Liposomal vaccine formulations as prophylactic agents: design considerations for modern vaccines
Viral infections and liposomes-based vaccines
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Viral infections and liposomes-based vaccines
Viruses are ethiologic agents of different diseases in ani- mals [ 74 ] (including humans [ 75 , 76 ]), plants [ 77 ], para- sites [ 78 , 79 ] and bacteria [ 80 , 81 ]. The basic definition of a virus is a non-living infectious agent that requires living cells for its replication and survival, which allows spread- ing of the disease. This cell lysis leads to inflammation and tissue damage which are detrimental for the host, enhancing the state of the disease. Additionally, some viruses, like HIV, destroy immune cells hindering effec- tive immune responses when other infections (secondary infections in seropositive patients) occur. Viral infections can be treated by either antiviral therapeutic [ 82 ] or by prophylactic vaccine [ 83 ] approaches. Here, we will pre- sent several examples of vaccine applications based on liposomes for the prophylactic treatment of certain viral infections. Hepatitis One of the most significant viruses that affect human health are hepatitis viruses. Hepatitis is an inflamma- tion of the liver tissue caused by the five types of hepatitis viruses (A, B, C, D and E). Hepatitis A and E are spread through contaminated food or water sources. Hepati- tis B (HBV) is sexually transmitted or during pregnancy and birth. Both HBV and hepatitis C can be transmit- ted through blood (needle exchange by IV users) and hepatitis D can only infect people infected with HBV. Two seminal reports investigated novel approaches for the prophylactic treatment of HBV utilizing cationic lipids. Brunel et al. reported the effectiveness of recom- binant hepatitis B surface antigen (HBsAg) presenta- tion based on DC-Cholesterol liposomes or aluminum hydroxide (alum) adjuvants in a subcutaneous vaccine model [ 84 ]. The DC-Chol-based vaccine elicited anti- body (IgG1 and IgG2a) titers in three mice lines (BALB/c, OF1 and B10.M). Compared to the alum-based vaccine, which demonstrated weak immunogenicity, DC-Chol liposomes induced controlled T H 1 and T H 2 immune responses characterized by normal, but significant lev- els of cytokines IL-2 and IFN-γ and IL-5, respectively. Controlled immune responses are important to avoid inflammation that could result in tissue damage. The researchers concluded that cationic lipids like DC-Chol could be used as adjuvants, enhancing the immuno- genicity of previously non-immunogenic vaccines, spe- cifically in the development of prophylactic vaccines against hepatitis B virus. Another group investigated the use of a transcutaneous vaccine for the treatment of HBV infections [ 85 ]. In that report, the vaccine presents some differences from the Brunel et al. article based on the antigen and carrier types. First, cationic transfer- somes, a type of liposome, were prepared from DOTMA (1,2-di-O-octadecenyl-3-trimethylammonium propane) phospholipid and sodium deoxycholate (SDC) at differ- ent DOTMA weight ratios (75–95% w/w). Second, plas- mid DNA encoding the HBsAg gene was loaded to the transfersomes instead of the antigen. The transfersomes were not cytotoxic to HepG2 cells and were stable at dif- ferent temperatures (4 and 28 °C). Immunization stud- ies included HBsAg DNA-loaded tranfersomes (topical), naked HBsAg DNA (topical and intramuscular) and pure HBsAg (intramuscular) administered to BALB/c mice. Significant levels of anti-HBsAg antibodies and cytokines (IL-2 and IFN-γ) were elicited in topical DNA-loaded transfersomes as compared to intramuscular naked DNA delivery. This antibody and cytokine profile con- firmed the induction of T H 1 and T H 2 immune responses as observed in Brunel et al. Both studies represent great advances in the treatment of HBV infections with novel approaches and administration routes that could applied in the future as preventive vaccines. Yüklə 1,05 Mb. Dostları ilə paylaş:
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