Abstract
There is an urgent need to improve protective responses to influenza vaccination in the elderly population, which is at especially high risk for adverse outcomes from influenza infection. Currently available inactivated vaccines provide limited protection, even when a 4-fold higher dose of the vaccine is administered. Adjuvants are often added to vaccines to boost protective efficacy. Here we describe a novel combination of an activator of the STING pathway, 2′,3′-cyclic guanosine monophosphate–adenosine monophosphate (cGAMP) with a saponin adjuvant, that we found to be highly effective in boosting protective immunity from vaccination in an aged mouse model. Using this combination with a subunit influenza vaccine, we observed that survival of vaccinated 20 month-old mice after lethal challenge increased from 0 to 20% with unadjuvanted vaccine to 80–100%, depending on the vaccination route. Compared to unadjuvanted vaccine, the levels of vaccine-specific IgG and IgG2a increased by almost two orders of magnitude as early as 2 weeks after a single immunization with the adjuvanted formulation. By analyzing phosphorylation of interferon regulatory factor 3 (IRF3) in cell culture, we provide evidence that the saponin component increases access of exogenous cGAMP to the intracellular STING pathway. Our findings suggest that combining a STING activator with a saponin-based adjuvant increases the effectiveness of influenza vaccine in aged hosts, without having to increase dose or perform additional vaccinations. This study reports a novel adjuvant combination that (a) is more effective than current methods of boosting vaccine efficacy, (b) can be used to enhance efficacy of licensed influenza vaccines, and (c) results in effective protection using a single vaccine dose.
Highlights
The low efficacy of current influenza vaccines is a significant public health problem, which presents an even greater challenge for the aged population because of immunosenescence [1,2,3]
We initially explored the effects of cyclic guanosine monophosphate–adenosine monophosphate (cGAMP) or Quil-A administered with 1 μg of purified hemagglutinin (HA) of A/California 07/09 (H1N1) virus as a vaccine to evaluate candidate adjuvants in aged mice
In our experiments all aged mice immunized ID with the vaccine supplemented with 5 μg cGAMP succumbed to infection upon challenge (Figures 1A,B)
Summary
The low efficacy of current influenza vaccines is a significant public health problem, which presents an even greater challenge for the aged population because of immunosenescence [1,2,3]. Current vaccination strategies for individuals over 65 years of age in the U.S include administering a 4-fold higher dose of vaccine antigens per strain than is recommended for healthy adults, either alone or in the presence of an Enhancing Influenza Vaccination in Aged adjuvant [5,6,7,8,9,10,11] These approaches have been only moderately successful, and there is an unmet need to improve vaccination to protect the aged population which fuels the search for a better adjuvant that is effective in this age group, an objective of the present work. The objective of the present study was to identify an improved adjuvant formulation potentially compatible with different immunization routes and effective with a single dose of a licensed HA-based influenza vaccine
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