The mRNA vaccine BNT162b2 demonstrates impaired TH1 immunogenicity in human elders in vitro and aged mice in vivo.
Byron BrookBenoit FatouAbhinav CheckervartySoumik BarmanCali SweitzerAnna-Nicole BoscoAmy ShermanLindsey R BadenElena MorrocchiGuzman Sanchez-SchmitzPaolo PalmaEtsuro NanishiTimothy R O'MearaMarisa McGrathMatthew B FriemannDheeraj SoniSimon van HarenAl OzonoffJoann Diray-ArceHanno SteenDavid J DowlingOfer LevyPublished in: Research square (2022)
mRNA vaccines have been key to addressing the SARS-CoV-2 pandemic but have impaired immunogenicity and durability in vulnerable older populations. We evaluated the mRNA vaccine BNT162b2 in human in vitro whole blood assays with supernatants from adult (18-50 years) and elder (≥60 years) participants measured by mass spectrometry and proximity extension assay proteomics. BNT162b2 induced increased expression of soluble proteins in adult blood (e.g., C1S, PSMC6, CPN1), but demonstrated reduced proteins in elder blood (e.g., TPM4, APOF, APOC2, CPN1, and PI16), including 30-85% lower induction of T H 1-polarizing cytokines and chemokines (e.g., IFNγ, and CXCL10). Elder T H 1 impairment was validated in mice in vivo and associated with impaired humoral and cellular immunogenicity. Our study demonstrates the utility of a human in vitro platform to model age-specific mRNA vaccine activity, highlights impaired T H 1 immunogenicity in older adults, and provides rationale for developing enhanced mRNA vaccines with greater immunogenicity in vulnerable populations.
Keyphrases
- sars cov
- endothelial cells
- mass spectrometry
- binding protein
- immune response
- induced pluripotent stem cells
- high throughput
- pluripotent stem cells
- physical activity
- poor prognosis
- coronavirus disease
- clinical trial
- high fat diet induced
- high resolution
- liquid chromatography
- adipose tissue
- oxidative stress
- capillary electrophoresis
- tandem mass spectrometry
- high performance liquid chromatography
- diabetic rats
- childhood cancer