Structural Analysis of Mitochondria in Cardiomyocytes: Insights into Bioenergetics and Membrane Remodeling

• Published in: Current Issues in Molecular Biology Vol. 45; no. 7; pp. 6097 - 6115
• Main Authors: Adams, Raquel A, Liu, Zheng, Hsieh, Chongere, Marko, Michael, Lederer, W Jonathan, Jafri, M Saleet, Mannella, Carmen
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.07.2023; MDPI
• Subjects: Analysis; cardiomyocytes; Computer industry; cristae; electron microscopy; Heart cells; membrane remodeling; mitochondria; myofibrils; United States; cardiomyocytes; cristae; membrane remodeling; mitochondria; myofibrils; electron microscopy; electron tomography
• ISSN: 1467-3045; 1467-3037; 1467-3045
• DOI: 10.3390/cimb45070385

Mitochondria in mammalian cardiomyocytes display considerable structural heterogeneity, the significance of which is not currently understood. We use electron microscopic tomography to analyze a dataset of 68 mitochondrial subvolumes to look for correlations among mitochondrial size and shape, crista morphology and membrane density, and organelle location within rat cardiac myocytes. A tomographic analysis guided the definition of four classes of crista morphology: lamellar, tubular, mixed and transitional, the last associated with remodeling between lamellar and tubular cristae. Correlations include an apparent bias for mitochondria with lamellar cristae to be located in the regions between myofibrils and a two-fold larger crista membrane density in mitochondria with lamellar cristae relative to mitochondria with tubular cristae. The examination of individual cristae inside mitochondria reveals local variations in crista topology, such as extent of branching, alignment of fenestrations and progressive changes in membrane morphology and packing density. The findings suggest both a rationale for the interfibrillar location of lamellar mitochondria and a pathway for crista remodeling from lamellar to tubular morphology.