miR-135a Mediates Mitochondrial Oxidative Respiratory Function through SIRT1 to Regulate Atrial Fibrosis

Ding, Tianhang; Zeng, Liyan; Xia, Ying; Zhang, Baojun; Cui, Dongji

doi:10.1159/000536059

Cardiology

2024

DOI: 10.1159/000536059

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miR-135a Mediates Mitochondrial Oxidative Respiratory Function through SIRT1 to Regulate Atrial Fibrosis

Tianhang Ding,

Liyan Zeng,

Ying Xia

et al.

Abstract: Introduction: This study aimed to explore the function of miR-135a in the progress of atrial fibrosis and the mechanism of miR-135a/SIRT1 (sirtuin 1) in human cardiac fibroblasts and mouse cardiac fibroblasts (MCFs) mediating the regulation of atrial fibrosis by mitochondrial oxidative respiration function. Methods: Using Ang II (angiotensin II) to induce fibrosis in HCFs (human corneal fibroblasts) and MCF (Michigan Cancer Foundation,… Show more

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Cited by 2 publications

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Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease

Ma,

Tao,

Wade

et al. 2024

American Journal of Physiology-Renal Physiology

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Positioned at the head of the nephron, the renal corpuscle generates a plasma ultrafiltrate to initiate urine formation. Three major cell types within the renal corpuscle, the glomerular mesangial cells, podocytes, and glomerular capillary endothelial cells communicate via endocrine and paracrine signaling mechanisms to maintain structure and function of the glomerular capillary network and filtration barrier. Ca2+ signaling mediated by several distinct plasma membrane Ca2+ channels modulates the functions of all three cell types. The last two decades have witnessed pivotal advances in understanding of Ca2+ channel function and regulation in glomerular cells, particularly non-voltage gated Ca2+ channels, in health and renal disease. This review summarizes the current knowledge of the physiological and pathological impact of non-voltage gated Ca2+ channel signaling in glomerular capillary endothelium, mesangial cells and podocytes. The main focus is on transient receptor potential and store-operated Ca2+ channels, but ionotropic N-methyl-D-aspartate receptors and purinergic 2X receptors also are discussed. This update of Ca2+ channel functions in the renal corpuscle and their cellular signaling cascades is intended to inform development of therapeutic strategies targeting these channels to treat kidney diseases, particularly diabetic nephropathy.

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Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease

Ma,

Tao,

Wade

et al. 2024

American Journal of Physiology-Renal Physiology

View full text Add to dashboard Cite

show abstract

Cellular and Mitochondrial Pathways Contribute to SGLT2 Inhibitors-mediated Tissue Protection: Experimental and Clinical Data

Sanz,

Menéndez,

Inserra

et al. 2024

CPD

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In metabolic syndrome and diabetes, compromised mitochondrial function emerges as a critical driver of cardiovascular disease, fueling its development and persistence, culminating in cardiac remodeling and adverse events. In this context, angiotensin II - the main interlocutor of the renin-angiotensin-aldosterone system - promotes local and systemic oxidative inflammatory processes. To highlight, the low activity/expression of proteins called sirtuins negatively participates in these processes, allowing more significant oxidative imbalance, which impacts cellular and tissue responses, causing tissue damage, inflammation, and cardiac and vascular remodeling. The reduction in energy production of mitochondria has been widely described as a significant element in all types of metabolic disorders. Additionally, high sirtuin levels and AMPK signaling stimulate hypoxia- inducible factor 1 beta and promote ketonemia. Consequently, enhanced autophagy and mitophagy advance through cardiac cells, sweeping away debris and silencing the orchestra of oxidative stress and inflammation, ultimately protecting vulnerable tissue from damage. To highlight and of particular interest, SGLT2 inhibitors (SGLT2i) profoundly influence all these mechanisms. Randomized clinical trials have evidenced a compelling picture of SGLT2i emerging as game-changers, wielding their power to demonstrably improve cardiac function and slash the rates of cardiovascular and renal events. Furthermore, driven by recent evidence, SGLT2i emerge as cellular supermolecules, exerting their beneficial actions to increase mitochondrial efficiency, alleviate oxidative stress, and curb severe inflammation. Its actions strengthen tissues and create a resilient defense against disease. In conclusion, like a treasure chest brimming with untold riches, the influence of SGLT2i on mitochondrial function holds untold potential for cardiovascular health. Unlocking these secrets, like a map guiding adventurers to hidden riches, promises to pave the way for even more potent therapeutic strategies

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miR-135a Mediates Mitochondrial Oxidative Respiratory Function through SIRT1 to Regulate Atrial Fibrosis

Cited by 2 publications

References 34 publications

Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease

Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease

Cellular and Mitochondrial Pathways Contribute to SGLT2 Inhibitors-mediated Tissue Protection: Experimental and Clinical Data

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About

miR-135a Mediates Mitochondrial Oxidative Respiratory Function through SIRT1 to Regulate Atrial Fibrosis

Cited by 2 publications

References 34 publications

Non-voltage-gated Ca2+ channel signaling in glomerular cells in kidney health and disease

Non-voltage-gated Ca2+ channel signaling in glomerular cells in kidney health and disease

Cellular and Mitochondrial Pathways Contribute to SGLT2 Inhibitors-mediated Tissue Protection: Experimental and Clinical Data

Contact Info

Product

Resources

About

Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease

Non-voltage-gated Ca²⁺ channel signaling in glomerular cells in kidney health and disease