EV71 infection has become a serious public health threat especially among young children. Yet, at present, no specific antiviral drug against EV71 infection is available. A number of scientists are studying various kinds of vaccines, including inactivated vaccine, virus-like particle vaccine, DNA vaccine, synthetic peptide vaccines, and transgenic oral vaccine. This article reviews the recent advancement in the design of various kinds of vaccine against EV71 as well as their prospective usefulness, effectiveness, weakness and developments in the foreground.
Enterovirus A, Human ; immunology ; Hand, Foot and Mouth Disease ; immunology ; prevention & control ; Humans ; Vaccines, Attenuated ; immunology ; Vaccines, DNA ; immunology ; Vaccines, Inactivated ; immunology ; Vaccines, Synthetic ; immunology ; Viral Vaccines ; immunology

Adenoviridae ; genetics ; Animals ; Dengue Vaccines ; immunology ; Humans ; Plasmids ; Recombinant Fusion Proteins ; immunology ; Vaccines, Attenuated ; immunology ; Vaccines, DNA ; immunology ; Vaccines, Synthetic ; immunology

Toxoplasmosis is a cosmopolitan zoonotic infection, caused by a unicellular protozoan parasite known as Toxoplasma gondii that belongs to the phylum Apicomplexa. It is estimated that over one-third of the world's population has been exposed and are latently infected with the parasite. In humans, toxoplasmosis is predominantly asymptomatic in immunocompetent persons, while among immunocompromised individuals may be cause severe and progressive complications with poor prognosis. Moreover, seronegative pregnant mothers are other risk groups for acquiring the infection. The life cycle of T. gondii is very complex, indicating the presence of a plurality of antigenic epitopes. Despite of great advances, recognize and construct novel vaccines for prevent and control of toxoplasmosis in both humans and animals is still remains a great challenge for researchers to select potential protein sequences as the ideal antigens. Notably, in several past years, constant efforts of researchers have made considerable advances to elucidate the different aspects of the cell and molecular biology of T. gondii mainly on microneme antigens, dense granule antigens, surface antigens, and rhoptry proteins (ROP). These attempts thereby provided great impetus to the present focus on vaccine development, according to the defined subcellular components of the parasite. Although, currently there is no commercial vaccine for use in humans. Among the main identified T. gondii antigens, ROPs appear as a putative vaccine candidate that are vital for invasion procedure as well as survival within host cells. Overall, it is estimated that they occupy about 1%–30% of the total parasite cell volume. In this review, we have summarized the recent progress of ROP-based vaccine development through various strategies from DNA vaccines, epitope or multi epitope-based vaccines, recombinant protein vaccines to vaccines based on live-attenuated vectors and prime-boost strategies in different mouse models.
Animals ; Antigens, Surface ; Apicomplexa ; Cell Size ; Epitopes ; Humans ; Immunization ; Life Cycle Stages ; Mice ; Molecular Biology ; Mothers ; Parasites ; Prognosis ; Toxoplasma* ; Toxoplasmosis ; Vaccines ; Vaccines, DNA ; Vaccines, Synthetic ; Zoonoses

Humans ; Membrane Glycoproteins ; immunology ; SARS Virus ; immunology ; Severe Acute Respiratory Syndrome ; prevention & control ; Spike Glycoprotein, Coronavirus ; Vaccines, DNA ; immunology ; Vaccines, Inactivated ; immunology ; Vaccines, Synthetic ; immunology ; Viral Envelope Proteins ; immunology ; Viral Vaccines ; immunology ; Virion ; immunology

OBJECTIVETo study the specific cellular immunoresponse of peripheral blood lymphocytes in the chronic hepatitis B patients treated with different doses of recombinant hepatitis B vaccine.

METHODSSeventy-two chronic hepatitis B patients who did not use any anti-HBV drugs within 6 months were randomized into 3 groups (90 micrograms, 60 micrograms, and placebo) in a ratio of 1:1:1. The patients in different groups were treated with different doses of recombinant hepatitis B vaccine in combination with IFN alpha 1b 50 micrograms with 3 times a week for 24 weeks. All patients were followed up for 24 weeks (W24). HBV DNA, HBeAg and liver functions were detected at different time points, and the number of cells that secrete IFN-gamma were detected by ELISPOT.

RESULTSThere were no significant difference in ELISPOT positive ratio among the 3 groups on baseline detection. At W24, 12 cases, 12 cases, and 7 cases showed ELISPOT positive in the group of 90 micrograms, 60 micrograms, and placebo. The proportion of patients who were ELISPOT positive was higher in the groups treated with recombinant hepatitis B vaccine (including the dose of 90 micrograms and 60 micrograms) than that in the placebo group (P=0.0446). HBV DNA turned negative in 6/24 of the patients treated with recombinant hepatitis B vaccine (at both the doses of 90 micrograms and 60 micrograms), and HBeAg/Anti-HBe seroconversion or HBeAg became negative in 7/24 of them. In the placebo group, none of the patients showed undetectable HBV DNA, HBeAg/Anti-HBe seroconversion or HBeAg disappearance. At the 24W of follow up, in the patients who were ELISPOT positive, HBV DNA became undetectable in 4 of the patients treated with recombinant hepatitis B vaccine (at doses of 90 micrograms and 60 micrograms), and HBeAg/Anti-HBe seroconversion or HBeAg disappearance were found in 9 of the cases. In the placebo group, none of the cases showed undetectable HBV DNA, and only 1 case had HBeAg/Anti-HBe seroconversion.

CONCLUSIONThe recombinant hepatitis B vaccine may increase the function of specific T lymphocytes in patients with chronic hepatitis B. There were no significant differences between the patients treated with the dose of 90 micrograms and 60 micrograms hepatitis B vaccine.

Adult ; DNA, Viral ; blood ; Female ; Hepatitis B Vaccines ; immunology ; Hepatitis B, Chronic ; immunology ; Humans ; Interferon-gamma ; biosynthesis ; Male ; Recombinant Proteins ; immunology ; T-Lymphocytes ; immunology ; Vaccines, Synthetic ; immunology

Various new technologies have been applied for developing vaccines against various animal diseases. Virus-like particle (VLP) vaccine technology was used for manufacturing the porcine circovirus type 2 and RNA particle vaccines based on an alphavirus vector for porcine epidemic diarrhea (PED). Although VLP is classified as a killed-virus vaccine, because its structure is similar to the original virus, it can induce long-term and cell-mediated immunity. The RNA particle vaccine used a Venezuela equine encephalitis (VEE) virus gene as a vector. The VEE virus partial gene can be substituted with the PED virus spike gene. Recombinant vaccines can be produced by substitution of the target gene in the VEE vector. Both of these new vaccine technologies made it possible to control the infectious disease efficiently in a relatively short time.
Alphavirus ; Animal Diseases ; Animals* ; Circovirus ; Communicable Diseases ; Diarrhea ; Encephalitis Virus, Venezuelan Equine ; Encephalomyelitis, Equine ; Immunity, Cellular ; Porcine epidemic diarrhea virus ; RNA ; Vaccines ; Vaccines, Synthetic ; Vaccines, Virus-Like Particle ; Venezuela

This study aimed to develop an effective experimental vaccine against highly pathogenic H5N1 Avian Influenza (HPAI) virus and to optimize their immunization programs. As reported previously, various DNA-based or recombinant vaccinia viral(Tiantan)-based H5N1 vaccine candidates, which containing a single cistronic construct (HAop, or NAop) or a bicistronic construct (HAop/M2 or NAop/M1) of H5N1 influenza virus (Anhui strain) were constructed and characterized in our lab. In this study, we further analysed the immunogenicity in mice of these vaccine candidates by various protocols (single or combined immunization). Our results showed that: comparing with immunization with DNA-based or rTTV-based H5N1 vaccine only, combined DNA-based with rTTV-based H5N1 vaccine immunization via prime-boost strategy enhanced immune response significantly against multi-H5N1 antigens detected by hemagglutination inhibition (HI) assay, NA- or M1- or M2-specific antibody detection, and micro-neutralizing antibody test and IFN-gamma ELISpot assay. Priming with DNA-based vaccine induced higher level of humoral response against HA or NA antigen than priming with rTTV-based vaccine; In contract, M1 and M2-specific antibody levels were higher among that of priming with rTTV -based vaccine. These findings provide a basis for further development of novel H5N1 vaccines and for the optimization of the immunization programs of combined multi-antigens vaccine candidates.
Animals ; Antigens, Viral ; genetics ; immunology ; Female ; Immunization ; methods ; Influenza A Virus, H5N1 Subtype ; genetics ; immunology ; Influenza Vaccines ; genetics ; immunology ; Mice ; Mice, Inbred BALB C ; Vaccination ; methods ; Vaccines, DNA ; genetics ; immunology ; Vaccines, Synthetic ; genetics ; immunology ; Vaccinia ; genetics ; immunology

OBJECTIVETo introduce exponent curve model methods in the study of the hepatitis B vaccine antibody level.

METHODSAfter the China made vaccine of hepatitis B DNA recombinant yeast derived vaccine (YDV) had been carried out for 5 years, data on the anti-HBsAg's titer were used to construct an exponent curve model. When the vaccination program had been carried out for 8 years, the predicating results of the model were further tested by observed number.

RESULTSThe exponent curve model was Y = 165.67 exp (-0.019X) and the R(2) was 0.98. After 8 years, the practical observed number became 35 mIU/ml, and the predicating result of the model was 27 mIU/ml, 8 mIU/ml lower than the observed number. When the vaccine had been carried out for 12 years, the predicating results of the model became 10.74 mIU/ml, still higher than 10 mIU/ml but was still in the effective range.

CONCLUSIONAn exponent curve model could be constructed, as long as the data of the antibody's titer was in accordance with the tendency of exponent curve. The model could be used to predict the persistence lever of vaccine antibody under certain conditions. The results showed that after 8 years, the predicting results of the model were reliably lower than the observed number.

Follow-Up Studies ; Hepatitis B ; immunology ; prevention & control ; Hepatitis B Antibodies ; blood ; Hepatitis B Vaccines ; immunology ; Humans ; Models, Biological ; Saccharomyces cerevisiae ; genetics ; Vaccination ; Vaccines, DNA ; immunology ; Vaccines, Synthetic ; immunology

A large number of studies have demonstrated that mRNA vaccine has been characterized as a technique with good safety, strong immunogenicity and high developmental potential, which makes it have broad prospects in immunotherapy. In recent years, the stability and in vivo delivery efficiency of mRNA vaccines have been largely addressed by the progresses in mRNA engineering and delivery innovation. And some mRNA vaccines are now clinical approved or in preclinical trials. Here, we summarize current knowledge on the research advances, technology, and application in major infectious diseases in humans and animals of mRNA vaccines, with the aim to provide a reference for improving the development of novel mRNA vaccines.
Animals ; Humans ; Communicable Diseases ; Vaccines, Synthetic/genetics* ; mRNA Vaccines

PURPOSE: This study aimed to identify the true extent of non-responsiveness in full-term infants born from HBsAg-negative or HBsAg-positive mothers and vaccinated against hepatitis B virus (HBV) at 0, 1, and 6 months of age and to evaluate the effect of revaccination among non-responders. METHODS: The study included 716 full-term infants born in 2004-2007. Of 716, 662 infants (A group) were born to HBsAg- negative mothers and 54 infants (B group: 50, except HBsAg-positive infants) were born to HBsAg-positive mothers. All infants were administered DNA recombinant vaccines at 0, 1, and 6 months of age. B group infants received hepatitis B immunoglobulin at birth. Anti-HBs titers were tested at 7-12 and 9-15 months in A and B groups, respectively. Three revaccination doses were administered to non-responders whose anti-HBs titers were under 10 mIU/ml; revaccinated infants were retested at 1-3 months after last vaccination. The association between HBeAg seropositivity of mother and the failure of HBV immunoprophylaxis was evaluated. RESULTS: The seroconversion rates after primary hepatitis B vaccination were higher in A group (94.1%) than in B group (78%, P<0.001). The seroconversion rates were high in revaccinated infants (A group non-responders: 96.9%, B group non- responders: 87.5%). The failure of HBV immunoprophylaxis was significantly associated with maternal HBeAg seropositivity (P<0.001). CONCLUSION: The seroconversion rates after primary hepatitis B vaccination were low in B group infants. Revaccination of non-responders in B group was very effective. Therefore, anti-HBs testing and revaccination of B group is very important. Revaccination of non-responders in A group was also very effective. Thus, testing the immune status of infants born to HBsAg-negative mothers even after primary hepatitis B vaccination should be considered. However, to realize this, further studies on the cost-effectiveness of anti-HBs testing in healthy full-term infants are necessary.
DNA ; Hepatitis ; Hepatitis B ; Hepatitis B e Antigens ; Hepatitis B Surface Antigens ; Hepatitis B virus ; Humans ; Immunization, Secondary ; Immunoglobulins ; Infant ; Mothers ; Parturition ; Vaccination ; Vaccines, Synthetic