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  • Online Resource  (3)
  • Kramer, Sven  (3)
  • 1
    Online Resource
    Online Resource
    Rapid and Semi-Automated Screening of Multiple Samples for Antigen-Specific T Lymphocytes
    American Society of Hematology ; 2012
    In:  Blood Vol. 120, No. 21 ( 2012-11-16), p. 4839-4839
    Details
    In: Blood, American Society of Hematology, Vol. 120, No. 21 ( 2012-11-16), p. 4839-4839
    Abstract: Abstract 4839 Functional characterizations of T lymphocytes are performed to gain understanding on their contribution in certain immunological situations, to monitor the course of diseases, and to track therapeutic interventions. Meanwhile the flow cytometric analysis of antigen-specific T cells examined for intracellular cytokine production and expression of activation markers after a short-term in vitro antigenic challenge is a well-established method for research applications. Despite the advantages of this approach to qualify samples on a single cell level and by multiple parameters, the broad use of this analysis for immune monitoring purposes is hampered. Screening of a lot of samples is time-consuming, requires many manual handling steps, and operator experience in flow cytometric analysis of stimulated T cell samples. To overcome these hurdles, we worked out a complete strategy to rapidly study cytokine and activation marker profiles in antigen-specific T cells of multiple samples by a semi-automated process. For the simultaneous analysis of multiple samples we examined for the T cell stimulation an antigen pre-coated 96-strip-well culture system. This flexible and ready-to-use format provides the opportunity to screen either for a single antigen or in parallel for up to twelve antigen specificities by combining 8-well-strips possessing different antigens. The coated antigens consist of pools of overlapping 15-mer peptides derived from a single viral protein of cytomegalovirus, Epstein-Barr-Virus, or adenovirus. The peptide pools have been designed for activation of the specific CD4+ as well as CD8+ T cells. They are solubilized and thereby accessible for T cell stimulation after addition of a cell sample, e.g. peripheral blood mononuclear cells, suspended in culture medium into the antigen-coated well. After a stimulation period of six hours the induced T cell response is comparable to the activation with a conventional lyophilized and reconstituted peptide pool. To reduce the time and work load for cell harvesting, fixation, permeabilization, and staining, we developed a protocol and reagents to allow a rapid and easy-to-handle intracellular staining procedure. Compared to conventional staining protocols, all steps are executed in the 96-strip-well culture plate, i.e. cell harvesting is dispensable. Without any washing step, cells are fixed and stained with defined reagent cocktails containing antibodies to identify virus-specific CD3+ CD4+ CD154+ and/or CD3+ CD8+ T cells and various Anti-cytokine-fluorochrome conjugates to evaluate the cytokine pattern. With these modifications, we drastically diminished the overall processing time for the staining of up to 96 samples to only 50 minutes. Furthermore, we integrated an automated flow cytometric analysis process. This includes the possibility to measure the samples in the 96-strip-well plates hands-free using pre-defined experiment settings and acquisition templates. We also applied an automated gating strategy for the data analysis. Finally, a report summarizes the results of the T cell response against several viral proteins for all samples tested, e.g. frequencies of cytokine+ CD154+ CD4+ and cytokine+ CD8+ T cell subsets are indicated. Hands-on time for the multi-sample acquisition and analysis is only minimal and the standardized reagents/protocol and sample analysis process decrease inter- and intra-assay variations. In summary, with our newly developed tools and protocols for in vitro T cell stimulation, staining of activation markers as well as intracellular cytokines, and automated flow cytometric analysis we have set up a fast and convenient procedure to routinely monitor antigen-specific T cell responses. Disclosures: Richter: Miltenyi Biotec GmbH: Employment. Niemöller:Miltenyi Biotec GmbH: Employment. Verwohl:Miltenyi Biotec GmbH: Employment. Lange:Miltenyi Biotec GmbH: Employment. Foerster-Marniok:Miltenyi Biotec GmbH: Employment. Brauns:Miltenyi Biotec GmbH: Employment. Kramer:Miltenyi Biotec GmbH: Employment. Höher-Peters:Miltenyi Biotec GmbH: Employment. Büscher:Miltenyi Biotec GmbH: Employment. Assenmacher:Miltenyi Biotec GmbH: Employment. Schmitz:Miltenyi Biotec GmbH: Employment.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V120.21.4839.4839
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2012
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 2
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    Online Resource
    Virus-Specific T Lymphocytes Maintain Their In Vivo Phenotype and Functional Competence After Automated Processing To Generate a Cellular Product For Immunotherapy
    American Society of Hematology ; 2013
    In:  Blood Vol. 122, No. 21 ( 2013-11-15), p. 3268-3268
    Details
    In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 3268-3268
    Abstract: Adoptive transfer of virus-specific T cells is an encouraging strategy to manage severe and fatal infections in immunocompromised patients. To generalize this approach, a cGMP- compliant enrichment process of both CD4+ and CD8+ viral-specific T cells is necessary. Here, we used a newly established automated manufacturing process for rapid and efficient ex vivo selection of multi-virus-specific CD4+ and CD8+ T cells. We show how the isolated virus-specific T cells retain their original effector/memory status and their effector functions. Method Leukapheresis from healthy donors were used as starting material. Multi-virus or cytomegalovirus pp65 peptide-specific T cell products were generated in a novel closed cell-processing device with a fully automated manufacturing procedure. During this process white blood cells were stimulated with either a combination of peptide pools covering cytomegalovirus pp65, Epstein-Barr-Virus EBNA-1, BZLF1, and LMP2, and adenovirus hexon protein (n=6) or with a single pp65 peptide for four hours (n=4). Subsequently, virus-specific CD4+ and CD8+ T cells were magnetically enriched using the IFN-g secretion assay technology. In parallel, the reversible MHC/peptide multimer technology, which is restricted to CD8+ peptide-specific T cell enrichment, was used for comparison in a manual magnetic selection procedure for pp65 peptide-specific CD8+ T cells (n=4). All virus-specific T cell products were rested in vitro in the presence of T-cell-depleted PBMCs without addition of cytokines or antigens for up to 4 days. Expression of CD45RA, CCR7, CD28, CD69, CD137 as well as IFN-g production with and without cognate antigen(s)-restimulation were analyzed by flow cytometry before and up to 4 days after the selection process. Results Manufacturing of multi-virus and pp65 peptide-specific T cells using the IFN-g secretion assay technology requires a short period of antigen stimulation and IFN-g expression, therefore, up to 96% of T cells produced IFN-g in the enriched fraction. However, after a few days resting phase in culture, IFN-g production decreased drastically. In addition, we detected an upregulation of CD69 and CD137 in the IFN-g enriched T cell products directly and 24 hours after the selection process, respectively. The transient nature of activation could again be confirmed, as both, CD69 and CD137 were downregulated during the resting phase. Results were compared to pp65-peptide specific CD8+ T cell products generated by the MHC/peptide multimer technology, which does not require an antigen incubation step. Activation was also seen for these enriched T cells, even when the MHC/peptide complexes were released, while unprocessed and cultured PBMC did not show IFN-g secretion or activation marker expression; indicating that cell processing and not the culture conditions triggered the activation. To test the functionality of the generated T cell products, we re-incubated three days resting cells with the corresponding antigens. In all samples, independent of the technology used for selection, induction of IFN-g expression in up to 100% of T cells was observed. Thus, T cells in all the products were able to maintain their in vivo imprinted physiological role, i.e. IFN-g production after antigen contact. Furthermore we examined if cell processing influences the effector/memory status of virus-specific T cells. Because the MHC/peptide multimer technology is restricted to the selection of single peptide-specific CD8+ T cells only, we monitored CD45RA, CD28 and CCR7 expression on pp65-peptide specific CD8+ T cells either identified by IFN-g secretion or by MHC/peptide multimer staining before and directly after the enrichment. The frequency of CD45RA+ and CD28+ cell populations varied between the donors and CCR7 was not detected at all, but importantly the enrichment process did not induce phenotypic changes. This result demonstrates the phenotype is stable during the manufacturing process. Conclusion A newly developed automated manufacturing process for direct ex vivo enrichment of multi-virus-specific CD4+ and CD8+ T cell populations via the IFN-g secretion assay technology provides a product for immunotherapy, where the original phenotypic and functional characteristics of the cells are conserved. Hence this cellular product is expected to fight efficiently against viral infections upon adoptive transfer. Disclosures: Richter: Miltenyi Biotec GmbH: Employment. Preussner:Miltenyi Biotec: Employment. Traska:Miltenyi Biotec: Employment. Peters:Miltenyi Biotec: Employment. Oysal:Miltenyi Biotec: Employment. Ruhnke:Miltenyi Biotec: Employment. Brauns:Miltenyi Biotec: Employment. Kramer:Miltenyi Biotec: Employment. Schmitz:Miltenyi Biotec: Employment. Assenmacher:Miltenyi Biotec: Employment.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V122.21.3268.3268
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2013
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
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  • 3
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    Online Resource
    Efficient and Rapid In Vitro Generation of Multi-Virus-Specific CD4+ and CD8+ T Cells for Adoptive Immunotherapy.
    American Society of Hematology ; 2010
    In:  Blood Vol. 116, No. 21 ( 2010-11-19), p. 1175-1175
    Details
    In: Blood, American Society of Hematology, Vol. 116, No. 21 ( 2010-11-19), p. 1175-1175
    Abstract: Abstract 1175 Adoptive transfer of T cells with specificity for one or several viruses is a promising strategy for the treatment or prevention of multiple opportunistic infections after allogenic stem cell transplantation. Here we have established a protocol for the generation of CMV, EBV and adenovirus (tri-virus) specific T cells. Virus-specific CD4+ and CD8+ T cells are stimulated in vitro using pools of peptides and subsequently magnetically enriched by virtue of their IFN-g secretion. The peptide pools are composed of synthetic peptides of mainly 15 amino acid length with 11 amino acid overlap covering the complete protein sequence of a viral antigen. We have analyzed the efficiency of short-term in vitro restimulation of cytomegalovirus (CMV)-specific CD4+ and CD8+ effector/memory T cells from CMV-infected healthy donors by CMV pp65 and IE-1 peptide pools as compared to single MHC class I restricted immunodominant pp65 and IE-1 9-mer peptides and CMV pp65 and IE-1 recombinant proteins based on flow cytometric analysis of the IFN-g response. The results show that peptide pools as well as recombinant proteins are useful for efficient activation of CD4+ T helper cells. In contrast, efficient stimulation of CD8+ T cells is achieved only using either the overlapping 15-mer peptide pools or the immunodominant 9-mer peptides. To test the usability of peptide pools to generate multi-virus-specific CD4+ and CD8+ T cells for adoptive immunotherapy we stimulated PBMC of several healthy donors with a combination of 5 peptide pools selected from CMV pp65, CMV IE-1, adenovirus hexon, EBV EBNA-1 and EBV BZLF-1 for 4 hours. Concomitant addition of 4 peptide pools to a single PBMC sample might decrease the activation efficiency for each peptide pool due to competition of peptides for MHC binding. Thus, as a control, we have divided PBMC into 4 aliquots, incubated each aliquot with a single peptide pool for 2 hours, and recombined the aliquots for T cell stimulation for another 4 hours. Afterwards, we used the IFN-g secretion assay technology to magnetically select for antigen-activated IFN-γ-secreting CD4+ and CD8+ T cells to a purity of 〉 90%. Antigen specificity and functionality of the enriched T cell population was examined after expansion. Within 9 – 14 days, T cells expanded between 4 and 745 fold. In addition, 21–53% of CD4+ T cells and 53–87% of CD8+ T cells re-expressed IFN-γ upon re-stimulation with the mixture of 4 peptide pools, confirming the high antigen specificity and functionality of the expanded T cells. Enrichment and expansions of T cells works equally well independent on whether the T cells are specific for CMV pp65, CMV IE-1, adenovirus hexon, EBV EBNA-1 or EBV BZLF-1. This can be deduced from the fact that the relative frequencies of T cells specific for each single antigen are about the same before and after the coenrichment and coexpansion process. For both approaches, the concomitant and separate antigen loading, we found comparable results with respect to recovery and purity of enriched IFN-γ-secreting T cells, expansion rate and antigen specificity of the expanded T cells. In summary, our results show that the combined usage of several peptide pools enables simultaneous and efficient activation of CMV, EBV and adenovirus (tri-virus) specific CD4+ and CD8+ T cells. Activated tri-virus specific T cells can be coenriched using the IFN-g secretion assay technology and used either directly or after in vitro coexpansion for adoptive immunotherapy. Disclosures: Richter: Miltenyi Biotec GmbH: Employment. Foerster:Miltenyi Biotec GmbH: Employment. Lasmanowicz:Miltenyi Biotec GmbH: Employment. Brauns:Miltenyi Biotec GmbH: Employment. Kramer:Miltenyi Biotec GmbH: Employment. Jekow:Miltenyi Biotec GmbH: Employment. Rönspeck:Miltenyi Biotec GmbH: Employment. Assenmacher:m: Employment. Schmitz:Miltenyi Biotec GmbH: Employment.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V116.21.1175.1175
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2010
    detail.hit.zdb_id: 1468538-3
    detail.hit.zdb_id: 80069-7
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    Open Access Request
    Availability (electronic / print)
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