Beyond typing amyloid deposits and discovering new forms of amyloidosis, laser microdissection and mass spectrometry enable the analysis of the amyloid-plaque proteome constituents—amyloid fibrillar proteins, matrix and cellular components, and absorbed blood-borne proteins. Charalampous et al. analyzed the amyloid-plaque proteomes of the 7 most common renal amyloidoses to gain preliminary mechanistic insights on cellular and molecular perturbations elicited during gradual amyloid deposition and potential tissue repair or damage mechanisms. Clinical correlations identified a prognostic pattern.
Mining the amyloid-plaque proteome to uncover disease mechanisms in renal amyloidoses
Nuvolone, Mario;Merlini, Giampaolo
2024-01-01
Abstract
Beyond typing amyloid deposits and discovering new forms of amyloidosis, laser microdissection and mass spectrometry enable the analysis of the amyloid-plaque proteome constituents—amyloid fibrillar proteins, matrix and cellular components, and absorbed blood-borne proteins. Charalampous et al. analyzed the amyloid-plaque proteomes of the 7 most common renal amyloidoses to gain preliminary mechanistic insights on cellular and molecular perturbations elicited during gradual amyloid deposition and potential tissue repair or damage mechanisms. Clinical correlations identified a prognostic pattern.File in questo prodotto:
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