Christa Tauer scite author profile

Electrofusion and EBV transformation were studied by immortalizing human PBLs from blood of HIV-1-positive volunteers. A panel of 33 cell lines producing human monoclonal antibodies (Hu-MAbs) against HIV-1 was established by cell fusion or EBV transformation. For the first fusion experiments the source of B lymphocytes was peripheral blood of HIV-1-infected donors in CDC stages II or III with CD4 cell counts higher than 500/mm3. Later on, from these patients only, those with high anti-HIV titers were chosen as blood donors. By that means the yield of stable specific hybridomas was increased twofold. In our experiments electrofusion turned out to be a more efficient immortalization method than EBV transformation, due to a high and constant immortalization rate. The hybridomas were stable after intensive subcloning and could be cultivated over a period of 8 months without loss in monoclonal antibody production. Immunoglobulin class, subtype, reactivity against HIV-1 proteins, Western blot patterns, immunofluorescence, and epitopes were characterized. The subtype of all antibodies was IgG1 or IgG3. The light chain was predominantly kappa. All antibodies showed reactivity against HIV-1 envelope or core protein. All hybridomas were stable and suited for mass production. Several Hu-MAbs are becoming an important tool in the field of diagnosis, research, and immunotherapy.

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A Broadly Neutralizing Human Monoclonal Antibody against gp41 of Human Immunodeficiency Virus Type 1

Purtscher¹,

Trkola²,

Grüber³

et al. 1994

AIDS Research and Human Retroviruses

334

264

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We have established a hybridoma clone, designated 2F5, secreting a neutralizing human monoclonal antibody (MAb) specific for gp41 of human immunodeficiency virus type 1 (HIV-1). The epitope of MAb 2F5 was mapped to amino acid sequence Glu-Leu-Asp-Lys-Trp-Ala on the ectodomain of gp41. In this study different in vitro test systems were used to characterize the neutralizing properties of MAb 2F5. In syncytium inhibition assays, fusion inhibition experiments, and neutralization assays on different HIV-susceptible cells (H9, U937, and peripheral blood mononuclear cells) MAb 2F5 showed broad-spectrum neutralizing capacity against HIV-1 laboratory isolates IIIB, MN, RF, and SF2. In addition, primary isolates from AIDS patients were also neutralized.

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A double-inactivated whole virus candidate SARS coronavirus vaccine stimulates neutralising and protective antibody responses

Spruth

Kistner

Savidis-Dacho

et al. 2006

Vaccine

114

127

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A double-inactivated, candidate whole virus vaccine against severe acute respiratory syndrome associated coronavirus (SARS-CoV) was developed and manufactured at large scale using fermenter cultures of serum protein free Vero cells. A two step inactivation procedure involving sequential formaldehyde and U.V. inactivation was utilised in order to ensure an extremely high safety margin with respect to residual infectivity. The immunogenicity of this double-inactivated vaccine was characterised in the mouse model. Mice that were immunised twice with the candidate SARS-CoV vaccine developed high antibody titres against the SARS-CoV spike protein and high levels of neutralising antibodies. The use of the adjuvant Al(OH)3 had only a minor effect on the immunogenicity of the vaccine. In addition, cell mediated immunity as measured by interferon-gamma and interleukin-4 stimulation, was elicited by vaccination. Moreover, the vaccine confers protective immunity as demonstrated by prevention of SARS-CoV replication in the respiratory tract of mice after intranasal challenge with SARS-CoV. Protection of mice was correlated to antibody titre against the SARS-CoV S protein and neutralising antibody titre.

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Cell culture (Vero) derived whole virus (H5N1) vaccine based on wild-type virus strain induces cross-protective immune responses

Kistner

Howard

Spruth

et al. 2007

Vaccine

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The rapid spread and the transmission to humans of avian influenza virus (H5N1) has induced worldwide fears of a new pandemic and raised concerns over the ability of standard influenza vaccine production methods to rapidly supply sufficient amounts of an effective vaccine. We report here on a robust and flexible strategy which uses wild-type virus grown in a continuous cell culture (Vero) system to produce an inactivated whole virus vaccine. Candidate vaccines based on clade 1 and clade 2 influenza H5N1 strains were developed and demonstrated to be highly immunogenic in animal models. The vaccines induce cross-neutralising antibodies, highly cross-reactive T-cell responses and are protective in a mouse challenge model not only against the homologous virus but against other H5N1 strains, including those from another clade. These data indicate that cell culture-grown, whole virus vaccines, based on the wild-type virus, allow the rapid high yield production of a candidate pandemic vaccine.

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A Whole Virus Pandemic Influenza H1N1 Vaccine Is Highly Immunogenic and Protective in Active Immunization and Passive Protection Mouse Models

et al. 2010

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The recent emergence and rapid spread of a novel swine-derived H1N1 influenza virus has resulted in the first influenza pandemic of this century. Monovalent vaccines have undergone preclinical and clinical development prior to initiation of mass immunization campaigns. We have carried out a series of immunogenicity and protection studies following active immunization of mice, which indicate that a whole virus, nonadjuvanted vaccine is immunogenic at low doses and protects against live virus challenge. The immunogenicity in this model was comparable to that of a whole virus H5N1 vaccine, which had previously been demonstrated to induce high levels of seroprotection in clinical studies. The efficacy of the H1N1 pandemic vaccine in protecting against live virus challenge was also seen to be equivalent to that of the H5N1 vaccine. The protective efficacy of the H1N1 vaccine was also confirmed using a severe combined immunodeficient (SCID) mouse model. It was demonstrated that mouse and guinea pig immune sera elicited following active H1N1 vaccination resulted in 100% protection of SCID mice following passive transfer of immune sera and lethal challenge. The immune responses to a whole virus pandemic H1N1 and a split seasonal H1N1 vaccine were also compared in this study. It was demonstrated that the whole virus vaccine induced a balanced Th-1 and Th-2 response in mice, whereas the split vaccine induced mainly a Th-2 response and only minimal levels of Th-1 responses. These data supported the initiation of clinical studies with the same low doses of whole virus vaccine that had previously been demonstrated to be immunogenic in clinical studies with a whole virus H5N1 vaccine.

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Christa Tauer

Generation of Human Monoclonal Antibodies against HIV-1 Proteins; Electrofusion and Epstein-Barr Virus Transformation for Peripheral Blood Lymphocyte Immortalization

A Broadly Neutralizing Human Monoclonal Antibody against gp41 of Human Immunodeficiency Virus Type 1

A double-inactivated whole virus candidate SARS coronavirus vaccine stimulates neutralising and protective antibody responses

Cell culture (Vero) derived whole virus (H5N1) vaccine based on wild-type virus strain induces cross-protective immune responses

A Whole Virus Pandemic Influenza H1N1 Vaccine Is Highly Immunogenic and Protective in Active Immunization and Passive Protection Mouse Models

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