Elevated levels of Letm1 drives mitochondrial dysfunction and cardiomyocyte stress-mediated apoptosis in cultured cardiomyocytes

Elevated levels of Letm1 drives mitochondrial dysfunction and cardiomyocyte stress-mediated apoptosis in cultured cardiomyocytes

Abstract Background Cardiac ischemia, a predominant cause of heart failure, is marked by profound mitochondrial dysfunction, dysregulated ion homeostasis, and maladaptive cellular remodeling, all of which compromise cardiac performance. The mitochondrial inner membrane protein Leucine zipper-EF-hand...

Full description

Saved in:

Bibliographic Details
Main Authors:	Anushka Deshpande, Leo Weirauch, Tapan Kumar Baral, Marco Steier, Ankush Borlepawar, Manju Kumari, Lucia S. Kilian, Karsten Richter, Elke Hammer, Derk Frank, Constanze Schmidt, Norbert Frey, Ashraf Y. Rangrez
Format:	Article
Language:	English
Published:	BMC 2025-08-01
Series:	Cell Communication and Signaling
Subjects:	Letm1 Mitochondrial metabolism Cardiomyocytes Hypertrophy Arrhythmias
Online Access:	https://doi.org/10.1186/s12964-025-02378-7
Tags:	Add Tag No Tags, Be the first to tag this record!

Similar Items

Effect of preterm birth in rats on proliferation and hyperplasia of cardiomyocytes
by: V. V. Ivanova, et al.
Published: (2023-01-01)

LETM1 couples mitochondrial DNA metabolism and nutrient preference
by: Romina Durigon, et al.
Published: (2018-07-01)

TRIM24 regulates chromatin remodeling and calcium dynamics in cardiomyocytes
by: Marco Neu, et al.
Published: (2025-07-01)

Correction: TRIM24 regulates chromatin remodeling and calcium dynamics in cardiomyocytes
by: Marco Neu, et al.
Published: (2025-07-01)

Homocysteine promotes cardiomyocyte hypertrophy through inhibiting β-catenin/ FUNDC1 mediated mitophagy
by: Yanping Lei, et al.
Published: (2025-07-01)

Exercise enhances cardiomyocyte mitochondrial homeostasis to alleviate left ventricular dysfunction in pressure overload induced remodelling
by: Zhichao Ma, et al.
Published: (2025-04-01)

Endogenous RBM4 prevents Ang II-induced cardiomyocyte hypertrophy via downregulating the expression of PTBP1
by: Sun Weihan, et al.
Published: (2024-08-01)

Distinct morphometric features of cardiomyocytes isolated from mouse hypertrophy models: An ImageJ analysis combined with machine learning algorithms
by: Hoang Duc Minh Pham, et al.
Published: (2025-06-01)

Uric acid-induced cardiomyocytic polyamines’ insufficience: a potential mechanism mediates cardiomyocytic injury
by: Cuiting Lin, et al.
Published: (2025-04-01)

Cardiomyocyte‐Enriched USP20 Ameliorates Pathological Cardiac Hypertrophy by Targeting STAT3 Deubiquitination
by: Lingfeng Zhong, et al.
Published: (2025-06-01)

CDX1 improves nicotine induced cardiac fibroblasts activation and cardiomyocyte hypertrophy by alleviating autophagic flux impairment through modulation of LAPTM4B
by: Yue-yan Li, et al.
Published: (2025-03-01)

Cardiomyocyte‐Specific Overexpression of Activated Yes‐Associated Protein Modified‐RNA Promotes Cardiomyocyte Proliferation and Myocardial Regeneration
by: Yongyu Wang, et al.
Published: (2024-11-01)

Lipid exposure leads to metabolic dysfunction in fetal sheep cardiomyocytes
by: Natasha N. Chattergoon, et al.
Published: (2025-05-01)

Nanoplastics induces arrhythmia in human stem-cells derived cardiomyocytes
by: Shirley Pei Shan Chia, et al.
Published: (2025-01-01)

An Integrated Optogenetic and Bioelectronic Platform for Regulating Cardiomyocyte Function
by: Olurotimi A. Bolonduro, et al.
Published: (2024-09-01)

Impact of hyperbilirubinemia on rat cardiomyocyte injury
by: Jiajia Zhao, et al.
Published: (2025-05-01)

Cardiac endothelial cells and cardiomyocytes alter their communication properties in diabetic mice
by: Yan Wen, et al.
Published: (2025-04-01)

miRNA Expression: I/R Cardiomyocyte and Sevoflurane
by: José Luis Guerrero-Orriach, et al.
Published: (2024-12-01)

Cell cycle arrest of cardiomyocytes in the context of cardiac regeneration
by: Qingling Xu, et al.
Published: (2025-04-01)

Single Nanocrown Electrodes for High‐Quality Intracellular Recording of Cardiomyocytes
by: Ching‐Ting Tsai, et al.
Published: (2025-07-01)

Matured hiPSC-derived cardiomyocytes possess dematuration plasticity
by: Fang Meng, et al.
Published: (2025-06-01)

The Contractile Function of Ventricular Cardiomyocytes Is More Sensitive to Acute 17β-Estradiol Treatment Compared to Atrial Cardiomyocytes
by: Tatiana A. Myachina, et al.
Published: (2025-04-01)

Right ventricular volume overload reboots cardiomyocyte proliferation via immune responses
by: Chunxia Zhou, et al.
Published: (2024-11-01)

Generation and purification of iPSC-derived cardiomyocytes for clinical applications
by: M. Generali, et al.
Published: (2025-04-01)

Induced Mitophagy Promotes Cell Cycle Re-Entry in Adult Cardiomyocytes
by: Rafeeq P. H. Ahmed, et al.
Published: (2025-06-01)

Autophagy fine-tuning by angiotensin-(1-9) in cultured rat cardiomyocytes
by: Mario Bustamante, et al.
Published: (2025-03-01)

Respiration in isolated cardiomyocytes and microviscosity of their membranes in rats of different ages with heart failure
by: V. A. Korepanov, et al.
Published: (2023-04-01)

Reprogramming‐derived gene cocktail increases cardiomyocyte proliferation for heart regeneration
by: Yuan‐Yuan Cheng, et al.
Published: (2016-12-01)

Cardiomyocyte proliferation: Advances and insights in macrophage-targeted therapy for myocardial injury
by: Tao Wang, et al.
Published: (2025-05-01)

Loss of Snord116 protects cardiomyocyte kinetics during ischemic stress
by: Lucy E. Pilcher, et al.
Published: (2025-03-01)

Electrophysiological properties and calcium handling of embryonic stem cell-derived cardiomyocytes
by: Jae Boum Youm
Published: (2016-03-01)

Metabolic Control of Cardiomyocyte Cell Cycle
by: Ivan Menendez-Montes, et al.
Published: (2023-11-01)

Metabolic reprogramming via mitochondrial delivery for enhanced maturation of chemically induced cardiomyocyte‐like cells
by: Yena Nam, et al.
Published: (2024-12-01)

Brg1 and RUNX1 synergy in regulating TRPM4 channel in mouse cardiomyocytes
by: Tao Ban, et al.
Published: (2024-12-01)

DISTURBANCE OF THE CARDIOMYOCYTE’S MACROMOLECULAR STRUCTURE IN HEART ALLOGRAFTS AS A SIGN OF CHRONIC REJECTION
by: A. G. Kupriyanova, et al.
Published: (2012-12-01)

Concurrent training and intermittent fasting reduce transverse cross-sectional area of cardiomyocytes and body mass in Wistar rats
by: Henrique Izaias Marcelo, et al.
Published: (2025-07-01)

Ctnna3 Deficiency Promotes Heart Regeneration by Enhancing Cardiomyocyte Proliferation in Neonatal Mice
by: Sha Zou, et al.
Published: (2025-07-01)

Protective effects of Apelin-13 on nicotine-induced H9c2 cardiomyocyte apoptosis and oxidative stress
by: Can Xu, et al.
Published: (2025-03-01)

Electronic and regular cigarettes induce transcriptional and physiological changes in cardiomyocytes
by: Hesham Basma, et al.
Published: (2025-07-01)

Role of PDE4 Family in Cardiomyocyte Physiology and Heart Failure
by: Ivan Sherstnev, et al.
Published: (2025-03-01)