Improving adjuvant responses is a promising pathway to develop vaccines against some pathogens (e.g., HIV or dengue). One challenge in adjuvant development is modulating the inflammatory response, which can cause excess side effects, while maintaining immune activation and protection. No approved adjuvants yet have the capability to independently modulate inflammation and protection. Here, we demonstrate a method to limit inflammation while retaining and often increasing the protective responses. To accomplish this goal, we combined a partial selective nuclear factor kappa B (NF-kB) inhibitor with several current adjuvants. The resulting vaccines reduce systemic inflammation and boost protective responses. In an influenza challenge model, we demonstrate that this approach enhances protection. This method was tested across a broad range of adjuvants and antigens. We anticipate these studies will lead to an alternative approach to vaccine formulation design that may prove broadly applicable to a wide range of adjuvants and vaccines.
Adjuvants are added to vaccines to enhance the immune response and provide increased protection against disease. In the last decade, hundreds of synthetic immune adjuvants have been created, but many induce undesirable levels of proinflammatory cytokines including TNF-α and IL-6. Here we present small molecule NF-κB inhibitors that can be used in combination with an immune adjuvant to both decrease markers associated with poor tolerability and improve the protective response of vaccination. Additionally, we synthesize a library of honokiol derivatives identifying several promising candidates for use in vaccine formulations.
Many modern vaccines include adjuvants that activate the immune system and provide an enhanced humoral or cellular response. Current approved adjuvants are unable to provide desired responses against some pathogens (e.g. HIV or dengue). Many new adjuvants 15
<p>Adjuvants
are added to vaccines to enhance the immune response and provide increased
protection against disease. In the last decade, hundreds of synthetic immune
adjuvants have been created, but many induce undesirable levels of
proinflammatory cytokines including TNF-a
and IL-6. Here we present small molecule NF-kB
inhibitors that can be used in combination with an immune adjuvant to both decrease
markers associated with poor tolerability and improve the protective response
of vaccination. Additionally, we synthesize a library of honokiol derivatives identifying
several promising candidates for use in vaccine formulations. <b></b></p>
<p>Adjuvants
are added to vaccines to enhance the immune response and provide increased
protection against disease. In the last decade, hundreds of synthetic immune
adjuvants have been created, but many induce undesirable levels of
proinflammatory cytokines including TNF-a
and IL-6. Here we present small molecule NF-kB
inhibitors that can be used in combination with an immune adjuvant to both decrease
markers associated with poor tolerability and improve the protective response
of vaccination. Additionally, we synthesize a library of honokiol derivatives identifying
several promising candidates for use in vaccine formulations. <b></b></p>
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