BACKGROUND

Cardiac AL and ATTR are potentially fatal cardiomyopathies. Current therapies do not address mechanisms of tissue dysfunction because these remain unknown. Our prior work focused on the amyloid plaque proteome, which may not capture tissue-wide proteomic alterations.

OBJECTIVES

To evaluate mechanisms of tissue dysfunction in cardiac AL and ATTR using a full biopsy tissue proteomics approach.

METHODS

We performed proteomics analysis on 76 ATTR and 27 AL diagnostic endomyocardial biopsies.

RESULTS

Stage-3 AL patients exhibited increased coagulation, extracellular matrix remodelling (ECM), epithelial-to-mesenchymal transition (EMT), complement activation, hypoxia, and clathrin-mediated endocytosis pathways stages-1/2, with decreased healthy cardiac metabolism. In stages-2 and 3 ATTR, immunoglobulin proteins, complement, and keratinisation pathways were increased compared to stage-1. Unsupervised analyses identified an ATTR group with worse survival characterised by upregulated complement and downregulated metabolic pathways. Compared to ATTR, AL had higher clathrin-mediated endocytosis, mRNA splicing, and ribosomal proteins, while ATTR had higher complement levels.

CONCLUSIONS

This study identifies known processes dysregulated in heart failure with preserved ejection fraction as well as novel pathways responsible for tissue damage. Our results support an immune-mediated mechanism of tissue toxicity in cardiac amyloidosis, especially among patients with worse outcomes.