The ASC inflammasome adapter controls the extent of peripheral protein aggregate deposition in inflammation-associated amyloidosis

ASC-containing inflammasomes form specks, extracellular aggregates which enhance the aggregation of Aβ amyloid in Alzheimer’s disease. This raises the question whether ASC participates to additional aggregation proteinopathies. Here we show that ASC controls the extent of inflammation-associated AA amyloidosis, a systemic disease caused by the aggregation of the acute-phase reactant serum amyloid A (SAA). Using superresolution microscopy, we found that ASC colocalized tightly with SAA in human AA amyloidosis. Purified recombinant ASC specks accelerated SAA fibril formationin vitro. Mass spectrometry after limited proteolysis showed that ASC interacts with SAA via its pyrin domain. In a murine model of inflammation-associated AA amyloidosis, splenic AA amyloid load was conspicuously decreased inPycard^{tm1Vmd/tm1Vmd}mice which lack ASC. This reduction was not a consequence of enhanced amyloid phagocytosis, as SAA stimulation increased phagocytic activity inPycard^+/+, but not inPycard^-/-macrophages. Treatment with anti-ASC antibodies decreased the amyloid loads in wild-type mice suffering from AA amyloidosis. The prevalence of natural anti-ASC IgG (-logEC₅₀≥ 2) in 19,334 hospital patients was <0.01%, suggesting that anti-ASC antibody treatment modalities would not be confounded by natural autoimmunity. Higher anti-ASC titers did not correlate with any specific disease, suggesting that anti-ASC immunotherapy may be well-tolerated. These findings expand the role played by ASC to extraneural proteinopathies of humans and experimental animals and suggest that anti-ASC immunotherapy may contribute to resolving such diseases.