Liposomal vaccine formulations as prophylactic agents: design considerations for modern vaccines
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Influenza
Influenza is an infectious disease caused by the influ- enza virus, affecting human health with a pandemic effect in several instances. The virus is divided in three types (A, B and C) and it is spread through the air from coughs and sneezes, therefore the importance for vac- cine development studies for the infection. An intranasal (i.n.) liposomal influenza vaccine study was presented by Joseph et al. [ 45 ]. The vaccine formulation developed by the group was based in the polycationic sphingolipid N-palmitoyl-d-erythro-sphingosyl-carbamoyl-spermine (or ceramide carbamoyl-spermine, CCS) and was com- pared with other formulations containing monocationinc phospholipids (DC-Chol, DDA, DSTAP (1,2-stearoyl- 3-trimethylammonium-propane), DMTAP and DOTAP). Cholesterol was added to increase liposome fluidity and the lipids DMPC and DMPG were included in neutral and anionic formulations, respectively. All formulations contained the influenza A antigens hemagglutinin and neuraminidase (HN). DMTAP- and DOTAP-based vac- cines were the only monocationic lipid formulations to induce strong systemic (serum) and local (lung) T H 1 and T H 2 responses. Surprisingly, DDA-containing for- mulations did not induce strong, or significant, local or systemic immune responses. No specific reasons were provided by the team for such results but we can infer that vesicle morphology (multilamellar and oligolamel- lar cationic formulations), size (1–4 µm diameter) and encapsulation efficiencies (10–90% for non-CCS cationic formulations) would be responsible. The CCS-based vac- cine formulation was the only formulation to be at the same or superior level of effectiveness compared to the commercially available vaccine with cholera toxin as the Page 10 of 23 De Serrano and Burkhart J Nanobiotechnol (2017) 15:83 adjuvant. More recently, researchers investigated a tri- ple co-culture model of the human respiratory tract to study the immunostimulatory responses of virosomes and liposomes and their internalization [ 86 ]. The epithe- lial cell line 16HBE was grown with monocyte-derived macrophages (MDMs) and dendritic cells (MDDCs) and exposed to liposomes and virosomes to evaluate the immune responses elicited by the nanocarriers. The viro- somes were liposomes prepared with solubilized influ- enza A/Brisbane/59/2007 H1N1 membrane proteins and included the neutral lipids DOPC and OPPE (1-pal- mitoyl-2-oleoyl-sn-glycero-3-phosphoethanolamine, POPE). Liposomes were prepared with previously men- tioned neutral lipids and no influenza soluble membrane proteins were added. Virosomes were internalized more efficiently by all cell types in mono- and co-cultures, with APCs like MDMs and MDDCs presenting the high- est internalization levels as per flow cytometry and laser scanning microscopy. MDDCs were moderately activated by liposomes and virosomes in monocultures, and induc- ing elevated levels of cytokine (IL-1β and IL-8) produc- tion in co-cultures. Virosomes were internalized at higher levels in epithelial cells in comparison to liposomes. Yüklə 1,05 Mb. Dostları ilə paylaş:
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