Nature Communications (Jul 2024)

Helical superstructures between amyloid and collagen in cardiac fibrils from a patient with AL amyloidosis

  • Tim Schulte,
  • Antonio Chaves-Sanjuan,
  • Valentina Speranzini,
  • Kevin Sicking,
  • Melissa Milazzo,
  • Giulia Mazzini,
  • Paola Rognoni,
  • Serena Caminito,
  • Paolo Milani,
  • Chiara Marabelli,
  • Alessandro Corbelli,
  • Luisa Diomede,
  • Fabio Fiordaliso,
  • Luigi Anastasia,
  • Carlo Pappone,
  • Giampaolo Merlini,
  • Martino Bolognesi,
  • Mario Nuvolone,
  • Rubén Fernández-Busnadiego,
  • Giovanni Palladini,
  • Stefano Ricagno

DOI
https://doi.org/10.1038/s41467-024-50686-2
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Systemic light chain (LC) amyloidosis (AL) is a disease where organs are damaged by an overload of a misfolded patient-specific antibody-derived LC, secreted by an abnormal B cell clone. The high LC concentration in the blood leads to amyloid deposition at organ sites. Indeed, cryogenic electron microscopy (cryo-EM) has revealed unique amyloid folds for heart-derived fibrils taken from different patients. Here, we present the cryo-EM structure of heart-derived AL amyloid (AL59) from another patient with severe cardiac involvement. The double-layered structure displays a u-shaped core that is closed by a β-arc lid and extended by a straight tail. Noteworthy, the fibril harbours an extended constant domain fragment, thus ruling out the variable domain as sole amyloid building block. Surprisingly, the fibrils were abundantly concatenated with a proteinaceous polymer, here identified as collagen VI (COLVI) by immuno-electron microscopy (IEM) and mass-spectrometry. Cryogenic electron tomography (cryo-ET) showed how COLVI wraps around the amyloid forming a helical superstructure, likely stabilizing and protecting the fibrils from clearance. Thus, here we report structural evidence of interactions between amyloid and collagen, potentially signifying a distinct pathophysiological mechanism of amyloid deposits.