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Generierung und Evaluation von modifizierten NK-Zellen mit SDF-1alpha-Chemotaxis und Reaktivität gegen EGFRvIII-positive GliomzellenMüller, Nadja 05 August 2014 (has links) (PDF)
Die vorliegende Arbeit beinhaltet die Generierung und Evaluation von Natürlichen Killerzellen, die EGFRvIII-positive und SDF-1alpha sekretierende primäre Glioblastomzellen aufspüren, erkennen und effizient abtöten können. Die Kombination der gelenkten Zytotoxizität mit einer optimierten Migration von Effektorzellen des Immunsystems wird auf Grundlage der in dieser Arbeit gewonnenen Daten als ein vielversprechender Ansatz für eine zukünftige Therapie des primären Glioblastoms vorgeschlagen.
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Natural Killer Cells for Therapy of LeukemiaSuck, Garnet, Linn, Yeh Ching, Tonn, Torsten 05 August 2020 (has links)
Clinical application of natural killer (NK) cells against leukemia is an area of intense investigation. In human leukocyte antigen-mismatched allogeneic hematopoietic stem cell transplantations (HSCT), alloreactive NK cells exert powerful anti-leukemic activity in preventing relapse in the absence of graft-versus-host disease, particularly in acute myeloid leukemia patients. Adoptive transfer of donor NK cells post-HSCT or in non-transplant scenarios may be superior to the currently widely used unmanipulated donor lymphocyte infusion. This concept could be further improved through transfusion of activated NK cells. Significant progress has been made in good manufacturing practice (GMP)-compliant large-scale production of stimulated effectors. However, inherent limitations remain. These include differing yields and compositions of the end-product due to donor variability and inefficient means for cryopreservation. Moreover, the impact of the various novel activation strategies on NK cell biology and in vivo behavior are barely understood. In contrast, reproduction of the thirdparty NK-92 drug from a cryostored GMP-compliant master cell bank is straightforward and efficient. Safety for the application of this highly cytotoxic cell line was demonstrated in first clinical trials. This novel ‘off-theshelf’ product could become a treatment option for a broad patient population. For specific tumor targeting chimeric-antigen-receptor-engineered NK-92 cells have been designed.
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Generierung und Evaluation von modifizierten NK-Zellen mit SDF-1alpha-Chemotaxis und Reaktivität gegen EGFRvIII-positive GliomzellenMüller, Nadja 16 July 2014 (has links)
Die vorliegende Arbeit beinhaltet die Generierung und Evaluation von Natürlichen Killerzellen, die EGFRvIII-positive und SDF-1alpha sekretierende primäre Glioblastomzellen aufspüren, erkennen und effizient abtöten können. Die Kombination der gelenkten Zytotoxizität mit einer optimierten Migration von Effektorzellen des Immunsystems wird auf Grundlage der in dieser Arbeit gewonnenen Daten als ein vielversprechender Ansatz für eine zukünftige Therapie des primären Glioblastoms vorgeschlagen.
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Nový chimérický antigenní receptor (CAR) pro terapii infekce lidským cytomegalovirem (HCMV) / New chimeric antigen receptor (CAR) for therapy of human cytomegalovirus (HCMV) infectionKroutilová, Marie January 2018 (has links)
Human cytomegalovirus (HCMV, Herpesviridae) can cause severe complications in the infected individuals undergoing hematopoietic stem cell transplantation. Nowadays, these patients are treated using antivirotics or HCMV-specific T cells derived from the seropositive graft donor. This study explored the possibility of redirecting HCMV-non-specific T cells from a seronegative donor towards HCMV-infected cells via chimeric antigen receptor (CAR), i.e. artificially designed T cell receptor. Viral glycoprotein B (gB) has been selected as a target for this receptor. Published sequence of a single chain variable fragment of a human antibody was used for the design of the CAR against gB (gBCAR). After the verification of production and surface localization in cell lines, gBCAR was being introduced into human T cells via lentiviral vectors. Human fetal lung fibroblasts (LEP) infected with HCMV were used as target cells after the expression of gB at their surface was demonstrated. gBCAR functionality was evaluated by the incubation of modified T cells with infected cells and subsequent analysis of media for IFNγ concentration, which was significantly higher in the setting of gBCAR T cells incubated with HCMV-LEP than in the control incubations. The results obtained show the specificity of gBCAR against...
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Příprava a charakterizace chimerických antigenních receptorů / Construction and characterization of chimeric antigen receptorsPtáčková, Pavlína January 2021 (has links)
Background: The CD19 chimeric antigen receptor (CAR) adoptive T-cell therapy for B-cell leukemia is a promising treatment for relapsed or refractory malignities. The overall response rate of CD19 CAR-T cells in clinical trials was greater than 80% for patients with B-cell acute lymphoblastic leukemia (B-ALL) and non-Hodgkin's lymphoma (NHL). However, CAR-T cell therapy of leukemias and solid tumors has been limited by a lot of factors such as antigen loss of tumor escape variants, reduced proliferation, persistence and tumor-infiltration of CAR-T cells in vivo, immunosuppressive tumor environment, absence of ideal antigens and on-target, off-tumor toxicities. Therefore, new strategies improving the safety and efficacy of CAR-T cells, including further T-cell modification to overcome the immune suppression, are tested. Aims: (i) Bispecific CARs designed to express two antigen-binding domains prevent of antigen escape. (ii) T-cells were genetically modified to express CAR along with an inducible IL-21 gene cassette driven by NFAT-responsive promoter. IL-21 directly enhances CAR-T cell activity and anti-tumor effects. (iii) Applying suicide epitope modification in CAR enables significantly increasing the therapeutic safety of CAR-T cells. Methods: CARs were constructed by using molecular biology...
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Taking Lessons from CAR-T Cells and Going Beyond: Tailoring Design and Signaling for CAR-NK Cells in Cancer TherapyRuppel, Katharina Eva, Fricke, Stephan, Köhl, Ulrike, Schmiedel, Dominik 08 June 2023 (has links)
Cancer immunotherapies utilize the capabilities of the immune system to efficiently target
malignant cells. In recent years, chimeric antigen receptor (CAR) equipped T cells showed
promising results against B cell lymphomas. Autologous CAR-T cells require patientspecific
manufacturing and thus extensive production facilities, resulting in high priced
therapies. Along with potentially severe side effects, these are the major drawbacks of
CAR-T cells therapies. Natural Killer (NK) cells pose an alternative for CAR equipped
immune cells. Since NK cells can be safely transferred from healthy donors to cancer
patients, they present a suitable platform for an allogeneic “off-the-shelf” immunotherapy.
However, administration of activated NK cells in cancer therapy has until now shown poor
anti-cancer responses, especially in solid tumors. Genetic modifications such as CARs
promise to enhance recognition of tumor cells, thereby increasing anti-tumor effects and
improving clinical efficacy. Although the cell biology of T and NK cells deviates in many
aspects, the development of CAR-NK cells frequently follows within the footsteps of CART
cells, meaning that T cell technologies are simply adopted to NK cells. In this review, we
underline the unique properties of NK cells and their potential in CAR therapies. First, we
summarize the characteristics of NK cell biology with a focus on signaling, a fine-tuned
interaction of activating and inhibitory receptors. We then discuss why tailored NK cellspecific
CAR designs promise superior efficacy compared to designs developed for T
cells. We summarize current findings and developments in the CAR-NK landscape:
different CAR formats and modifications to optimize signaling, to target a broader pool of
antigens or to increase in vivo persistence. Finally, we address challenges beyond NK cell
engineering, including expansion and manufacturing, that need to be addressed to pave
the way for CAR-NK therapies from the bench to the clinics.
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Low Energy Electron Irradiation Is a Potent Alternative to Gamma Irradiation for the Inactivation of (CAR-)NK-92 Cells in ATMP ManufacturingWalcher, Lia, Kistenmacher, Ann-Kathrin, Sommer, Charline, Böhlen, Sebastian, Ziemann, Christina, Dehmel, Susann, Braun, Armin, Tretbar, Uta Sandy, Klöß, Stephan, Schambach, Axel, Morgan, Michael, Löffler, Dennis, Kämpf, Christoph, Blumert, Conny, Reiche, Kristin, Beckmann, Jana, König, Ulla, Standfest, Bastian, Thoma, Martin, Makert, Gustavo R., Ulbert, Sebastian, Kossatz-Böhlert, Uta, Köhl, Ulrike, Dünkel, Anna, Fricke, Stephan 24 March 2023 (has links)
Background: With increasing clinical use of NK-92 cells and their CAR-modified
derivatives in cancer immunotherapy, there is a growing demand for efficient
production processes of these “off-the-shelf” therapeutics. In order to ensure safety
and prevent the occurrence of secondary tumors, (CAR-)NK-92 cell proliferation has to be
inactivated before transfusion. This is commonly achieved by gamma irradiation. Recently,
we showed proof of concept that low energy electron irradiation (LEEI) is a new method for
NK-92 inactivation. LEEI has several advantages over gamma irradiation, including a faster
reaction time, a more reproducible dose rate and much less requirements on radiation
shielding. Here, LEEI was further evaluated as a promising alternative to gamma irradiation
yielding cells with highly maintained cytotoxic effector function.
Methods: Effectiveness and efficiency of LEEI and gamma irradiation were analyzed using
NK-92 and CD123-directed CAR-NK-92 cells. LEE-irradiated cells were extensively
characterized and compared to gamma-irradiated cells via flow cytometry, cytotoxicity
assays, and comet assays, amongst others.
Results: Our results show that both irradiation methods caused a progressive decrease
in cell viability and are, therefore, suitable for inhibition of cell proliferation. Notably, the NKmediated
specific lysis of tumor cells was maintained at stable levels for three days postirradiation,
with a trend towards higher activities after LEEI treatment as compared to
gamma irradiation. Both gamma irradiation as well as LEEI led to substantial DNA damage
and an accumulation of irradiated cells in the G2/M cell cycle phases. In addition,
transcriptomic analysis of irradiated cells revealed approximately 12-fold more
differentially expressed genes two hours after gamma irradiation, compared to LEEI.
Analysis of surface molecules revealed an irradiation-induced decrease in surface
expression of CD56, but no changes in the levels of the activating receptors NKp46,
NKG2D, or NKp30.
Conclusions: The presented data show that LEEI inactivates (CAR-)NK-92 cells as
efficiently as gamma irradiation, but with less impact on the overall gene expression. Due
to logistic advantages, LEEI might provide a superior alternative for the manufacture of
(CAR-)NK-92 cells for clinical application.
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Thérapie génique ciblant CD33 dans les cellules souches hématopoïétiques, une approche innovatrice pour le traitement de la leucémie myéloïde aiguëTremblay-Laganière, Camille 09 1900 (has links)
No description available.
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The Effects of Immune Regulation and Dysregulation: Helper T Cell Receptor Affinity, Systemic Lupus Erythematosus and Cancer Risk, and Vaccine HesitancyJohnson, Deborah K. 03 June 2020 (has links)
Helper T cells direct the immunological response to foreign pathogens and cancer. To become activated, helper T cells must recognize unique peptides presented on major histocompatibility complex II (pMHCII) by antigen presenting cells (APCs) with their T cell receptor (TCR). While much is known about helper T cell activation signaling cascades and the subsequent roles of helper T cell subsets, the initiation of helper T cell activation by the TCR and other co-receptors is less well understood. Specifically, the affinity of the TCR for its pMHCII can change helper T cell subset fate, proliferation, and alter the risk for activation induced cell death. High affinity TCRs are attractive targets for immunotherapies, but little is known about how helper T cells respond to high affinity TCRs. Here we describe high affinity TCR activation thresholds for both full length TCRs and chimeric antigen receptor TCRs both with and without the presence of the coreceptor CD4 and propose a mechanism whereby CD4 inhibits T cell activation via Lck sequestration and a CD4-independent method. Dysregulated helper T cells play critical roles in the development and perpetuation of systemic lupus erythematosus (SLE), a systemic autoimmune disease that causes widespread inflammation and organ damage throughout the body. Chronic inflammation in SLE affects the immune response to viruses and the risk of developing cancer. However, in SLE patients, it is unclear if viruses initiate the development of cancer directly or if the effects are non-interacting and concomitant. Here we describe the interactions between SLE, viruses, and cancer risk revealing that viruses and SLE do interact to increase the both the overall cancer risk and the risk for hematological malignancies. Due to vaccine efficacy, vaccine preventable diseases (VPDs) are no longer commonly experienced or understood by the public. Vaccines are a victim of their own success and according to the World Health Organization (WHO), vaccine hesitancy (VH) is one of the top threats to global health. VH is the refusal to accept vaccinations and the reasons for VH vary across time, place, and vaccine. Refuting VH is difficult as directly confronting false assumptions can cause individuals to become more entrenched in their position resulting in confirmation bias. Adults with VH attitudes are often motivated by concerns over personal liberty, harm, independence, and body purity. Here we describe the results of a VPD interview- and education-based intervention geared towards promoting positive vaccine attitudes for young adults and demonstrate that education focused on VPDs is more effective than vaccine safety.
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