Characterizing inflammasome activation by bacterial amyloid curli complexes from biofilms in dendritic cells and its role in SLE

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Presentation Time: 04:30 PM - 04:45 PM
Abstract ID: 5319 - B

Presenting Author:
Shrutika Mintri , PhD-Graduate Student at UMass Chan Med. Sch.

Abstract:

Bacterial infections are a crucial environmental trigger for flares in Systemic lupus erythematosus (SLE). Although these infections are common in lupus patients, a precise mechanism of action remains unknown. Bacteria protect themselves from stresses by embedding in an extracellular matrix to form biofilms. Biofilms from bacterial species such as E. coli and Salmonella contain an amyloid protein called curli. Previous work from our labs has shown that curli/DNA complexes can accelerate lupus-like disease in mice, and increased levels of anti-curli antibodies are associated with flares in SLE patients, making these complexes important in autoimmunity. We had previously found that curli/DNA is a potent trigger of immune activation in dendritic cells (DCs) and macrophages. In macrophages, curli/DNA was also reported to induce IL-1b production through activation of the NLRP3 inflammasome. Here we expand these studies to delineate how curli/DNA complexes regulate IL-1b in murine and human DCs. Using curli/DNA alone or in combination with inflammasome stimuli, we found that curli/DNA stimulate pro-IL1b expression and inflammasome assembly, leading to caspase 1 activation, cleavage and release of mature IL-1B by DCs. However, we observed no cell death post inflammasome activation, suggesting a hyperactivated state in stimulated DCs. A deeper knowledge of this molecular mechanism might shed light on the role of inflammasome activation by bacterial infections in escalating SLE.