Liposomal vaccine formulations as prophylactic agents: design considerations for modern vaccines
DDA-based cationic liposomal vaccines for the
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- Table 6 Liposomal vaccine formulations tested in parasitic infection models
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DDA-based cationic liposomal vaccines for the
treatment of tuberculosis The World Health Organization (WHO) estimated 1.8 million deaths in 2015 were related to tuberculosis infec- tions (TBIs) [ 120 ]. The global estimate for latent tubercu- losis infections (LTBI) was recently determined to be 23% (approximately 1.7 billion persons from the total popula- tion) [ 121 ]. Because of current tuberculosis (TB) vaccine efficacy variability, inefficiency and waning immunity (like Bacillus Calmette–Guerin, BCG) [ 57 , 58 ], it is imperative to develop novel vaccines strategies that will improve prophylactic avenues for TBIs and reduce the overall death rate or latency associated with them. One Table 6 Liposomal vaccine formulations tested in parasitic infection models Cell cultures and no vaccination in animal models were employed N/A not applicable Lipid(s) and sterol used Parasite Cell line/animal model used Administration route Promising liposome formulation References MPL/QS21 (liposome- based) Plasmodium falciparum Rhesus macaques Intramuscular MPL/QS21 (liposome- based) [ 114 ] Egg lecithin/Chol, egg lecithin/SA and egg lecithin/PA Leishmania donovani BALB/c mice Intraperitoneal Lecithin/Chol/SA [ 116 ] PC/Chol, PC/SA, PC/PA and PC/PS L. donovani – Intravenous, N/A PC/SA [ 117 , 118 ] EPC/EPG, EPC/EPG/Chol and DSPC/DPPG/Chol P. vinckei Female C57BL/6J mice Intraperitoneal EPC/EPG, EPC/EPG/Chol and DSPC/DPPG/Chol [ 113 ] Page 16 of 23 De Serrano and Burkhart J Nanobiotechnol (2017) 15:83 of the principal improvements revealed in the last years is the development of adjuvanted subunit vaccines. To diminish the detrimental effects of tuberculosis in humans, certain studies have focused on subunit vac- cine development based in cationic lipid formulations (Table 7 ). Adjuvants are required for the development and efficacy of subunit vaccines, potentiating immune responses. Several adjuvants have been studied in the past 20 years including the adjuvanting properties of the lipid DDA [ 122 ]. Forty years ago, Snippe et al. investi- gated the effect of DDA in mice (via an intracutaneous administration) determining that delayed hypersensitiv- ity occurred by the onset of footpad swelling 5 days after vaccination [ 123 ]. Subsequently, a study by van Houte et al., where low- (DOPC and DLPC) and high-transi- tion temperature (DSPC) lipids were utilized with DDA as liposome bilayer components, discovered less immu- nogenicity of the liposomes as DDA concentration decreased [ 50 ]. Additionally, an earlier review discussed the immunostimulatory properties of DDA and its uses in different vaccines for veterinary and human infections [ 47 ]. We will present the reader with the most significant studies performed that cover the utilization of the cati- onic lipid DDA in subunit vaccine development. Holten-Andersen et al. mixed the recombinant immu- nodominant M. tuberculosis antigens (ESAT-6 and Ag85B-ESAT6), DDA and different immunomodulators, analyzing the immune responses against BCG vaccina- tion in mice (subcutaneous administration) [ 124 ]. The studied immunomodulators included saponin, calci- triol, β-glucan, n-hexadecane, TDB, muramyl dipeptide (MDP) and monophosphoryl lipid A (MPL). Investiga- tors determined that the combination of the antigens with DDA and TDB generated a strong protective T H 1 immune response against the mycobacterium, contrast- ing with BCG vaccination. In another study, M. bovis BCG lipid extracts were tested for their adjuvant char- acteristics [ 125 ]. BCG lipids were incorporated in DDA- based liposomes and administered subcutaneously to female BALB/c or C57BL/6 mice. BCG lipids coupled with the antigen Ag85B-ESAT-6 fusion protein in cati- onic liposomes induced significant levels of IFN-γ and relevant antibodies (IgG2A) titers, characteristic of T H 1 immune responses. Antigens from other sources (Chla- mydia muridarum and tetanus toxoid) were studied and relevant antibodies were detected when administered with the so called mycosomes (BCG lipids + cationic liposomes). Yüklə 1,05 Mb. Dostları ilə paylaş:
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