Development of an Indirect ELISA to Detect African Swine Fever Virus pp62 Protein-Specific Antibodies

African swine fever (ASF) is a highly detrimental viral disease caused by African swine fever virus (ASFV). The occurrence and prevalence of this disease have become a serious threat to the global swine industry and national economies. At present, the detection volume of African swine fever is huge, more sensitive and accurate detection techniques are needed for the market. pp62 protein, as a protein in the late stage of infection, has strong antigenicity and a high corresponding antibody titer in infected pigs. In this study, the CP530R gene was cloned into expression vector pET-28a to construct a prokaryotic expression plasmid, which was induced by IPTG to express soluble pp62 protein. Western blot analysis showed that it had great reactivity. Using the purified recombinant protein as an antigen, an indirect ELISA method for detecting ASFV antibody was established. The method was specific only to ASFV-positive serum, 1:1600 diluted positive serum could still be detected, and the coefficients of variation (CV) of the intra assay and inter assay were both <10%. It turns out that the assays had excellent specificity, sensitivity, and repeatability. This provides an accurate, rapid, and economical method for the detection of ASFV antibody in clinical pig serum samples.

Prevalence and Risk Factors of Kaposi’s Sarcoma-Associated Herpesvirus Infection among Han and Uygur Populations in Xinjiang, China

Kaposi’s sarcoma-associated herpesvirus (KSHV) is the causative agent of Kaposi’s sarcoma (KS), which is endangering human health worldwide, especially in Africa, Europe, the United States, and parts of Asia. The aim of this study was to investigate the prevalence of KSHV in Xinjiang. Three KSHV recombinant proteins (ORF65, ORF73, and K8.1) were used to detect KSHV infection. The serum samples to be tested were detected by an indirect ELISA method. The overall infection rate of KSHV in Xinjiang was 25.60%, with a higher infection rate in the Uygur population of 29.79%. After adjusting for possible confounders, Uygur (OR = 3.95, 95% CI 2.64–6.12, P < 0.001 ), agriculture and livestock (OR = 1.60, 95% CI 1.20–2.17, P = 0.002), age ≤ 50 years (OR = 1.50, 95% CI 1.13–2.00, P = 0.006), and predominantly meat-based diet (OR = 1.72, 95% CI 1.11–2.78, P = 0.018) were significantly associated with the odds of KSHV seropositivity correlation. Three unique sequences of KSHV were obtained in this study; genotypic analysis showed that the three unique sequences were all subtype A2.

Proteomics and immunocharacterization of Asian mountain pit viper (Ovophis monticola) venom

The venomic profile of Asian mountain pit viper Ovophis monticola is clarified in the present study. Using mass spectrometry-based proteomics, 247 different proteins were identified in crude venom of O. monticola found in Thailand. The most abundant proteins were snake venom metalloproteases (SVMP) (36.8%), snake venom serine proteases (SVSP) (31.1%), and phospholipases A2 (PLA2) (12.1%). Less abundant proteins included L-amino acid oxidase (LAAO) (5.7%), venom nerve growth factor (3.6%), nucleic acid degrading enzymes (3.2%), C-type lectins (CTL) (1.6%), cysteine-rich secretory proteins (CRISP) (1.2%) and disintegrin (1.2%). The immunoreactivity of this viper’s venom to a monovalent antivenom against green pit viper Trimeresurus albolabris, or to a polyvalent antivenom against hemotoxic venom was investigated by indirect ELISA and two-dimensional (2D) immunoblotting. Polyvalent antivenom showed substantially greater reactivity levels than monovalent antivenom. A titer for the monovalent antivenom was over 1:1.28x107 dilution while that of polyvalent antivenom was 1:5.12x107. Of a total of 89 spots comprising 173 proteins, 40 spots of predominantly SVMP, SVSP and PLA2 were specific antigens for antivenoms. The 49 unrecognized spots containing 72 proteins were characterized as non-reactive proteins, and included certain types of CTLs and CRISPs. These neglected venom constituents could limit the effectiveness of antivenom-based therapy currently available for victims of pit viper envenomation.

Serological responses to a soluble recombinant circumsporozoite protein-VK210 of Plasmodium vivax (rPvCSP-VK210) among Iranian malaria patients

Background Circumsporozoite protein (CSP) has a central immune domain that includes short regions of repeating amino acid sequences. This immunodynamic region is an epitope of B cells that can elicit an immune response in human and laboratory animals. The aim of the present study was to express the recombinant PvCSP-VK210 antigen and evaluate it for assaying antibodies obtained during human P. vivax infection by Western blotting and indirect ELISA (enzyme-linked immunosorbent assay). Method Genomic DNA of P. vivax was isolated from a blood sample of an Iranian person with vivax malaria, and by PCR, the fragment of the PvCSP-VK210 gene was amplified. The gene fragment was cut after gel purification by BamHI and HindIII enzymes and then cloned into pET28a expression vector. Finally, the recombinant pET28a was transformed into the E.coli BL21 (DE3) as the expression host. In order to produce His-tagged protein, the expression host was cultured in LB medium. The protein was purified by Ni–NTA columns and immobilized metal affinity chromatography, and after confirmation by Western blotting technique, was used as the antigen in the indirect ELISA test. Results The recombinant protein was expressed and purified as a 32-kDa protein. The sensitivity and specificity of the indirect ELISA test with the recombinant PvCSP-VK210 antigen were 61.42% and 97.14%, respectively, based on OD = 0.313. Between the results of the microscopic test and the indirect ELISA test with the recombinant PvCSP-VK210 antigen there was a Kappa coefficient of 0.586. The positive and negative predictive value and validity of the ELISA test with the recombinant PvCSP-VK210 antigen were 95.55%, 71.57%, 79.28%, respectively. Conclusion The sensitivity of the indirect ELISA method with the recombinant PvCSP-VK210 antigen was 61.42%, which is the first report from Iran.

Brucella abortus S19 GFP-tagged vaccine allows the serological identification of vaccinated cattle

Bovine brucellosis induces abortion in cows, produces important economic losses, and causes a widely distributed zoonosis. Its eradication was achieved in several countries after sustained vaccination with the live attenuated Brucella abortus S19 vaccine, in combination with the slaughtering of serologically positive animals. S19 induces antibodies against the smooth lipopolysaccharide (S-LPS), making difficult the differentiation of infected from vaccinated bovines. We developed an S19 strain constitutively expressing the green fluorescent protein (S19-GFP) coded in chromosome II. The S19-GFP displays similar biological characteristics and immunogenic and protective efficacies in mice to the parental S19 strain. S19-GFP can be distinguished from S19 and B. abortus field strains by fluorescence and multiplex PCR. Twenty-five heifers were vaccinated withS19-GFP (5×109 CFU) by the subcutaneous or conjunctival routes and some boosted with GFP seven weeks thereafter. Immunized animals were followed up for over three years and tested for anti-S-LPS antibodies by both the Rose Bengal test and a competitive ELISA. Anti-GFP antibodies were detected by an indirect ELISA and Western blotting. In most cases, anti-S-LPS antibodies preceded for several weeks those against GFP. The anti-GFP antibody response was higher in the GFP boosted than in the non-boosted animals. In all cases, the anti-GFP antibodies persisted longer, or at least as long, as those against S-LPS. The drawbacks and potential advantages of using the S19-GFP vaccine for identifying vaccinated animals in infected environments are discussed.

Kinetics of Maternal Derived Antibody Status against Canine Distemper in Pups

Sixty-four sera samples were collected from 25- and 45-days old puppies [16 puppies each from vaccinated (Group I) and unvaccinated (Group II) dam] brought to Immunization Unit, Madras Veterinary College Teaching Hospital, Chennai. The samples were subjected to functional antibody assay (SNT) and commercially available Indirect ELISA to know the kinetics of maternal derived antibody (MDA) against canine distemper. The mean MDA titre in Group I puppies were found as 4.38 ± 1.41 and the ELISA titre were 30 - 60 and 10–30 AU on 25 and 45 days of age respectively whereas the Group II (MDA-UV) had titre value of0.33 ± 0.60 and 0 by SNT (SN50) and ≤ 10 and ≤ 3 AU by Indirect ELISA on 25 and 45 days of pups respectively. Though the statistical analysis (Mann-Whitney test) revealed a significant difference (P<0.01) between MDA of two groups with none of the group member had required protective titre, this study strongly suggests that the dogs aged more than 4 weeks needs to be immunized against CDV in endemic region in view of eliciting protective titre at earlier with a view of avoiding window period of susceptibility between 25 and 45 days of age.

Pre-Clinical Evaluation of Novel L-Asparaginase Mutants for the Treatment of Acute Lymphoblastic Leukemia

Introduction Acute Lymphoblastic Leukemia (ALL) accounts for 20% of all hematological malignancies. L-Asparaginase has been a mainstay of ALL for the last 6 decades and is also included in the WHO list of essential medicines for ALL. Escherichia coli L-asparaginase (EcA) was the first asparaginase to be approved for clinical use. However being isolated from bacteria, EcA has many side-effects which in turn affects the tolerability and efficacy of the drug. EcA administration may cause strong immunogenic and hypersensitive reactions in the patients, necessitating withdrawal of the drug. Sensitive individuals react to repeated EcA administration with formation of anti-drug antibodies (ADAs) that bind to and inactivate the enzyme leading to inadequate plasma levels of EcA. Another serious drawback of EcA is the glutaminase activity which leads to neurotoxicity. Other side effects include hepatotoxicity, thromboembolism and pancreatitis. Although a number of attempts have been made to alleviate these problems by rational protein engineering, the optimization of therapy with EcA for ALL patients still remains a challenge. In an attempt to deal with these problems, we created several EcA mutants. On the basis of their activity, stability and antigenicity we short-listed four EcA mutants (Mutant A, B, C and D) having favourable properties for further development. Methods We identified and mutated several B-cell epitopes and amino acid residues at the EcA interface that are responsible for activity, stability and antigenicity. Enzyme activity was measured at 37 oC (optimum temperature for EcA). Glutaminase activity of the mutants was measured and compared to the wild type EcA. The cytotoxicity of the EcA variants was verified in ALL sensitive REH cell lines by performing MTT assay after 24 h incubation. Further the antigenicity of the mutants was assessed by performing indirect ELISA where the binding of the mutants to the commercially available l-asparaginase antibody was analysed. Further, in vivo immunogenicity was evaluated by immunizing Balc C mice with primary and booster doses of EcA mutants over 66 days followed by the measurement of IgG and IgM titers. In addition, the binding of wild-type EcA and mutants to pre-existing anti-asparaginase antibodies in serum isolated from primary and relapsed ALL patients receiving asparaginase therapy was studied by indirect ELISA. Pharmacokinetics of the mutants was evaluated in female Balb C mice by plotting the asparaginase activity-time curve till 24 h following administration of a single i.v. dose of 50 IU/kg and compared with the wildtype. Finally the safety of the EcA mutants was determined by performing single-dose acute toxicity study at 3 dose levels in Balb C mice. Results At 37 oC, we did not find any significant difference in asparaginase activity of any EcA variant with the wild-type. All four variants showed markedly reduced glutaminase activity as compared to wild-type EcA (P&lt;0.05). In MTT assay Mutant D showed 34.02%, Mutant B (32.4%), Mutant C (31.4%), Mutant A (24.22%), and wild type EcA (24.37%) reduction in REH cell viability in comparison to untreated cells. Binding to commercially available anti-asparaginase antibody was 49.09%, 32.63%, 27.43% less for Mutant D, Mutant B and Mutant C respectively compared to wild type EcA. Mice immunized with Mutant D showed 5-fold lower titres of IgG and 4-fold lower titres of IgM in comparison to wild type. Similarly, when compared to wild type, mice immunized with Mutant C showed 2.5-fold lower titres of IgG and 3.5-fold lower titres of IgM. At the same time Mutants B, C and D showed 2-3 fold less binding to pre-existing anti-asparaginase antibodies in samples collected from primary ALL patients undergoing asparaginase therapy. Similarly mutants B, C and D showed approximately 2-fold less binding to pre-existing anti-asparaginase antibodies in samples collected from relapsed ALL patients. Pharmacokinetic profiling showed that half life of Mutant A (267.28 ± 9.74), Mutant B (213.29 ± 6.53) and Mutant D (273.83 ± 35.45) was significantly longer than the wild type (102.17 ± 7.7). In acute toxicity study, we did not observe any significant toxicity of the mutants over the wildtype EcA. The findings are summarized in the figure. Conclusion Considering the immunogenicity, antigenicity and pharmacokinetics, mutant D emerged as a potent drug candidate for further development in the treatment of ALL. Figure 1 Figure 1. Disclosures No relevant conflicts of interest to declare.