Evaluation of the immune response in BALB/c mice induced by a novel DNA vaccine expressing GRA14 against Toxoplasma gondii.

Toxoplasma gondii can cause severe and even fatal disease in human beings and animals. Effective vaccines may contribute to control toxoplasmosis. GRA14, a novel secreted dense granule protein of T. gondii, has been proposed as a vaccine candidate due to its intervacuolar transport and unique topology in the parasitophorous vacuole membrane. In this study, we constructed a DNA vaccine encoding GRA14 of T. gondii. BALB/c mice were immunized intramuscularly three times at 2 week intervals and challenged with T. gondii RH strain 5 weeks later. The immune responses were evaluated using lymphocyte proliferation assay, cytokine and antibody measurements. In addition, the survival times and parasite load of mice challenged with the virulent T. gondii RH strain were evaluated. The results showed that the mice immunized with pcGRA14 induced both enhanced specific humoral and Th1 cellular immune responses, and also mice immunized with the pcGRA14 showed an increased survival time and decreased parasite load compared with control groups (P<.05). The results indicated, for the first time, that the GRA14 is a potential DNA vaccine against toxoplasmosis.

Molecular Cloning and Expression of EG95 Gene of Iranian Isolates of Echinococcus granulosus.

BACKGROUND: Echinococcosis or hydatidosis is a chronic, zoonotic worldwide infection that occurs by the larval stages of taeniid cestodes of the genus Echinococcus. Iran is known as endemic region for this infection in the world. Vaccination has been considered as a good prevention method for this disease. Recombinant vaccines containing EG95 protein, against E. granulosus, has shown a high degree of protection against E. granulosus infection. In this study EG95 gene was extracted from Iranian isolates of E. granulosus and then cloned and expressed in expression vector. METHODS: Protoscoleces were collected from sheep hydatid cysts. Then DNA and RNA were extracted from protoscoleces, and amplified by PCR and RT-PCR with specific primer. Afterward the purified RT-PCR products were successfully ligated into pTZ57R/T plasmid vector. The pcDNA3 plasmid was used as expression vector and Eg95 fragment sub cloned into this plasmid. The pcEG95 plasmid was digested by restriction enzymes to confirm cloning of this gene in pcDNA3 plasmid. In last step, the subcloned gene was expressed in CHO as eukaryotic cell. RESULTS: EG95 fragment successfully was subcloned in pcDNA3 and EG95 protein was expressed by eukaryotic cell. The recombinant EG95 protein was confirmed by SDS-PAGE and Western blot. CONCLUSION: Recombinant plasmid of pcEG95 was constructed successfully and express of recombinant EG95 protein was confirmed.