Ultrastructure analysis of mitochondria, lipid droplet and sarcoplasmic reticulum apposition in human heart failure

Background

Cardiomyocyte structural remodeling is reported as a causal contributor to heart failure (HF) development and progression. Growing evidence highlights the role of organelle apposition in cardiomyocyte function and homeostasis. Disruptions in organelle crosstalk, such as that between the sarcoplasmic reticulum (SR) and mitochondria, are thought to impact numerous cellular processes such as calcium handling and cellular bioenergetics; two processes that are disrupted and implicated in cardiac pathophysiology. While the physical distance between organelles is thought to be essential for homeostatic cardiomyocyte function, whether the interactions and coupling of organelles are altered in human heart failure remains unclear.

Methods

Here, we utilized transmission electron microscopy and careful quantification of ultrastructure to characterize the changes in organelle apposition in cardiomyocytes isolated from the hearts of patients diagnosed with various types of HF. Subsequently we employed molecular approaches to examine the expression of proposed organelle tethers.

Results

We demonstrate that cardiomyocytes isolated from dilated cardiomyopathy, hypertrophic cardiomyopathy and ischemic cardiomyopathy hearts display smaller, more rounded mitochondria, as compared to nonfailing controls. Failing cardiomyocytes also exhibited disrupted SR-mitochondria juxtaposition and changes in the expression of proposed molecular tethers. Further analysis revealed alterations in lipid droplet dynamics including decreased lipid droplet content and less lipid droplets in association with mitochondria in failing cardiomyocytes.

Conclusion

Here we observed changes in organelle dynamics in cardiomyocytes isolated from heart failure patients diagnosed with differing etiologies. Our results suggest that organelle structure and apposition may be a ubiquitous contributor to human HF progression.

RESEARCH PERSPECTIVE

What is New?

• We provide a detailed analysis of organelle apposition in human heart failure, which has been understudied, and report that that failing human cardiomyocytes display an increase in distance between mitochondria and both the sarcoplasmic reticulum and lipid droplets.

• Structural changes in organelles are correlated with the expression of proposed organelle tethers.

• Resource of ultrastructural changes in organelle apposition in human heart failure resulting from various etiologies.

What Questions Should be Addressed next?

• The results from this study provide rationale for causal experimentation to elucidate the contribution of organelle apposition to the progression of heart failure. Future studies examining mechanisms of mitochondrial tethering to the SR or lipid droplet will evaluate specific targets for therapeutic application.