Abstract
Leishmaniasis counts as one of the most neglected tropical diseases. Despite the amount of research perceived in this field, no fully effective and approved vaccine against this disease is yet available in humans. In this study, LACK and KMP11 antigens were constructed simultaneously by recombinant methods in prokaryotic and eukaryotic expression systems and were compared and assessed along with the CpG adjuvant in BALB/c mice. In the prokaryotic method, LACK and KMP11 protein gene sequences were synthesized in pET28a-TEV vector. In order to extract these two proteins after expression, His-tag and S-tag sequences were added to the constructs, respectively for LACK and KMP11. The pET28a-TEV-LACK/KMP11 construct was transformed into Escherichia coli, and the inserts were verified by Colony PCR. Pure proteins were verified by western blot, and groups of BALB/c mice were injected with the created prokaryotic recombinant proteins along with an ODN CpG adjuvant. In the eukaryotic method, antigen sequences were constructed in the pLEXSY-neo 2.1 vector, E.coli Top10 strain was cloned in the bacteria, and after being linearized were transfected into Leishmania tarentolae genome. After recombinant strains were selected, they were verified by molecular methods. After the extraction and purification of the protein using the method above, groups of mice were injected with the recombinant antigens and ODN CpG adjuvant. Eukaryotic subunit vaccines showed more effective immunization compared with prokaryotic vaccines and caused an immune system shift towards Th1 and protection. Protein expression in L. tarentolae by the constructs created in this host contains Post-Translational Modifications. The constructed protein will be significantly similar to eukaryotic proteins, considering that they are identical epitopes. More comprehensive studies aiming to improve the effectiveness of this vaccine are being conducted to improve immune profiles and immunological memory stimulation in future designs.