Liposomal vaccine formulations as prophylactic agents: design considerations for modern vaccines
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Conclusion
Vaccination represents the major advancement of modern medicine, second in effect only to clean water, in decreas- ing the spread of detrimental diseases and providing better quality of life. To develop effective and safe vaccines, col- laboration between immunologists and formulation sci- entists must exist. This collaboration will ensure that the vaccine is designed adequately and that the therapy will not cause unwanted immune responses. Also, it is important to understand the basic concepts in immunology (innate vs. adaptive immunity) so we can target the correspond- ing receptors with the ligands and antigens employed in the vaccine. Many types of cell receptors participate in PAMPs recognition (innate immunity), namely NLRs, STING, RLRs, TLRs and CLRs. Each receptor contributes to signifi- cant responses that lead to T helper cell activation and dif- ferentiation, with eventual B cell (antibody-mediated) and CD8 T cell-mediated adaptive immune responses. For liposomal vaccines, we must pay close attention to liposome size, surface charge (ζ potential), morphol- ogy (lamellarity) and lipid bilayer fluidity. Size may affect antigen presentation to APCs and consequently immune responses. Likewise, surface charge of the liposome may affect antigen adsorption on the liposome and could affect liposome-cell interactions (cationic liposomes interact better with the anionic membrane of immune cells). MLVs may reduce antigen presentation due to their concentric vesicle morphological nature, contrasting to ULVs which enhances antigen presentation. Antigen leak- age and immune response reduction may occur on how the antigen was formulated (adsorption vs. absorption). Absortion is explained by the T m of the lipids or phos- pholipids used when developing the vaccine. Lipids with Page 19 of 23 De Serrano and Burkhart J Nanobiotechnol (2017) 15:83 lower T m tend to be fluid meanwhile lipids with higher T m would increase bilayer rigidity. During adsorption, the antigen is exposed in the outer layer of the lipid mem- brane, which could allow easy release or presentation of the antigen. Additionally, we must pay special attention to how liposomes would interact with immune cells and how we can target those cells, enhancing proper immune responses. Adjuvants play a significant role in APCs acti- vation and maturation for eventual T and B cell activation. The adjuvants, properly selected, will interact with their corresponding TLRs or CLRs in a process called targeted cell vaccine delivery. This cell targeted process is also affected by the vaccine route of administration. We observed in the sections previously discussed key developments in contemporary vaccine research for the treatment of viral, bacterial, fungal and parasitic infections. The studies presented to the reader demonstrated the col- laborative and interdisciplinary nature of the field. Cell tar- geting and adjuvants dominated most of the approaches to develop effective prophylactic subunit vaccines for the treatment of detrimental diseases. In some instances, infection was hindered by the antimicrobial, antiviral, antifungal or antiparasitic activities of the vaccines due to the induction of adequate immune responses (cell- and antibody-mediated), leading to the survival of selected ani- mal models. Additionally, we can conclude that cationic liposomal vaccines are of great interest for future vaccine development due to their enhanced interaction with the negatively charged immune cells. In specific, DDA-based liposomes are being tested in diverse vaccine studies which promise significant advances in the field. Such DDA appli- cations as a building block of liposomal vaccines represent a step forward towards the prophylactic treatment of diverse infections. These developments will improve the current vaccine approaches and will provide better treatments for patients. Additional research efforts must be made towards the development of novel adjuvants that will contribute to the induction of significant immune responses. Both authors read and approved the final manunscript. Yüklə 1,05 Mb. Dostları ilə paylaş:
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