Abstract
BACKGROUND: Despite efforts to optimize therapy for HIV-associated cryptococcal meningitis (CM), survival outcomes remain poor. It is unclear how the cerebrospinal fluid (CSF) cellular immune phenotype and activation contribute to 2-week and 1-year survival following CM. METHODS: We compared baseline CSF mononuclear cell phenotype and activation among adults with HIV-associated CM who died within 2 weeks of CM diagnosis to survivors who were alive at 1 year. The activated CSF T lymphocytes, CD14+ monocytes, and CD56+ natural killer cells were determined from freshly collected CSF using Cytek Aurora Spectroflo cytometry. Quantitative CSF soluble cryptococcal antigen (CrAg) titer from frozen CSF at baseline and 1 year was determined using CrAg lateral flow assay. Data were analyzed using STATA version 9. RESULTS: Compared to survivors, participants who died within 2 weeks had significantly lower absolute CSF CD8+ T cells at baseline. For every 10% increase in PD-1 expression at baseline, the relative risk of 2-week mortality increased by 20%-60%. CSF CD14+ monocytes among those who died demonstrated low HLA-DR+ and high CD163+ expression compared to survivors. We noted a significant reduction in the median CSF CrAg titer from 1:2560 at baseline to 1:5 at 1 year (P < .0001) with 8 of 21 (38%) participants testing negative for CSF CrAg. CONCLUSIONS: Expression of CD163 on CD14+ macrophages and immune exhaustion of CSF mononuclear cells at baseline are associated with an increased risk of early mortality in CM. After 1 year of treatment, approximately 4 in 10 patients with CM have a negative CSF CrAg.