CSF Cytokines and Chemokines Involved in Cytotoxic Cell Function and Risk of Acute 14-Day Mortality in Persons with Advanced HIV and Cryptococcal Meningitis

Background: Despite availability of HIV treatment globally, cryptococcal meningitis continues to cause considerable morbidity and mortality. The role of the immune response in acute mortality remains unclear.

Methods: To investigate the immune environment in the central nervous system, cerebrospinal fluid (CSF) from 337 Ugandans with advanced HIV and first-episode cryptococcal meningitis was collected at time of hospitalization. Participants were treated with standard of care amphotericin-B and fluconazole. Cytokines and chemokines in the CSF were quantified and compared by 14-day survival, stratification by quartiles, and logistical regression to determine association with acute mortality.

Results: 84 (24.9%) of the participants died by day 14 of hospitalization. Persons who survived to day 14 had higher levels of proinflammatory macrophage inflammatory protein (MIP)-3β and interferon (IFN)-β and cytotoxicity-associated Granzyme-B and inflammatory protein (IP)-10 compared to those who died (P<.05 for each). Logistical regression analysis revealed that per two-fold increase in proinflammatory IL-6, IL-1α, MIP-1β, MIP-3β, and IFN-β and cytotoxicity-associated IL-12, TNF-α, Granzyme-B, and IP-10 CSF concentrations, the risk of acute 14-day mortality decreased. Similar biomarkers were implicated when stratified by quartiles and further identified that lower concentrations of anti-inflammatory IL-10 and IL-13 as associated with 14-day mortality (P<.05 for each).

Conclusion: Proinflammatory and cytotoxicity-associated cytokine and chemokine responses in the CSF decrease the risk of acute 14-day mortality. These data suggest that a cytotoxic immune environment in the CSF could potentially improve acute survival. Further research on cytotoxic cells is crucial to improve understanding of innate and adaptive immune responses in cryptococcal meningitis.