技术资料

There is a global need to elucidate protective antigens expressed by the SARS-coronavirus (SARS-CoV). Monoclonal antibody reagents that recognise specific antigens on SARS-CoV are needed urgently. In this report,the development and immunochemical characterisation of a panel of murine monoclonal antibodies (mAbs) against the SARS-CoV is presented,based upon their specificity,binding requirements,and biological activity. Initial screening by ELISA,using highly purified virus as the coating antigen,resulted in the selection of 103 mAbs to the SARS virus. Subsequent screening steps reduced this panel to seventeen IgG mAbs. A single mAb,F26G15,is specific for the nucleoprotein as seen in Western immunoblot while five other mAbs react with the Spike protein. Two of these Spike-specific mAbs demonstrate the ability to neutralise SARS-CoV in vitro while another four Western immunoblot-negative mAbs also neutralise the virus. The utility of these mAbs for diagnostic development is demonstrated. Antibody from convalescent SARS patients,but not normal human serum,is also shown to specifically compete off binding of mAbs to whole SARS-CoV. These studies highlight the importance of using standardised assays and reagents. These mAbs will be useful for the development of diagnostic tests,studies of SARS-CoV pathogenesis and vaccine development. ?? 2004 Elsevier B.V. All rights reserved. View Publication

The 2009 H1N1 influenza pandemic was a major international public health crisis which caused considerable morbidity and mortality worldwide. The goal of this study was to produce anti-H1 monoclonal antibodies (MAbs) for improving diagnostic immunological assays and to develop potential immunotherapeutics. Nine MAbs were produced after immunizing mice with recombinant hemagglutinin (HA) protein from A/California/06/09. Two spleenocyte myeloma fusions yielded 1588 hybridoma cultures. After screening the hybridoma culture supernatants for antibody reactivity to rHA,nine clones were selected for further characterization. Cross-reactivity studies of the anti-rHA antibodies against a panel of influenza viruses (H1-H16) revealed eight out of nine MAbs were specific to the pandemic H1 subtype,except for MAb F256G2sc1 which also cross-reacted with H5 subtype virus. All MAbs were of the IgG1κ isotype,except F256G2sc1 which was IgG2aκ. The anti-rHA MAbs had binding affinities to rHA that ranged from a K(D) (disassociation constant) of 1.34×10(-9)M (F255G7sc1) to the weakest affinity of 4.60×10(-8)M (F255G4sc1). Interestingly,in a plaque reduction neutralization assay,all MAbs except F255G3sc1 demonstrated neutralizing ability. Furthermore,all MAbs except F255G3sc1 and F255G9sc1 exhibited anti-hemagglutinin activity against pandemic H1N1 viruses,but not against classical North American swine influenza viruses of the same subtype. Immunofluorescence assay (IFA) demonstrated that all MAbs except F255G1sc1 and F255G3sc1 were able to detect 2009 pandemic H1N1 (2009) virus- infected MDCK cells. The MAbs were also evaluated for potential use in competitive ELISA (cELISA),and with the exception of F255G3sc1,all MAbs showed competitive activity with serum collected from pigs infected with pandemic H1N1 virus (2009). The developed MAbs have demonstrated utility as immunodiagnostic and research reagents,and their neutralizing capabilities also hold potential for designing antiviral drugs against pandemic influenza. View Publication

An immunochromatographic assay (Campy-ICA) using a newly generated single monoclonal antibody against a 15-kDa cell surface protein of Campylobacter jejuni was developed. When cell suspensions of 86 C. jejuni strains and 27 Campylobacter coli strains were treated with a commercially available bacterial protein extraction reagent and the resulting extracts were tested with the Campy-ICA,they all yielded positive results. The minimum detectable limits for the C. jejuni strains ranged from 1.8 x 10(4) to 8.2 x 10(5) CFU/ml of cell suspension,and those for the C. coli strains ranged from 1.4 x 10(5) to 4.6 x 10(6) CFU/ml of cell suspension. All 26 non-Campylobacter species tested yielded negative results with the Campy-ICA. To evaluate the ability of the Campy-ICA to detect C. jejuni and C. coli in human stool specimens,suspensions of 222 stool specimens from patients with acute gastroenteritis were treated with the bacterial protein extraction reagent,and the resulting extracts were tested with the Campy-ICA. The Campy-ICA results showed a sensitivity of 84.8% (28 of 33 specimens) and a specificity of 100% (189 of 189 specimens) compared to the results of isolation of C. jejuni and C. coli from the stool specimens by a bacterial culture test. The Campy-ICA was simple to perform and was able to detect Campylobacter antigen in a fecal extract within 15 min. These results suggest that Campy-ICA testing of fecal extracts may be useful as a simple and rapid adjunct to stool culture for detecting C. jejuni and C. coli in human stool specimens. View Publication

Human monoclonal antibodies against RSV have high potential for use as prophylaxis or therapeutic molecules,and they also can be used to define the structure of protective epitopes for rational vaccine design. In the past,however,isolation of human monoclonal antibodies was difficult and inefficient. Here,we describe contemporary methods for activation and proliferation of primary human memory B cells followed by cytofusion to non-secreting myeloma cells by dielectrophoresis to generate human hybridomas secreting RSV-specific monoclonal antibodies. We also provide experimental methods for screening human B cell lines to obtain RSV-specific lines,especially lines secreting neutralizing antibodies. View Publication

PURPOSE: In vitro sensitivity to the proapoptotic receptor agonists dulanermin (rhApo2L/TRAIL) and drozitumab (DR5-agonist antibody) is strongly predicted by the expression of the O-glycosylation enzymes GALNT14 in non-small cell lung cancer (NSCLC) cell lines (among others) and of FUT3/6 in colorectal cancer (CRC) cell lines. We developed immunohistochemistry (IHC) assays that measure GALNT14 and FUT3/6 levels in archival formalin-fixed,paraffin-embedded human tumor tissue to determine marker prevalence in NSCLC and CRC tissue and to enable the future examination of these markers in clinical trials. EXPERIMENTAL DESIGN: GALNT14 or FUT3/6 ELISA-positive hybridoma clones were screened through IHC on cell pellets with known mRNA levels. The specificity of staining was examined in cell lines,normal tissue,and tumor tissue. RESULTS: GALNT14 and FUT3/6 IHC exhibited a golgi staining pattern and correlated with GALNT14 and FUT3/6 (but not GALNT2 and FUT4) mRNA expression levels in cell lines and normal tissues,suggesting specificity. GALNT14 and FUT3/6 H-scores were significantly higher in cell lines sensitive to dulanermin (P = 0.01 and P = 0.0004,respectively) and drozitumab (P = 0.03 and P textless 0.0001,respectively) versus resistant cell lines. GALNT14 and FUT3/6 H-scores varied widely,with approximately 45% of NSCLC samples exhibiting weak to moderate GALNT14 staining (H-score of at least 25) and 70% of CRC samples exhibiting moderate to strong FUT3/6 staining (H-score of at least 125). CONCLUSIONS: GALNT14 and FUT3/6 expression can be assessed in human tumors using sensitive and specific IHC assays. Both assays are being deployed in ongoing clinical trials of dulanermin and drozitumab to assess potential utility for patient selection. View Publication

The EphA2 receptor tyrosine kinase is overexpressed in many different types of human cancers where it functions as a powerful oncoprotein. Dramatic changes in the subcellular localization and function of EphA2 have also been linked with cancer,and in particular,unstable cancer cell-cell contacts prevent EphA2 from stably binding its ligand on the surface of adjoining cells. This change is important in light of evidence that ligand binding causes EphA2 to transmit signals that negatively regulate tumor cell growth and invasiveness and also induce EphA2 degradation. On the basis of these properties,we have begun to target EphA2 on tumor cells using agonistic antibodies,which mimic the consequences of ligand binding. In our present study,we show that a subset of agonistic EphA2 antibodies selectively bind epitopes on malignant cells,which are not available on nontransformed epithelial cells. We also show that such epitopes arise from differential cell-cell adhesions and that the stable intercellular junctions of nontransformed epithelial cells occlude the binding site for ligand,as well as this subset of EphA2 antibodies. Finally,we demonstrate that antibody targeting of EphA2 decreases tumor cell growth as measured using xenograft tumor models and found that the mechanism of antibody action relates to EphA2 protein degradation in vivo. Taken together,these results suggest new opportunities for therapeutic targeting of the large number of different cancers that express EphA2 in a manner that could minimize potential toxicities to normal cells. View Publication

Although embryonal proteins have been used as tumor marker,most are not useful for detection of early malignancy. In the present study,we developed mouse monoclonal antibodies against fetal lung of miniature swine,and screened them to find an embryonal protein that is produced at the early stage of malignancy,focusing on lung adenocarcinoma. We found an antibody clone that specifically stained stroma of lung adenocarcinoma. LC-MS/MS identified the protein recognized by this clone as dimethylarginine dimethylaminohydrolase 2 (DDAH2),an enzyme known for antiatherosclerotic activity. DDAH2 was found to be expressed in fibroblasts of stroma of malignancies,with higher expression in minimally invasive adenocarcinoma (MIA) and invasive adenocarcinoma than in adenocarcinoma in situ (AIS). Moreover,tumors with high stromal expression of DDAH2 had a poorer prognosis than those without. In vitro analysis showed that DDAH2 increases expression of endothelial nitric oxide synthase (eNOS),inducing proliferation and capillary-like tube formation of vascular endothelial cells. In resected human tissues,eNOS also showed higher expression in invasive adenocarcinoma than in AIS and normal lung,similarly to DDAH2. Our data indicate that expression of DDAH2 is associated with invasiveness of lung adenocarcinoma via tumor angiogenesis. DDAH2 expression might be a prognostic factor in lung adenocarcinoma. View Publication

Although the majority of patients with acute myeloid leukemia (AML) initially respond to chemotherapy,many of them subsequently relapse,and the mechanistic basis for AML persistence following chemotherapy has not been determined. Recurrent somatic mutations in DNA methyltransferase 3A (DNMT3A),most frequently at arginine 882 (DNMT3A(R882)),have been observed in AML and in individuals with clonal hematopoiesis in the absence of leukemic transformation. Patients with DNMT3A(R882) AML have an inferior outcome when treated with standard-dose daunorubicin-based induction chemotherapy,suggesting that DNMT3A(R882) cells persist and drive relapse. We found that Dnmt3a mutations induced hematopoietic stem cell expansion,cooperated with mutations in the FMS-like tyrosine kinase 3 gene (Flt3(ITD)) and the nucleophosmin gene (Npm1(c)) to induce AML in vivo,and promoted resistance to anthracycline chemotherapy. In patients with AML,the presence of DNMT3A(R882) mutations predicts minimal residual disease,underscoring their role in AML chemoresistance. DNMT3A(R882) cells showed impaired nucleosome eviction and chromatin remodeling in response to anthracycline treatment,which resulted from attenuated recruitment of histone chaperone SPT-16 following anthracycline exposure. This defect led to an inability to sense and repair DNA torsional stress,which resulted in increased mutagenesis. Our findings identify a crucial role for DNMT3A(R882) mutations in driving AML chemoresistance and highlight the importance of chromatin remodeling in response to cytotoxic chemotherapy. View Publication

Current methods for producing immunoglobulin G (IgG) antibodies in engineered cells often require refolding steps or secretion across one or more biological membranes. Here,we describe a robust expression platform for biosynthesis of full-length IgG antibodies in the Escherichia coli cytoplasm. Synthetic heavy and light chains,both lacking canonical export signals,are expressed in specially engineered E. coli strains that permit formation of stable disulfide bonds within the cytoplasm. IgGs with clinically relevant antigen- and effector-binding activities are readily produced in the E. coli cytoplasm by grafting antigen-specific variable heavy and light domains into a cytoplasmically stable framework and remodelling the fragment crystallizable domain with amino-acid substitutions that promote binding to Fcγ receptors. The resulting cytoplasmic IgGs-named 'cyclonals'-effectively bypass the potentially rate-limiting steps of membrane translocation and glycosylation. View Publication

In early life,a high susceptibility to infectious diseases as well as a poor capacity to respond to vaccines are generally observed as compared with observations in adults. The mechanisms underlying immune immaturity have not been fully elucidated and could be due to the immaturity of the T/B cell responses and/or to a defect in the nature and quality of Ag presentation by the APC. This prompted us to phenotypically and functionally characterize early life murine dendritic cells (DC) purified from spleens of 7-day-old mice. We showed that neonatal CD11c(+) DC express levels of costimulatory molecules and MHC molecules similar to those of adult DC and are able to fully maturate after LPS activation. Furthermore,we demonstrated that neonatal DC can efficiently take up,process,and present Ag to T cells in vitro and induce specific CTL responses in vivo. Although a reduced number of these cells was observed in the spleen of neonatal mice as compared with adults,this study clearly shows that neonatal DC have full functional capacity and may well prime Ag-specific naive T cells in vivo. View Publication

Protein kinase CK2 (formerly casein kinase II) is a serine/threonine kinase overexpressed in many human tumors,transformed cell lines,and rapidly proliferating tissues. Recent data have shown that many cancers involve inappropriate reactivation of Wnt signaling through ectopic expression of Wnts themselves,as has been seen in a number of human breast cancers,or through mutation of intermediates in the Wnt pathway,such as adenomatous polyposis coli or beta-catenin,as described in colon and other cancers. Wnts are secreted factors that are important in embryonic development,but overexpression of certain Wnts,such as Wnt-1,leads to proliferation and transformation of cells. We report that upon stable transfection of Wnt-1 into the mouse mammary epithelial cell line C57MG,morphological changes and increased proliferation are accompanied by increased levels of CK2,as well as of beta-catenin. CK2 and beta-catenin co-precipitate with the Dvl proteins,which are Wnt signaling intermediates. A major phosphoprotein of the size of beta-catenin appears in in vitro kinase reactions performed on the Dvl immunoprecipitates. In vitro translated beta-catenin,Dvl-2,and Dvl-3 are phosphorylated by CK2. The selective CK2 inhibitor apigenin blocks proliferation of Wnt-1-transfected cells,abrogates phosphorylation of beta-catenin,and reduces beta-catenin and Dvl protein levels. These results demonstrate that endogenous CK2 is a positive regulator of Wnt signaling and growth of mammary epithelial cells. View Publication

mAbs constitute an important biological tool for influenza virus haemagglutinin (HA) epitope mapping through the generation of escape mutants,which could provide insights into immune evasion mechanisms and may benefit the future development of vaccines. Several influenza A (H1N1) pandemic 2009 (pdm09) HA escape mutants have been recently described. However,the HA antigenic sites of the previous seasonal A/Brisbane/59/2007 (H1N1) (Bris07) virus remain poorly documented. Here,we produced mAbs against pdm09 and Bris07 HA proteins expressed in human HEK293 cells. Escape mutants were generated using mAbs that exhibited HA inhibition and neutralizing activities. The resulting epitope mapping of the pdm09 HA protein revealed 11 escape mutations including three that were previously described (G172E,N173D and K256E) and eight novel ones (T89R,F128L,G157E,K180E,A212E,R269K,N311T and G478E). Among the six HA mutations that were part of predicted antigenic sites (Ca1,Ca2,Cb,Sa or Sb),three (G172E,N173D and K180E) were within the Sa site. Eight escape mutations (H54N,N55D,N55K,L60H,N203D,A231T,V314I and K464E) were obtained for Bris07 HA,and all but one (N203D,Sb site) were outside the predicted antigenic sites. Our results suggest that the Sa antigenic site is immunodominant in pdm09 HA,whereas the N203D mutation (Sb site),present in three different Bris07 escape mutants,appears as the immunodominant epitope in that strain. The fact that some mutations were not part of predicted antigenic sites reinforces the necessity of further characterizing the HA of additional H1N1 strains. View Publication