Authors
Marc S Weinberg, Mahesh Chandra Kodali, Zhaozhi Li, Jake A Galler, Arianna R Tidball, William Cody Reynolds, Cathrine Young, Kelli Devitte-McKee, Hadia A Fatima, Pia Kivisäkk, Mandovi Chatterjee, Arpita Kulkarni, James M Billingsly, Alexandra L Bartlett, Shannan Ho Sui, Willem M Kühtreiber, Jessica Gerber, Alison J McManus, Rudolph E Tanzi, Sudeshna Das, Denise L Faustman, Steven E Arnold
Published in
Communications medicine. Volume 6. Issue 1. Jul 02, 2026. Epub Jul 02, 2026.
Abstract
Immune aging may contribute to Alzheimer's disease. Bacillus Calmette-Guérin (BCG), a vaccine known to induce trained immunity, has been linked to reduced Alzheimer's risk in prior studies. However, whether trained immunity can be observed in the human central nervous system remains unclear. We assessed whether BCG induces trained immunity-like responses in adults with and without Alzheimer's-related changes.
We conducted two related one-year, open-label clinical trials in adults aged 55 years or older (n = 12 without Alzheimer's-related pathology; n = 11 with Alzheimer's-related pathology) recruited at a single center. Participants received two intradermal BCG vaccinations one month apart. Protocol-defined objectives included safety, neurocognitive outcomes, and longitudinal immune and Alzheimer's biomarker changes in blood and cerebrospinal fluid. Immune responses were assessed using cytokine assays and single-cell profiling. All enrolled participants were included where data were available; longitudinal changes were analyzed using mixed-effects models.
Here we show that BCG induces persistent, trained immunity-like changes in immune cells in cerebrospinal fluid, including enhanced innate responsiveness and associated transcriptional programs. These responses differ from blood, suggesting compartment-specific immune imprinting. In participants without Alzheimer's-related changes, these immune shifts are accompanied by decreased amyloid-β levels in cerebrospinal fluid and increased levels in blood. BCG was well tolerated, with no unexpected safety signals observed.
These findings suggest trained immunity-like responses in the central nervous system that may influence Alzheimer's-relevant pathways. This approach may represent an early neurodegenerative intervention strategy, although larger controlled studies are needed to confirm these observations.
ClinicalTrials.gov NCT04507126 (June 23, 2020) and NCT05004688 (August 6, 2021).
PMID:
42393277
Bibliographic data and abstract were imported from PubMed on 03 Jul 2026.
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