Production and characterization of a chimeric antigen, based on nucleocapsid of SARS-CoV-2 fused to the extracellular domain of human CD154 in HEK-293 cells as a vaccine candidate against COVID-19.

Despite that more than one hundred vaccines against SARS-CoV-2 have been developed and that some of them were evaluated in clinical trials, the latest results revealed that these vaccines still face great challenges. Among the components of the virus, the N-protein constitutes an attractive target for a subunit vaccine because it is the most abundant, highly conserved and immunogenic protein. In the present work, a chimeric protein (N-CD protein) was constructed by the fusion of the N-protein to the extracellular domain of human CD154 as the molecular adjuvant. HEK-293 cells were transduced with lentiviral vector bearing the N-CD gene and polyclonal cell populations were obtained. The N-CD protein was purified from cell culture supernatant and further characterized by several techniques. Immunogenicity studies in mice and non-human primates showed the N-CD protein induced high IgG titers in both models after two doses. Moreover, overall health monitoring of non-human primates demonstrated that animals were healthy during 228 days after first immunization. Data obtained support further investigation in order to develop this chimeric protein as vaccine candidate against COVID-19 and other coronavirus diseases.

A competitive ELISA for the quantitative determination of the novel anti-HIV drug candidate CIGB-210 in biological fluids.

The synthetic peptide CIGB-210 is a promising anti-HIV drug candidate shown to inhibit HIV replication in MT4 cells at the nanomolar range by triggering the rearrangement of vimentin intermediate filaments. Sensitive and specific analytical methods are required for pharmacological studies of CIBG-210 in animals. In this study, we describe the development of a competitive ELISA for the quantitative determination of CIGB-210 using an anti-CIGB-210 hyperimmune serum. After optimization of all the steps, the assay exhibited a dynamic range from 11.87 to 0.0095 µg/mL. The intra-assay coefficient of variation (CV) was lower than or close to 5% for all the six concentrations of the calibrator, and the inter-assay CV was below 10% in five out of the six concentrations tested. No interference of either murine or human plasma was observed. The analyte was stable in plasma after five freeze-thaw cycles, while the hyperimmune serum maintained its binding capacity after 10 freeze-thaw cycles. Furthermore, the ELISA was able to detect the two main metabolites of CIGB-210, although with a tenfold decrease in sensitivity. Our results demonstrate the utility and feasibility of this analytical method for pharmacological experiments in animals as humans.

Vaccine CIGB 247 is potentially safe for use as a novel therapeutic vaccine against cancer in Chlorocebus aethiops monkeys.

CIGB 247 is a novel cancer therapeutic vaccine based on human vascular endothelial growth factor (VEGF) variant molecule as antigen, in combination with a bacterial adjuvant. This vaccine candidate has previously demonstrated efficacy and safety in mice, rats, rabbits and non-human primates. In the present study we evaluated the effects on the clinical, hematological and biochemical parameters of CIGB 247 vaccine in Chlorocebus aethiops monkeys. Three groups of monkeys were immunized with three doses of vaccine formulation to measure physiological values of clinical, hematological and serum biochemical parameters. Monkeys' body weight and temperature were kept stable and close to standard values throughout the study. Variations in the levels of red blood cells and hemoglobin were observed among the different groups for all injected doses, but these hematological parameters recovered normal values at the end of the study. On the other hand, biochemical parameters such as the total bilirubin and total protein counts showed variations along the study, while they were not associated with the test substance. In summary, no negative effects on clinical, hematological and biochemical parameters were detected. Together, our results put forward the potential and support the safety of the CIGB 247 vaccine candidate for use in clinical applications. The data presented here can be used to estimate a human dosing regimen from preclinical data.

Measurement of hematological and serum biochemical normal values of captive housed Chlorocebus aethiops sabaeus monkeys and correlation with the age.

BACKGROUND: Some factors such as sex, age, and captivity conditions have a direct influence on the normal hematological and serum biochemical parameters of African green monkeys. On the other hand, reliability in reported values is in many cases limited by studied animal number (<200) and there is not report on the correlation of these parameters with the age in each sex animal group. Thus, this study sought determining normal hematological (11) and serum biochemical parameters (9) of 400 captive housed African green monkeys and also correlate them with the age of the animals. METHODS: A total of 200 females and 200 males were grouped by the sex and age groups (1-2, 3-4, 5-6, and 7-8 years old) for measuring normal values of hematological and serum biochemical parameters and to study the correlation of these parameters with the age of the animals. RESULTS: As key outcome, the main hematological and serum biochemical reference values of African green monkeys were determined. Significant differences (P < 0.05) were found among 95% of studied parameters between males and females. About 75% and 95% of the parameters were influenced by the age in the female and male groups, respectively. About 35% of hematological and serum biochemical parameters correlated positively (R(2) > 0.5) with the age in the female monkeys. On the contrary in the male monkeys, only 45% of parameters correlated positively with the age (R(2) > 0.5). CONCLUSIONS: Thus, authors believe that results of this study are important for assisting researchers in the assessment of health status of captive housed African green monkeys for preclinical studies.

The chimeric protein domain III-capsid of dengue virus serotype 2 (DEN-2) successfully boosts neutralizing antibodies generated in monkeys upon infection with DEN-2.

Use of a heterologous prime-boost strategy based on a combination of nonreplicative immunogens and candidate attenuated virus vaccines against dengue virus in the same schedule is an attractive approach. These combinations may result in a condensed immunization regime for humans, thus reducing the number of doses with attenuated virus and the time spacing. The present work deals with the evaluation of the heterologous prime-boost strategy combining a novel chimeric protein (domain III-capsid) of dengue virus serotype 2 (DEN-2) and the infective homologous virus in the same immunization schedule in monkeys. Primed monkeys received one dose of infective DEN-2 and were then vaccinated with the recombinant protein. We found that animals developed a neutralizing antibody response after the infective dose and were notably boosted with a second dose of the chimeric protein 3 months later. The neutralizing antibodies induced were long lasting, and animals also showed the ability to induce a specific cellular response 6 months after the booster dose. As a conclusion, we can state that the domain III region, when it is properly presented as a fusion protein to the immune system, is able to recall the neutralizing antibody response elicited following homologous virus infection in monkeys. Further prime-boost approaches can be performed in a condensed regime combining the chimeric domain III-capsid protein and candidate live attenuated vaccines against DEN-2.

Viremia and antibody response in green monkeys (Chlorocebus aethiops sabaeus) infected with dengue virus type 2: a potential model for vaccine testing.

The increasingly limited availability and high cost of the hitherto most commonly used monkey species in dengue vaccine research has augmented the importance of identifying alternative suitable models for these studies. In this study we examined the capacity of green monkeys (Chlorocebus aethiops sabaeus) to develop dengue viremia, and thus provide a potential model for dengue vaccine testing. Monkeys were inoculated with two different doses of dengue virus type 2. All animals in both groups became viremic after inoculation of the virus. In the lower dose group, mean viremia duration of 5.66 days was detected, whereas in the group that received the 106 PFU dose, viremia had a mean duration of only 1.66 days. Antibody titers were similar to those obtained in previous experiments with rhesus and cynomolgus macaques. We conclude that green monkeys develop viremia and antibody responses and therefore provide a potential model for the preclinical evaluation of novel candidates for dengue vaccines.