Study on the Identification of Samples Mistyped as O Phenotype and the Strategy of Safe Blood Transfusion / 中国实验血液学杂志

OBJECTIVE@#To investigate the indentification method of samples mistyped as O phenotype and to explore the precision transfusion strategy.@*METHODS@#The blood samples from donors and patients admitted in our center from 2018 to 2019 was collected. The samples with O phenotype suspected subtypes were further determined by tube test, adsorption-elution test, etc. Molecular testing was used to sequence the related blood type genes of the subjects.@*RESULTS@#Among 14 subjects misjudged as O, 11 different genotypes were identified, in which 3 blood donors were Ael02/O02, Bel03/O02, and one para-Bombay with B101/O02 (FUT1: h3h3; FUT2: Se@*CONCLUSION@#The phenotypes of Ael, Bel, Aw and para-Bombay subtypes are easily misjudged as type O. Molecular technology is helpful to identify the genotype of subtypes, and the corresponding transfusion strategies could be reasonably performed.

Enterogenous infection of Candida albicans in immunocompromised rats under severe acute pancreatitis / 世界急诊医学杂志（英文）

@#BACKGROUND: Opportunistic infection of Candida albicans (C. albicans) has become a serious problem in immunocompromised patients. The study aimed to explore the mechanism of enterogenous infection of C. albicans in immunocompromised rats under severe acute pancreatitis (SAP). METHODS: Sprague Dawley (SD) rats (n=100) were randomly assigned into 5 groups as the following: blank group, cyclophosphamide+ceftriaxone+SAP group, cyclophosphamide+ceftriaxone group, cyclophosphamide+SAP group, and cyclophosphamide group. The rats were sacrificed at 5 and 10 days, and their jejunum, colon, mesenteric lymph nodes, pancreas, intestinal content, and blood were quickly collected to detect C. albicans. A region of the 25S rRNA gene was chosen and amplified by polymerase chain reaction (PCR) to differentiate C. albicans genotypes. The amplified products were further sequenced and compared to judge their homology. RESULTS: Compared with the Cyclophosphamide group, the combination of immunosuppressants and broad-spectrum antibiotics significantly increased the colonization of C. albicans in intestine in 5 and 10 days. Pure SAP stress did not increase the opportunistic infection of C. albicans. The PCR products of C. albicans isolates all belonged to the genotype A family, and sequence alignment showed that the amplified fragments were homologous. CONCLUSION: The damage of immune system and broad-spectrum antimicrobial agents are important risk factors for opportunistic fungal infection. Intestinal tract is an important source for genotype-A C. albicans to translocate and invade into bloodstream.

A novel M2e-multiple antigenic peptide providing heterologous protection in mice

Swine influenza viruses (SwIVs) cause considerable morbidity and mortality in domestic pigs, resulting in a significant economic burden. Moreover, pigs have been considered to be a possible mixing vessel in which novel strains loom. Here, we developed and evaluated a novel M2e-multiple antigenic peptide (M2e-MAP) as a supplemental antigen for inactivated H3N2 vaccine to provide cross-protection against two main subtypes of SwIVs, H1N1 and H3N2. The novel tetra-branched MAP was constructed by fusing four copies of M2e to one copy of foreign T helper cell epitopes. A high-yield reassortant H3N2 virus was generated by plasmid based reverse genetics. The efficacy of the novel H3N2 inactivated vaccines with or without M2e-MAP supplementation was evaluated in a mouse model. M2e-MAP conjugated vaccine induced strong antibody responses in mice. Complete protection against the heterologous swine H1N1 virus was observed in mice vaccinated with M2e-MAP combined vaccine. Moreover, this novel peptide confers protection against lethal challenge of A/Puerto Rico/8/34 (H1N1). Taken together, our results suggest the combined immunization of reassortant inactivated H3N2 vaccine and the novel M2e-MAP provided cross-protection against swine and human viruses and may serve as a promising approach for influenza vaccine development.

Protective efficacy of a high-growth reassortant swine H3N2 inactivated vaccine constructed by reverse genetic manipulation

Novel reassortant H3N2 swine influenza viruses (SwIV) with the matrix gene from the 2009 H1N1 pandemic virus have been isolated in many countries as well as during outbreaks in multiple states in the United States, indicating that H3N2 SwIV might be a potential threat to public health. Since southern China is the world's largest producer of pigs, efficient vaccines should be developed to prevent pigs from acquiring H3N2 subtype SwIV infections, and thus limit the possibility of SwIV infection at agricultural fairs. In this study, a high-growth reassortant virus (GD/PR8) was generated by plasmid-based reverse genetics and tested as a candidate inactivated vaccine. The protective efficacy of this vaccine was evaluated in mice by challenging them with another H3N2 SwIV isolate [A/Swine/Heilongjiang/1/05 (H3N2) (HLJ/05)]. Prime and booster inoculation with GD/PR8 vaccine yielded high-titer serum hemagglutination inhibiting antibodies and IgG antibodies. Complete protection of mice against H3N2 SwIV was observed, with significantly reduced lung lesion and viral loads in vaccine-inoculated mice relative to mock-vaccinated controls. These results suggest that the GD/PR8 vaccine may serve as a promising candidate for rapid intervention of H3N2 SwIV outbreaks in China.

Study on using NSP2 protein of porcine reproductive and respiratory syndrome virus (HuN4-F112) to express E2 neutralizing epitope of classical swine fever virus / 病毒学报

Establishment of recombinant porcine reproductive and respiratory syndrome virus (PRRSV) with co-expression E2 Epitope of Classical Swine Fever virus (CSFV) is a crucial step to develop a genetic engineered vaccine against PRRSV and CSFV. Reverse genetic manipulation could be adopted as a com monly used technique. In this study, we focus on using nonessential regions of NSP2 (aa480-532 and aa508-532) as viral vector to express E2 Epitope of CSFV. A neutralizing epitope of classical swine fever virus (CSFV) E2 protein was inserted into the two nonessential region of nsp2 by the method of mutant PCR, basing on the infectious clone of HuN4-F112 vaccine strain. The co-expressed full-length cDNA clones (psk-HuN4-F112-delta508-532 + E2 and psk-HuN4-F112-delta480-532 + E2) were assembled by cloning and splice of the gene fragments. The completely assembled full-length cDNA clones were confirmed by sequence and Swa I enzyme digestion. Capped RNAs were transcribed in vitro from a full-length cDNA clone of the viral genome and transfected into BHK-21 cells by liposome to acquire the rescued virus. The rescued recombinant viruses were passaged on MARC-145 cells. The successfully rescued viruses were tested by RT-PCR, digestion, and genome sequence. The results showed that these rescued viruses could be distinguished from the parental virus (HuN4-F112) with the mutant genetic marker (Mlu I enzyme site of virual genome at 14 667nt was created by synonymous mutation) and the inserted nsp2 gene region. The results of IFA showed that the inserted E2 epitope could be expressed by the recombinant viruses and the E2 epitope gene was stable during the viral serial passage. The results of plaque assay and viral growth curve showed that the recovery viruses possessed similar characterses of viral growth to those of the parental virus. In summary, the full-length infectious cDNA clones containing the marker gene were constructed and the marker recombinant viruses were rescued. The results suggested that these stable infectious clones could be used as an important tool for development of novel vaccine against PRRSV.

Selection and inhibitory effect analysis of siRNAs specific to ORF2-4 of porcine reproductive and respiratory syndrome virus / 生物工程学报

RNA interference (RNAi) is a powerful tool in gene function research. In order to investigate the role of GP2, GP3 and GP4 of porcine reproductive and respiratory syndrome virus (PRRSV) in the viral replication, small interference RNAs (siRNAs) directed to ORF2, ORF3 and ORF4 were designed and 12 short hairpin RNA (shRNA) expression vectors were constructed (designed as 21,22,23,24,31,32,33,34,41,42,43 and 44). Cells treated with shRNA expression vectors were infected by PRRSV. The effective shRNA expression vectors were selected by fluorescent quantatitive PCR (FQ-PCR). The virus titer of supernatant of the cells treated with effective shRNA expression vectors (23,24,31,34 and 41) were reduced by 184 to 4.65 folds compared with that of controls.

Identification of mimotope peptides which bind to the SARS-CoV spike protein specific monoclonal antibody 2C5 with phage-displayed peptides library / 生物工程学报

To identify the epitope of SARS-CoV spike protein specific neutralizing monoclonal antibody (MAb) 2C5. The antibody was used as target and three rounds of bio-panning were conducted with phage-display peptide library. After the third panning, 20 phage-plague clones were randomly picked and analyzed for the binding ability with the MAb 2C5 by ELISA. The display sequence analysis demonstrated that among the twenty phage clones, eight clones displayed the same seven-peptide TPEQQFT. All these eight phage-clones showed strongest binding activity with 2C5 in phage ELISA analysis. Furthermore, phages displaying peptide TPEQQFT could specifically inhibit the binding of MAb 2C5 with SARS-CoV spike protein. The results demonstrated that TPEQQFT is a mimic epitope peptide containing neutralizing MAb 2C5. This study may provide information for further structural and functional analysis of spike protein and development vaccine for severe acute respiratory syndrome.

Development of monoclonal antibodies against SARS-CoV and identification of antigenic epitopes / 生物工程学报

Based on the genomic sequence of SARS-CoV strain BJ101, antigenic immunodominant genes coding for the structure proteins of SARS-CoV were predicted by bio-informatics methods, and two chimeric genes A and B with multi-immunodominants lined up by Gly-Pro-Gly linker were synthesized. The chimeric genes were cloned into plasmid pGEX-6p-1 and expressed in E. coli with IPGT inducing. BALB/c mice were immunized with the purified recombinant fusion protein. The specificity of monoclonal antibodies were tested with a commercial ELISA kit for detecting antibody against SARS-CoV. The results showed that two peptides with molecular weights of 34kD and 35kD expressed by the two chimeric genes could be recognized by SARS patient convalescent serum in Western blot. Six positive hybridoma cell lines stably secreting monoclonal antibodies were selected. The subtype of monoclonal antibody D3C5 is IgG2a, and subtypes of all other five monoclonal antibodies are IgG1. Light chains of all monoclonal antibodies are kappa. With a commercial SARS-CoV antibodies detection ELISA kit, five out of six monoclonal antibodies were positively recognized. In western blot analysis with inactived virus cultures, D3D1 specifically recognized a band of about 180 kD. To further analyse the epitopes corresponding to the monoclonal antibodies, six oligoes (S1-S6) from S gene were synthesized and expressed. The results showed that the monoclonal antibodies D3D1 and D3C5 specifically recognized expression product of S2 and S5 oligoes, respectively. The S2 and S5 oligoes are corresponding to 447-458aa and 789-799aa of SARS-CoV S protein respectively.