Yiqun Du scite author profile

A major challenge in vaccine formulations is the stimulation of both the humoral and cellular immune response for well-defined antigens with high efficacy and safety. Adjuvant research has focused on developing particulate carriers to model the sizes, shapes and compositions of microbes or diseased cells, but not antigen fluidity and pliability. Here, we develop Pickering emulsions-that is, particle-stabilized emulsions that retain the force-dependent deformability and lateral mobility of presented antigens while displaying high biosafety and antigen-loading capabilities. Compared with solid particles and conventional surfactant-stabilized emulsions, the optimized Pickering emulsions enhance the recruitment, antigen uptake and activation of antigen-presenting cells, potently stimulating both humoral and cellular adaptive responses, and thus increasing the survival of mice upon lethal challenge. The pliability and lateral mobility of antigen-loaded Pickering emulsions may provide a facile, effective, safe and broadly applicable strategy to enhance adaptive immunity against infections and diseases.

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Engineering the Deformability of Albumin‐Stabilized Emulsions for Lymph‐Node Vaccine Delivery

Song

Xia

et al. 2021

Advanced Materials

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A major challenge in vaccine delivery is to achieve robust lymph‐node (LN) accumulation, which can capitalize on concentrated immunocytes and cytokines in LNs to stimulate the onset and persistence of adaptive immune responses. Previous attempts at developing vaccine delivery systems have focused on the sizes, charges, or surface ligands but not on their deformability. In fact, the LN homing of antigen‐presenting cells depends on deformability to pass through the cellular gaps. Herein, the deformability of albumin‐stabilized emulsions is engineered. Owing to self‐adaptive deformability, the droplets (≈330 nm) can attach to and deform between cells and adjust their sizes to pass through the endothelial gaps (20–100 nm), favoring direct LN transfer (intercellular pathway). Additionally, owing to relatively large sizes, some emulsions can be retained at the administration sites for potent antigen uptake and activation of APCs as well as LN‐targeted delivery of vaccines (intracellular pathway). Compared with solid particles, the dual LN transfer strategy evidently enhances antigen accumulation and activation of LN drainage, potently stimulates cellular immune responses, and increases the survival rate of tumor‐bearing mice. Thus, the deformability of albumin‐stabilized droplets may offer an efficient strategy for potent LN targeting and enhanced vaccinations.

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Polysaccharides from Umbilicaria esculenta cultivated in Huangshan Mountain and immunomodulatory activity

Liu

Wang

2015

International Journal of Biological Macromolecules

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Optimization of ultrasonic extraction of polysaccharides from Hovenia dulcis peduncles and their antioxidant potential

Liu

Qiang

Sun

et al. 2015

International Journal of Biological Macromolecules

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Yiqun Du

Exploiting the pliability and lateral mobility of Pickering emulsion for enhanced vaccination

Engineering the Deformability of Albumin‐Stabilized Emulsions for Lymph‐Node Vaccine Delivery

Polysaccharides from Umbilicaria esculenta cultivated in Huangshan Mountain and immunomodulatory activity

Optimization of ultrasonic extraction of polysaccharides from Hovenia dulcis peduncles and their antioxidant potential

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