AI Article Synopsis
- The study investigates how innate immunity affects the adaptive immune response, particularly regarding T- and B-cell memory formation, influenced by vaccine delivery methods.
- Research on non-human primates revealed differences in immune responses between subcutaneous and intradermal vaccine injections, particularly in innate cell activation and cytokine profiles.
- Findings suggest that not only is the vaccine's effectiveness influenced by its administration route, but this method also affects the long-term changes in myeloid cells related to innate immune training.
Article Abstract
Innate immunity modulates adaptive immunity and defines the magnitude, quality, and longevity of antigen-specific T- and B- cell immune memory. Various vaccine and administration factors influence the immune response to vaccination, including the route of vaccine delivery. We studied the dynamics of innate cell responses in blood using a preclinical model of non-human primates immunized with a live attenuated vaccinia virus, a recombinant Modified vaccinia virus Ankara (MVA) expressing a fusion of HIV-1, and mass cytometry. We previously showed that it induces a strong, early, and transient innate response, but also late phenotypic modifications of blood myeloid cells after two months when injected subcutaneously. Here, we show that the early innate effector cell responses and plasma inflammatory cytokine profiles differ between subcutaneous and intradermal vaccine injection. Additionally, we show that the intradermal administration fails to induce more highly activated/mature neutrophils long after immunization, in contrast to subcutaneous administration. Different batches of antibodies, staining protocols and generations of mass cytometers were used to generate the two datasets. Mass cytometry data were analyzed in parallel using the same analytical pipeline based on three successive clustering steps, including SPADE, and categorical heatmaps were compared using the Manhattan distance to measure the similarity between cell cluster phenotypes. Overall, we show that the vaccine is not sufficient for the late phenotypic modifications of innate myeloid cells, which are evocative of innate immune training. Its route of administration is also crucial, likely by influencing the early innate response, and systemic inflammation, and vaccine biodistribution.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8764446 | PMC |
| http://dx.doi.org/10.3389/fimmu.2021.784813 | DOI Listing |
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