAs (circRNAs) are...

    ** Li, Lei Guo, ... **ng Yang in European Journal of Medical Research

    Article Open access 20 February 2023
    

19. Transmembrane protein 117 knockdown protects against angiotensin-II-induced cardiac hypertrophy

    Mitochondrial dysfunction plays a critical role in the pathogenesis of pathological cardiac hypertrophy. Transmembrane protein 117 modulate...

    Yi Yang, **nquan Wang, ... Peijian Wang in Hypertension Research

    Article Open access 24 July 2023
    

20. The Role and Potential Mechanisms of Rehabilitation Exercise Improving Cardiac Remodeling

    Rehabilitation exercise is a crucial non-pharmacological intervention for the secondary prevention and treatment of cardiovascular diseases,...

    Haizhu Gao, Zhongxin Li, ... Xueying Chen in Journal of Cardiovascular Translational Research

    Article 01 April 2024