Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 118, Issue 37, Pages -Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.2104347118
Keywords
peptidoglycan; anthrax; complement; acute kidney injury; hemolysis
Categories
Funding
- National Institute for General Medical Sciences [GM121601, GM122775]
- National Institute of Allergy and Infectious Diseases [U19AI062629, AI157037]
- NIH [P40OD024628]
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Late-stage anthrax infections involve dysregulated immune responses and hematogenous spread of Bacillus anthracis, leading to severe bacteremia, sepsis, organ failure, and death. Some fulminant anthrax patients develop a secondary atypical hemolytic uremic syndrome (aHUS). By studying baboons challenged with PGN, a pathogen-associated molecular pattern responsible for hemostatic dysregulation in anthrax sepsis, researchers found that C5 neutralization can prevent hemolysis and kidney injury induced by PGN. This study identifies PGN-driven complement activation as the pathologic mechanism underlying hemolytic anemia in anthrax and other gram-positive infections.
Late-stage anthrax infections are characterized by dysregulated immune responses and hematogenous spread of Bacillus anthracis, leading to extreme bacteremia, sepsis, multiple organ failure, and, ultimately, death. Despite the bacterium being nonhemolytic, some fulminant anthrax patients develop a secondary atypical hemolytic uremic syndrome (aHUS) through unknown mechanisms. We recapitulated the pathology in baboons challenged with cell wall peptidoglycan (PGN), a polymeric, pathogen-associated molecular pattern responsible for the hemostatic dysregulation in anthrax sepsis. Similar to aHUS anthrax patients, PGN induces an initial hematocrit elevation followed by progressive hemolytic anemia and associated renal failure. Etiologically, PGN induces erythrolysis through direct excessive activation of all three complement pathways. Blunting terminal complement activation with a C5 neutralizing peptide prevented the progressive deposition of membrane attack complexes on red blood cells (RBC) and subsequent intravascular hemolysis, heme cytotoxicity, and acute kidney injury. Importantly, C5 neutralization did not prevent immune recognition of PGN and shifted the systemic inflammatory responses, consistent with improved survival in sepsis. Whereas PGN-induced hemostatic dysregulation was unchanged, C5 inhibition augmented fibrinolysis and improved the thromboischemic resolution. Overall, our study identifies PGN-driven complement activation as the pathologic mechanism underlying hemolytic anemia in anthrax and likely other gram positive infections in which PGN is abundantly represented. Neutralization of terminal complement reactions reduces the hemolytic uremic pathology induced by PGN and could alleviate heme cytotoxicity and its associated kidney failure in gram-positive infections.
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