<p>Transthyretin (TTR) amyloidosis is a protein misfolding disease characterized by amyloid fibril deposition in vital organs, leading to cardiomyopathy (ATTR-CM). Early diagnosis of ATTR-CM remains challenging due to lack of sensitive, rapid screening methods. Here, we report cryo-EM structures of TTR amyloid fibrils extracted from minimally invasive abdominal fat-pad biopsies of three living Ala97Ser ATTR-CM patients. The adipose-derived fibril structures closely mirror those from diseased post-mortem cardiac tissues, validating the use of fat-pad biopsies to investigate the atomic structure of TTR fibrils in living patients. Furthermore, we determined cryo-EM structures of TTR fibrils in complex with two amyloid-binding dyes, Congo Red (CR) and Thioflavin S (ThS), which are widely used in the clinical diagnosis of ATTR-CM. Both CR and ThS predominantly bind to a specific surface arginine site on the TTR fibril via electrostatic interactions. These findings provide structural insights into how small-molecule dyes bind TTR fibrils, offering a molecular foundation for the rational design of TTR-specific tracers to enable early and accurate diagnosis of TTR amyloidosis.</p>

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Structures of dye-bound transthyretin amyloid fibrils from abdominal fat biopsies

  • Boyuan Ma,
  • Yuxuan Yao,
  • Qingping Wang,
  • Qinyue Zhao,
  • Kaien Liu,
  • Feiyang Chen,
  • Hui Cheng,
  • Ruxu Zhang,
  • Cong Liu,
  • Dan Li

摘要

Transthyretin (TTR) amyloidosis is a protein misfolding disease characterized by amyloid fibril deposition in vital organs, leading to cardiomyopathy (ATTR-CM). Early diagnosis of ATTR-CM remains challenging due to lack of sensitive, rapid screening methods. Here, we report cryo-EM structures of TTR amyloid fibrils extracted from minimally invasive abdominal fat-pad biopsies of three living Ala97Ser ATTR-CM patients. The adipose-derived fibril structures closely mirror those from diseased post-mortem cardiac tissues, validating the use of fat-pad biopsies to investigate the atomic structure of TTR fibrils in living patients. Furthermore, we determined cryo-EM structures of TTR fibrils in complex with two amyloid-binding dyes, Congo Red (CR) and Thioflavin S (ThS), which are widely used in the clinical diagnosis of ATTR-CM. Both CR and ThS predominantly bind to a specific surface arginine site on the TTR fibril via electrostatic interactions. These findings provide structural insights into how small-molecule dyes bind TTR fibrils, offering a molecular foundation for the rational design of TTR-specific tracers to enable early and accurate diagnosis of TTR amyloidosis.