Cell-to-cell transmission and intrinsic mechanisms that influence human immunodeficiency virus infection

Pedro, Kyle D.

18 February 2021

Early in the course of human immunodeficiency virus (HIV) infection a population of latently infected cells is established which persists despite long-term anti-retroviral treatment. This latent reservoir of HIV-infected cells, which reflects mechanisms of transcriptional repression, is the major barrier to cure. Efforts to target the latent reservoir have been inefficient, indicating a need for a more complete understanding of how HIV transcription is regulated. The molecular networks involved in the regulation of HIV transcription remain incompletely defined. I hypothesized that utilization of a high throughput enhanced yeast one-hybrid assay would reveal novel host transcription factor-long terminal repeat (LTR) interactions and transcriptional networks that regulate HIV. The screen identified 42 human transcription factors and 85 total protein-DNA interactions with HIV LTRs. I investigated a subset of these factors for transcriptional activity in cell-based models of infection. Krüppel-like factors 2 and 3 (KLF2 and KLF3) are repressors of HIV-1 and HIV-2 transcription whereas PLAG1-like zinc finger 1 (PLAGL1) is an activator of HIV-2 transcription. These factors regulate HIV expression through direct protein-DNA interactions and correlate with epigenetic modifications of the HIV LTR. Multiple signals converging from the cellular environment and cell-cell interactions converge at the HIV LTR to determine HIV replication and transcription. Previous work in our lab has shown that strong signaling through the T cell receptor (TCR) was required to support HIV expression and the establishment of an inducible latent infection, whereas weak TCR signaling was insufficient for these outcomes. I hypothesized that dendritic cells-CD4+ T cell interactions provide signals that compensate for weak TCR signaling, supporting HIV-1 expression and generation of inducible latent infection. I used CD4+ T cells that express chimeric antigen receptors in a dendritic cell coculture model to deliver differential signals to CD4+ T cells during cell-to-cell transmission of HIV. I found that signals from dendritic cells compensate for weak TCR signaling, facilitating cell activation, HIV expression and establishment of an inducible infection.

Microbiology

CD4+ T cell

Chimeric antigen receptor

Dendritic cell

HIV latency

HIV transcription

T cell receptor signaling

Cancer Signals-Triggered T Cell Immunotherapy for Solid Tumors

Nguyen, Huong Thi Xuan

January 2022

No description available.

Chemistry

Molecular Biology

Immunology

Chimeric Antigen Receptor

chemically-induced proximity

signal-sensing prodrug

tumor microenvironment

regulatory system

Chimerické antigenní receptory a jejich využití pro léčbu hematologických malignit / Chimeric antigen receptors in the treatment of hematological malignacies

Fellnerová, Adéla

January 2016

Chimeric antigen receptors (CARs) are artificial molecules composed of an antibody derived antigen recognition domain which is fused with the signal transduction domain derived from the physiological TCR. CAR technology used to transduce patients T-cells and endow them with the specificity to a certain surface antigen, has been a major breakthrough in cancer immunotherapy in the last decade. This strategy has been most successful for treating hematologic malignancies. Various CAR approaches and applications are currently tested mainly in the United States where many clinical trials have been launched. In contrast, in the Czech Republic, there are only a few teams focused on this topic with no clinical trials going on. During my work on this diploma thesis and in close collaboration with MUDr. Pavel Otáhal, PhD., who is working on implementation of CAR technology into the Czech clinics for the treatment of B-cell malignancies, individual functional CARs were prepared and tested. CAR expressing Jurkat T-cell lines were generated using a lentiviral vector transduction system. CAR functionality was determined by two different assays. We have shown that individual CARs are able to recognize the B-cell lineage specific antigens CD19 and CD20 and significantly up-regulate the activation molecule CD69 upon...

Estabelecimento de uma plataforma para produção de vetores lentivirais para a modificação de linfócitos T com CAR anti-CD19 / Establishment of a platform for the production of lentiviral vectors for the modification of anti-CD19 CAR-T cells

Moço, Pablo Diego

23 July 2018

A imunoterapia utilizando linfócitos T modificados com receptor quimérico de antígenos (CAR) tem se mostrado eficaz no tratamento de leucemia e linfomas resistentes à quimioterapia. A proteína CD19 é considerada um alvo ideal porque é expressa na maioria dos tumores de linfócitos B e linfócitos B normais, mas não em outras células. Estudos clínicos recentes mostraram excelentes respostas de linfócitos T-CAR em uma variedade de tumores de células B. Os vetores lentivirais são o método mais comumente utilizado para modificação genética em ensaios clínicos. Este estudo teve como objetivo desenvolver uma plataforma eficiente para a produção de lentivírus e testar a funcionalidade desses vetores para que possam ser usados para modificar geneticamente linfócitos T. A transfecção transiente de céulas HEK293T com plasmídeos na proporção de 3:1:1:1 (transgene:gag-pol:VSV-G:rev) utilizando lipossomos catiônicos e 5 mM de butirato de sódio resultou nos títulos virais mais elevados. Isso representa um aumento de 17 vezes no título viral da transfecção com polietilenoimina (PEI). Três métodos para concentracao lentiviral foram utilzados nesse trabalho, ultracentrifugação, filtração tangencial e ultrafiltração. A ultrafiltração sobre membrana com corte de peso molecular (MWCO) de 100 kDa resultou na maior taxa de recuperação de partículas virais viáveis, aproximadamente 82%. As partículas virais produzidas por este processo demonstraram ser funcionais para a transdução de linfócitos T. Além disso, o receptor quimérico (CAR) se mostrou específico contra o antígeno CD19 de células B, resultando na ativação dos linfócitos T-CAR e gerando citotoxicidade contra células CD19+ in vitro. Houve uma redução de aproximadamente 87% das células alvo, quando analisado por citometria de fluxo e uma citotoxicidade média de 50% foi observada por ensaios colorimétricos. / Immunotherapy using T cells modified with chimeric antigen receptor (CAR) has been proven effective in the treatment of leukemia and lymphomas resistant to chemotherapy. CD19 protein has been shown to be an ideal target because it is expressed on most B-cell tumors and normal B cells, but not in other cells. Recent clinical studies have shown excellent responses of CAR T-cells in a variety of B-cell tumors. Lentiviral vectors are the most commonly used method for genetic modification in clinical trials. This study aimed to develop an efficient platform for lentiviral production and to test the functionality of those vectors so that they can be used in to genetically modify T cells. Transient transfection of HEK293T cells with plasmids in a 3:1:1:1 ratio (transgene:gag-pol:VSV-G:rev) using cationic liposomes and 5 mM sodium butyrate resulted in the highest viral titers. That represents a 17-fold increase in viral titer from polyethylenimine (PEI) transfection. Three methods for lentiviral concentration were used in this work, ultracentrifugation, tangential filtration and ultrafiltration. Membrane ultrafiltration with 100 kDa molecular weight cutoff (MWCO) resulted in the highest recovery rate of viable viral particles, approximately 82%. The viral particles produced by this process have been shown to be functional for the transduction of T cells. In addition, the chimeric receptor (CAR) was shown to be specific against the B cell antigen CD19, resulting in the activation of CAR-T cells and generating cytotoxicity against CD19+ cells in vitro. There was a reduction of approximately 87% of the target cells when analyzed by flow cytometry and an average cytotoxicity of 50% was observed by colorimetric assays.

Estabelecimento de uma plataforma para produção de vetores lentivirais para a modificação de linfócitos T com CAR anti-CD19 / Establishment of a platform for the production of lentiviral vectors for the modification of anti-CD19 CAR-T cells

Pablo Diego Moço

23 July 2018

A imunoterapia utilizando linfócitos T modificados com receptor quimérico de antígenos (CAR) tem se mostrado eficaz no tratamento de leucemia e linfomas resistentes à quimioterapia. A proteína CD19 é considerada um alvo ideal porque é expressa na maioria dos tumores de linfócitos B e linfócitos B normais, mas não em outras células. Estudos clínicos recentes mostraram excelentes respostas de linfócitos T-CAR em uma variedade de tumores de células B. Os vetores lentivirais são o método mais comumente utilizado para modificação genética em ensaios clínicos. Este estudo teve como objetivo desenvolver uma plataforma eficiente para a produção de lentivírus e testar a funcionalidade desses vetores para que possam ser usados para modificar geneticamente linfócitos T. A transfecção transiente de céulas HEK293T com plasmídeos na proporção de 3:1:1:1 (transgene:gag-pol:VSV-G:rev) utilizando lipossomos catiônicos e 5 mM de butirato de sódio resultou nos títulos virais mais elevados. Isso representa um aumento de 17 vezes no título viral da transfecção com polietilenoimina (PEI). Três métodos para concentracao lentiviral foram utilzados nesse trabalho, ultracentrifugação, filtração tangencial e ultrafiltração. A ultrafiltração sobre membrana com corte de peso molecular (MWCO) de 100 kDa resultou na maior taxa de recuperação de partículas virais viáveis, aproximadamente 82%. As partículas virais produzidas por este processo demonstraram ser funcionais para a transdução de linfócitos T. Além disso, o receptor quimérico (CAR) se mostrou específico contra o antígeno CD19 de células B, resultando na ativação dos linfócitos T-CAR e gerando citotoxicidade contra células CD19+ in vitro. Houve uma redução de aproximadamente 87% das células alvo, quando analisado por citometria de fluxo e uma citotoxicidade média de 50% foi observada por ensaios colorimétricos. / Immunotherapy using T cells modified with chimeric antigen receptor (CAR) has been proven effective in the treatment of leukemia and lymphomas resistant to chemotherapy. CD19 protein has been shown to be an ideal target because it is expressed on most B-cell tumors and normal B cells, but not in other cells. Recent clinical studies have shown excellent responses of CAR T-cells in a variety of B-cell tumors. Lentiviral vectors are the most commonly used method for genetic modification in clinical trials. This study aimed to develop an efficient platform for lentiviral production and to test the functionality of those vectors so that they can be used in to genetically modify T cells. Transient transfection of HEK293T cells with plasmids in a 3:1:1:1 ratio (transgene:gag-pol:VSV-G:rev) using cationic liposomes and 5 mM sodium butyrate resulted in the highest viral titers. That represents a 17-fold increase in viral titer from polyethylenimine (PEI) transfection. Three methods for lentiviral concentration were used in this work, ultracentrifugation, tangential filtration and ultrafiltration. Membrane ultrafiltration with 100 kDa molecular weight cutoff (MWCO) resulted in the highest recovery rate of viable viral particles, approximately 82%. The viral particles produced by this process have been shown to be functional for the transduction of T cells. In addition, the chimeric receptor (CAR) was shown to be specific against the B cell antigen CD19, resulting in the activation of CAR-T cells and generating cytotoxicity against CD19+ cells in vitro. There was a reduction of approximately 87% of the target cells when analyzed by flow cytometry and an average cytotoxicity of 50% was observed by colorimetric assays.

Adjusted Comparison of Outcomes between Patients from CARTITUDE-1 versus Multiple Myeloma Patients with Prior Exposure to PI, Imid and Anti-CD-38 from a German Registry

Merz, Maximilian, Goldschmidt, Hartmut, Hari, Parameswaran, Agha, Mounzer, Diels, Joris, Ghilotti, Francesca, Perualila, Nolen J., Cabrieto, Jedelyn, Haefliger, Benjamin, Sliwka, Henrik, Schecter, Jordan M., Jackson, Carolyn C., Olyslager, Yunsi, Akram, Muhammad, Nesheiwat, Tonia, Kellermann, Lenka, Jagannath, Sundar

02 May 2023

Ciltacabtagene autoleucel (cilta-cel) is a Chimeric antigen receptor T-cell therapy with the potential for long-term disease control in heavily pre-treated patients with relapsed/refractory multiple myeloma (RRMM). As cilta-cel was assessed in the single-arm CARTITUDE-1 clinical trial, we used an external cohort of patients from the Therapie Monitor registry fulfilling the CARTITUDE-1 inclusion criteria to evaluate the effectiveness of cilta-cel for overall survival (OS) and time to next treatment (TTNT) vs. real-world clinical practice. Individual patient data allowed us to adjust the comparisons between both cohorts, using the inverse probability of treatment weighting (IPW; average treatment effect in the treated population (ATT) and overlap population (ATO) weights) and multivariable Cox proportional hazards regression. Outcomes were compared in intention-to-treat (HR, IPW-ATT: TTNT: 0.13 (95% CI: 0.07, 0.24); OS: 0.14 (95% CI: 0.07, 0.25); IPW-ATO: TTNT: 0.24 (95% CI: 0.12, 0.49); OS: 0.26 (95% CI: 0.13, 0.54)) and modified intention-to-treat (HR, IPW-ATT: TTNT: 0.24 (95% CI: 0.09, 0.67); OS: 0.26 (95% CI: 0.08, 0.84); IPW-ATO: TTNT: 0.26 (95% CI: 0.11, 0.59); OS: 0.31 (95% CI: 0.12, 0.79)) populations. All the comparisons were statistically significant in favor of cilta-cel. These results highlight cilta-cel’s potential as a novel, effective treatment to address unmet needs in patients with RRMM.

info:eu-repo/classification/ddc/570

ddc:570

Immune-Based Therapeutic Strategies for Acute Myeloid Leukemia

Böhme, Matthias, Kayser, Sabine

02 May 2023

The development and design of immune-based strategies have become an increasingly important topic during the last few years in acute myeloid leukemia (AML), based on successful immunotherapies in solid cancer. The spectrum ranges from antibody drug conjugates, immune checkpoint inhibitors blocking programmed cell death protein 1 (PD1), cytotoxic T lymphocyte antigen 4 (CTLA4) or T cell immunoglobulin and mucin domain containing-3 (TIM3), to T-cell based monoclonal and bispecific T-cell engager antibodies, chimeric antigen receptor-T-cell (CAR-T) approaches and leukemia vaccines. Currently, there are many substances in development and multiple phase I/II studies are ongoing. These trials will help us to deepen our understanding of the pathogenesis of AML and facilitate the best immunotherapeutic strategy in AML. We discuss here the mode of action of immune-based therapies and provide an overview of the available data.

info:eu-repo/classification/ddc/570

ddc:570

Salvage Therapy With Polatuzumab Vedotin, Bendamustine, and Rituximab Prior to Allogeneic Hematopoietic Transplantation in Patients With Aggressive Lymphomas Relapsing After Therapy With Chimeric Antigen Receptor T-Cells—Report on Two Cases

Gerhardt, Kristin, Jentzsch, Madlen, Georgi, Thomas, Sretenovi´c, Aleksandra, Cross, Michael, Bach, Enrica, Monecke, Astrid, Leiblein, Sabine, Hoffmann, Sandra, Todorovi´c, Milena, Bila, Jelena, Sabri, Osama, Schwind, Sebastian, Franke, Georg-Nikolaus, Platzbecker, Uwe, Vucˇ ini´c, Vladan

30 March 2023

Up to 60% of patients with aggressive B-cell lymphoma who receive chimeric antigen receptor (CAR) T-cell therapy experience treatment failure and subsequently have a poor prognosis. Allogeneic hematopoietic stem cell transplantation (alloHSCT) remains a potentially curative approach for patients in this situation. Induction of a deep response prior to alloHSCT is crucial for long-term outcomes, but the optimal bridging strategy following relapse after CAR T-cell therapy has not yet been established. Polatuzumab vedotin, an antibody drug conjugate targeting CD79b, is a novel treatment option for use in combination with rituximab and bendamustine (Pola-BR) in relapsed or refractory disease. Patients: We report two heavily pretreated patients with primary refractory diffuse large Bcell lymphoma (DLBCL) and primary mediastinal B-cell lymphoma (PMBCL) respectively who relapsed after therapy with CAR T-cells with both nodal and extranodal manifestations of the disease. After application of three courses of Pola-BR both patients achieved a complete metabolic remission. Both patients underwent alloHSCT from a human leukocyte antigen (HLA)-mismatched donor following conditioning with busulfan and fludarabine and are disease free 362 days and 195 days after alloHSCT respectively. We conclude that Pola-BR can be an effective bridging therapy before alloHSCT of patients relapsing after CAR T-cell therapy. Further studies will be necessary to define the depth and durability of remission of this salvage regimen before alloHSCT.

info:eu-repo/classification/ddc/610

ddc:610

MET Alterations in Glioblastoma: Characterization of Patient-Derived Xenografts and Therapeutic Strategies

Musket, Anna

01 August 2023

Glioblastoma is the most commonly diagnosed central nervous system primary malignancy and it is considered a terminal diagnosis with few treatment options available. Glioblastoma tumors frequently develop treatment resistance due in part to their highly heterogenic nature. The heterogeneity of glioblastoma is partially attributed to the presence of glioma stem-like cells (GSC), which are highly invasive and resistant to chemotherapy and irradiation treatments. Signaling of the receptor tyrosine kinase MET is a known regulator of GSC. Glioblastoma patients have an increasingly poor prognosis that corresponds with increasing MET expression. Both GSC and MET are known to contribute to treatment resistance in glioblastoma and several MET alterations have been observed in glioblastoma. In these studies, we investigated MET alterations that are commonly found in glioblastoma. Using patient-derived xenograft (PDX) lines, the MET alterations were characterized and confirmed to be MET positive, MET amplified, or harbor a PTPRZ1-MET fusion. We also included a MET null glioblastoma PDX line. The PDX lines demonstrated markers for GSC potential with all showing neurosphere formation, the ability to initiate tumor growth in immune-compromised mice, and expression of GSC markers GFAP, Sox2, and nestin. The MET alterations were further examined by examining tyrosine kinase inhibitors' effect on viability and MET signaling. Oncogene addiction through MET amplification was found to have the best response to inhibition. The MET fusion bearing line demonstrated less sensitivity to inhibition than has been shown in other studies, indicating a need for further research into co-mutations that increase sensitivity to MET inhibition. We also investigated the efficacy of novel MET-targeting chimeric antigen receptor T cells (MET.CART cells). The MET.CART cells were able to specifically target and successfully kill MET-expressing glioblastoma cells. Together these results imply the need for more personalized treatment of glioblastoma based on the molecular biology of the tumor.

glioblastoma

MET

ZM fusion

chimeric antigen receptor T cells

targeted therapy

Cancer Biology

Laboratory and Basic Science Research

Molecular Biology

Molecular Genetics

Other Immunology and Infectious Disease

Therapeutics

Ciblage de la cellule souche leucémique exprimant la protéine lL-1RAP : Approche d'immunothérapie anti-tumorale utilisant des lymphocytes T génétiquement modifiés pour exprimer un récepteur chimérique à l’antigène(CAR) / Targeting Leukemic Stem Cell Expressing IL-1RAP Protein (Interleukin-1 receptor accessory Protein) : Anti-tumor immunotherapy approach using genetically modified T cells (CAR)

Warda, Walid

24 January 2018

Nous avons produit des CART-cells et des LT-mock ont été produits ex-vivo. L'efficacité de transduction est mesuré par l'expression CD3+/CD19+ (82% en moyenne, n=S), en cytométrie en flux. L'expression protéique de CAR a été vérifiée par western blot et en cytométrie en flux attestant de son expression membranaire. Nous avons testé la fonctionnalité de la cassette suicide iCaspase9/ AP1903 sur CART-cells après 48h de traitement à I' AP1903. Nous avons montré que plus de 90% des CART-cells entrent en apoptose (Marquage 7-AAD en cytométrie en flux). Nous avons ensuite réalisé des tests fonctionnels in-vitro des CART-cells contre des lignées LMC exprimant naturellement IL-lRAP ou contre des lignées transfectées pour exprimer la forme membranaire d'IL-lRAP. Après co­culture des CART-cells en présence des cellules cibles IL-lRAP+ nous avons montré qu'ils prolifèrent (test CFSE), qu'ils sécrètent de l'interféron y et des cytokines inflammatoires. Enfin, par marquage 7-AAD, nous avons démontré la cytotoxicité des CART-cells contre les cellules ILl-RAP+. Finalement, nous avons montré l'efficacité des CART-cells in vivo, dans un modèle de xénogreffe tumorales dans des souris immunodéficiences NSG greffées par la lignée K562-IL1RAP+ / Luciférase +. On constate une diminution de la masse tumorale 4 jours après injection des CART-cells, jusqu'à disparition totale. Cette preuve de concept laisse entrevoir des perspectives thérapeutiques alternatives dans le traitement de la LMC ou LAM, qui devront être optimiser dans des modèles murins (séquence et nombres d'injection, nombres de cellules, associations avec ITKS ou autres chimiothérapies) afin de conduire un essai clinique de phase I, pour démontrer la faisabilité et la sécurité de l'approche pour envisager une démonstration d'efficacité chez l'homme. La sécurisation par la cassette suicide permet d'envisager l'utilisation des CART-cells en situation autologue ou allogénique (Donor Lymphocytes infusion, DU) / Chronic myeloid leukemia (CML) is a myeloproliferative disorder and is characterized by the presence of a Philadelphia chromosome (Phl) encoding the BCR-ABL fusion protein with constitutive tyrosine kinase activity. The treatment by Tyrosine Kinase lnhibitors (ITK) is not curative. The problem today is ta target leukemic stem cells (HSCs) to prevent relapse of patients after stopping treatment with TKI and permanently eradicate the disease. Studies have identified the interleukin-1 accessory protein receptor (IL-lRAP) as a potential target for killing CSL (BCR-ABL1 positive) in CML or in acute myeloid leukemia (AML). We therefore propose to develop a cell therapy approach targeting IL-lRAP, using T cells (LT) redirected by a CAR (Chimeric Antigen Receptor) in the treatment of CML and AML. We produced a specific anti-lL-1RAP murine monoclonal antibody (mAb) called # A3C3. We tested the specificity of the antibody # A3C3 in flow cytometry, in Western blot, by immunohistochemistry or confocal microcopy, on positive human cell lines IL-1RAP (KU812) or IL-1RAP negative (Raji). Moreover, by using this antibody, we have demonstrated by immunohistochemistry, on 20 different normal tissues that our antibody does not recognize or very few non-specific (off-target) targets. Finally, we demonstrated that this antibody is able to detect positive IL-1RAP CSLs in primary bone marrow or peripheral blood samples of LMC patients at diagnosis or after ITK treatment. By molecular biology, we have sequenced and identified rearrangements of the heavy (lgH) and light {lgL) chains coding region for hypervariable regions of# A3C3. The coding sequence for the "single chain variable fragment" (scFv), lin king the 2 lgH and lgl chains, was cloned into a 3rd generation lentiviral skeleton securised by a suicide gene, inducible caspase 9 (iCASP9). We produced CART-cells and LT-mock ex-vivo. The transduction efficiency is measured by CD3 + / CD19 + expression (82% on average, n = 5), in flow cytometry. The functionality of the suicide cassette iCaspase9/AP1903 on CART-cells after 48h treatment with AP1903 was tested. We have shown the death of more than 90% of CART-cells (7-AAD labeling in flow cytometry). We then performed in-vitro functional tests of CART-cells against LMC lines naturally expressing IL-1RAP or against transfected lines to express the membrane form of IL-1RAP. After co-culture of CART-cells in the presence of IL-1RAP + target cells, we have shown that they proliferate (CFSE test), that they secrete interferon y and inflammatory cytokines (intracellular labeling and Cytokines Bead Array assay). They are able to degranulate (CD107a & b labeling). Finally, by 7 AAD labeling, we demonstrated the cytotoxicity of CART-cells against IL1-RAP + cells. Finally, we showed the effectiveness of CART-cells in vivo, in a tumor xenograft model in NSG immunodeficiency mice engrafted by the K562-IL1RAP+/Luciferase+ line. There is a decrease in the tumor load 4 days after injection of CART-cells, until complete disappearance.This proof of concept suggests alternative therapeutic perspectives in the treatment of CML or AML, which should be optimized in murine models (sequence and injection numbers, cell numbers, associations with ITKS or other chemotherapies) in order to Phase I clinical trial, to demonstrate the feasibility and safety of the approach to consider a demonstration of efficacy in human. Securing by the suicide cassette makes it possible to consider the use of CART-cells in an autologous or allogeneic situation (Donor Lymphocytes infusion, DU)

Leucémie myéloïde chronique

IL-lRAP

Gène suicide

Caspse 9 inductible (iCasp9)

Chronic myeloid leukemia

IL-lRAP

Chimeric antigen receptor

Suicide gene

Inducible caspse 9

WH 250