47 results on '"Weening, Karin"'
Search Results
2. The phosphatidylserine receptor TIM1 promotes infection of enveloped hepatitis E virus
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Corneillie, Laura, Lemmens, Irma, Montpellier, Claire, Ferrié, Martin, Weening, Karin, Van Houtte, Freya, Hanoulle, Xavier, Cocquerel, Laurence, Amara, Ali, Tavernier, Jan, and Meuleman, Philip
- Published
- 2023
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3. Virus–Host Protein Interaction Network of the Hepatitis E Virus ORF2-4 by Mammalian Two-Hybrid Assays
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Corneillie, Laura, primary, Lemmens, Irma, additional, Weening, Karin, additional, De Meyer, Amse, additional, Van Houtte, Freya, additional, Tavernier, Jan, additional, and Meuleman, Philip, additional
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- 2023
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4. The Wiskott–Aldrich syndrome protein is required for positive selection during T-cell lineage differentiation
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Pille, Melissa, primary, Avila, John, additional, Sanchez, Guillem Sanchez, additional, Goetgeluk, Glenn, additional, De Munter, Stijn, additional, Jansen, Hanne, additional, Billiet, Lore, additional, Weening, Karin, additional, Xue, Haipeng, additional, Bonte, Sarah, additional, Ingels, Joline, additional, De Cock, Laurenz, additional, Pascal, Eva, additional, Deseins, Lucas, additional, Kerre, Tessa, additional, Taghon, Tom, additional, Leclercq, Georges, additional, Vermijlen, David, additional, Davis, Brian, additional, and Vandekerckhove, Bart, additional
- Published
- 2023
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5. Distinct Notch1 and BCL11B requirements mediate human γδ/αβ T cell development
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Dolens, Anne‐Catherine, Durinck, Kaat, Lavaert, Marieke, Van der Meulen, Joni, Velghe, Imke, De Medts, Jelle, Weening, Karin, Roels, Juliette, De Mulder, Katrien, Volders, Pieter‐Jan, De Preter, Katleen, Kerre, Tessa, Vandekerckhove, Bart, Leclercq, Georges, Vandesompele, Jo, Mestdagh, Pieter, Van Vlierberghe, Pieter, Speleman, Frank, and Taghon, Tom
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- 2020
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6. Single-cell profiling identifies a novel human polyclonal unconventional T cell lineage
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Billiet, Lore, primary, De Cock, Laurenz, additional, Sanchez Sanchez, Guillem, additional, Mayer, Rupert L., additional, Goetgeluk, Glenn, additional, De Munter, Stijn, additional, Pille, Melissa, additional, Ingels, Joline, additional, Jansen, Hanne, additional, Weening, Karin, additional, Pascal, Eva, additional, Raes, Killian, additional, Bonte, Sarah, additional, Kerre, Tessa, additional, Vandamme, Niels, additional, Seurinck, Ruth, additional, Roels, Jana, additional, Lavaert, Marieke, additional, Van Nieuwerburgh, Filip, additional, Leclercq, Georges, additional, Taghon, Tom, additional, Impens, Francis, additional, Menten, Björn, additional, Vermijlen, David, additional, and Vandekerckhove, Bart, additional
- Published
- 2023
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7. The Wiskott–Aldrich syndrome protein is required for positive selection during T-cell lineage differentiation
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Pille, Melissa, Avila, John, Sánchez Sánchez, Guillem, Goetgeluk, Glenn, De Munter, Stijn, Jansen, Hanne, Billiet, Lore, Weening, Karin, Xue, Haipeng, Bonte, Sarah, Ingels, Joline, De Cock, Laurenz, Pascal, Eva, Deseins, Lucas, Kerre, Tessa, Taghon, Tom, Leclercq, Georges, Vermijlen, David, Davis, Brian, Vandekerckhove, Bart, Pille, Melissa, Avila, John, Sánchez Sánchez, Guillem, Goetgeluk, Glenn, De Munter, Stijn, Jansen, Hanne, Billiet, Lore, Weening, Karin, Xue, Haipeng, Bonte, Sarah, Ingels, Joline, De Cock, Laurenz, Pascal, Eva, Deseins, Lucas, Kerre, Tessa, Taghon, Tom, Leclercq, Georges, Vermijlen, David, Davis, Brian, and Vandekerckhove, Bart
- Abstract
The Wiskott–Aldrich syndrome (WAS) is an X-linked primary immune deficiency caused by a mutation in the WAS gene. This leads to altered or absent WAS protein (WASp) expression and function resulting in thrombocytopenia, eczema, recurrent infections, and autoimmunity. In T cells, WASp is required for immune synapse formation. Patients with WAS show reduced numbers of peripheral blood T lymphocytes and an altered T-cell receptor repertoire. In vitro ,their peripheral T cells show decreased proliferation and cytokine production upon aCD3/aCD28 stimulation. It is unclear whether these T-cell defects are acquired during peripheral activation or are, in part, generated during thymic development. Here, we assessed the role of WASp during T-cell differentiation using artificial thymic organoid cultures and in the thymus of humanized mice. Although CRISPR/Cas9 WAS knockout hematopoietic stem and progenitor cells (HSPCs) rearranged the T-cell receptor and differentiated to T-cell receptor (TCR) + CD4 + CD8 + double-positive (DP) cells similar to wild-type HSPCs, a partial defect in the generation of CD8 single-positive (SP) cells was observed, suggesting that WASp is involved in their positive selection. TCR repertoire analysis of the DP and CD8 + SP population, however, showed a polyclonal repertoire with no bias toward autoreactivity. To our knowledge, this is the first study of the role of WASp in human T-cell differentiation and on TCR repertoire generation., SCOPUS: ar.j, info:eu-repo/semantics/published
- Published
- 2023
8. The checkpoint for agonist selection precedes conventional selection in human thymus
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Verstichel, Greet, Vermijlen, David, Martens, Liesbet, Goetgeluk, Glenn, Brouwer, Margreet, Thiault, Nicolas, Van Caeneghem, Yasmine, De Munter, Stijn, Weening, Karin, Bonte, Sarah, Leclercq, Georges, Taghon, Tom, Kerre, Tessa, Saeys, Yvan, Van Dorpe, Jo, Cheroutre, Hilde, and Vandekerckhove, Bart
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- 2017
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9. A novel neutralizing human monoclonal antibody broadly abrogates hepatitis C virus infection in vitro and in vivo
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Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, and Meuleman, Philip
- Published
- 2017
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10. Single-cell profiling identifies a spectrum of human unconventional intraepithelial T lineage cells
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Billiet, Lore, primary, De Cock, Laurenz, additional, Sanchez, Guillem Sanchez, additional, Mayer, Rupert L., additional, Goetgeluk, Glenn, additional, De Munter, Stijn, additional, Pille, Melissa, additional, Ingels, Joline, additional, Jansen, Hanne, additional, Weening, Karin, additional, Pascal, Eva, additional, Raes, Killian, additional, Bonte, Sarah, additional, Kerre, Tessa, additional, Vandamme, Niels, additional, Seurinck, Ruth, additional, Roels, Jana, additional, Lavaert, Marieke, additional, Van Nieuwerburgh, Filip, additional, Leclercq, Georges, additional, Taghon, Tom, additional, Impens, Francis, additional, Menten, Björn, additional, Vermijlen, David, additional, and Vandekerckhhove, Bart, additional
- Published
- 2022
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11. Small-scale manufacturing of neoantigen-encoding messenger RNA for early-phase clinical trials
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Ingels, Joline, primary, De Cock, Laurenz, additional, Mayer, Rupert L., additional, Devreker, Pam, additional, Weening, Karin, additional, Heyns, Kelly, additional, Lootens, Nele, additional, De Smet, Saskia, additional, Brusseel, Marieke, additional, De Munter, Stijn, additional, Pille, Melissa, additional, Billiet, Lore, additional, Goetgeluk, Glenn, additional, Bonte, Sarah, additional, Jansen, Hanne, additional, Lint, Sandra Van, additional, Leclercq, Georges, additional, Taghon, Tom, additional, Menten, Björn, additional, Vermaelen, Karim, additional, Impens, Francis, additional, and Vandekerckhove, Bart, additional
- Published
- 2022
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12. Vaccine-induced monoclonal antibodies targeting circumsporozoite protein prevent Plasmodium falciparum infection
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Foquet, Lander, Hermsen, Cornelus C., Gemert, Geert-Jan van, Braeckel, Eva Van, Weening, Karin E., Sauerwein, Robert, Meuleman, Philip, and Leroux-Roels, Geert
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Biopharmaceutics -- Dosage and administration -- Research ,Malaria -- Research -- Prevention -- Risk factors -- Complications and side effects -- Prognosis ,Monoclonal antibodies -- Physiological aspects -- Research ,Plasmodium falciparum -- Health aspects -- Genetic aspects -- Research ,Health care industry - Abstract
Malaria, which is the result of Plasmodium falciparum infection, is a global health threat that resulted in 655,000 deaths and 216 million clinical cases in 2010 alone. Recent phase 3 trials with malaria vaccine candidate RTS,S/AS01 (RTS,S) in children has demonstrated modest efficacy against clinical and severe malaria. RTS,S targets the pre-erythrocytic phase of the disease and induces high antibody titers against the P. falciparum circumsporozoite protein (CSP) and a moderate CD4+ T cell response. The individual contribution of these adaptive immune responses to protection from infection remains unknown. Here, we found that prophylactic administration of anti-CSP mAbs derived from an RTS,S-vaccinated recipient fully protected mice with humanized livers from i.v.- and mosquito bite-delivered P. falciparum sporozoite challenge. Titers of anti-CSP that conveyed full protection were within the range observed in human RTS,S vaccine recipients. Increasing anti-CSP titers resulted in a dose-dependent reduction of the liver parasite burden. These data indicate that RTS,S-induced antibodies are protective and provide sterilizing immunity against P. falciparum infection when reaching or exceeding a critical plasma concentration., Introduction Plasmodium species have developed multiple strategies to evade t and suppress host immunity, which makes treatment and vac- ( cine development very difficult (1). During a blood meal, an [...]
- Published
- 2014
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13. TARP is an immunotherapeutic target in acute myeloid leukemia expressed in the leukemic stem cell compartment
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Depreter, Barbara, Weening, Karin E., Vandepoele, Karl, Essand, Magnus, De Moerloose, Barbara, Themeli, Maria, Cloos, Jacqueline, Hanekamp, Diana, Moors, Ine, D'hont, Inge, Denys, Barbara, Uyttebroeck, Anne, Van Damme, An, Dedeken, Laurence, Snauwaert, Sylvia, Goetgeluk, Glenn, De Munter, Stijn, Kerre, Tessa, Vandekerckhove, Bart, Lammens, Tim, Philippe, Jan, Depreter, Barbara, Weening, Karin E., Vandepoele, Karl, Essand, Magnus, De Moerloose, Barbara, Themeli, Maria, Cloos, Jacqueline, Hanekamp, Diana, Moors, Ine, D'hont, Inge, Denys, Barbara, Uyttebroeck, Anne, Van Damme, An, Dedeken, Laurence, Snauwaert, Sylvia, Goetgeluk, Glenn, De Munter, Stijn, Kerre, Tessa, Vandekerckhove, Bart, Lammens, Tim, and Philippe, Jan
- Abstract
Immunotherapeutic strategies targeting the rare leukemic stem cell compartment might provide salvage to the high relapse rates currently observed in acute myeloid leukemia (AML). We applied gene expression profiling for comparison of leukemic blasts and leukemic stem cells with their normal counterparts. Here, we show that the T-cell receptor ? chain alternate reading frame protein (TARP) is over-expressed in de novo pediatric (n=13) and adult (n=17) AML sorted leukemic stem cells and blasts compared to hematopoietic stem cells and normal myeloblasts (15 healthy controls). Moreover, TARP expression was significantly associated with a Emslike tyrosine kinase receptor-3 internal tandem duplication in pediatric AML. TARP overexpression was confirmed in AML cell lines (n=9), and was found to be absent in B-cell acute lymphocytic leukemia (n=5) and chronic myeloid leukemia (n=1). Sequencing revealed that both a classical TARP transcript, as described in breast and prostate adenocarcinoma, and an AML-specific alternative TARP transcript, were present. Protein expression levels mostly matched transcript levels. TARP was shown to reside in the cytoplasmic compartment and showed sporadic endoplasmic reticulum co-localization. TARP-T-cell receptor engineered cytotoxic T-cells in vitro killed AML cell lines and patient leukemic cells co-expressing TARP and HLA-A*0201. In conclusion, TARP qualifies as a relevant target for immunotherapeutic T-cell therapy in AML.
- Published
- 2020
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14. In vitro OP9-DL1 co-culture and subsequent maturation in the presence of IL-21 generates tumor antigen-specific T cells with a favorable less-differentiated phenotype and enhanced functionality
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Bonte, Sarah, primary, de Munter, Stijn, additional, Billiet, Lore, additional, Goetgeluk, Glenn, additional, Ingels, Joline, additional, Jansen, Hanne, additional, Pille, Melissa, additional, de Cock, Laurenz, additional, Weening, Karin, additional, Taghon, Tom, additional, Leclercq, Georges, additional, Vandekerckhove, Bart, additional, and Kerre, Tessa, additional
- Published
- 2021
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15. cAMP signaling in Dictyostelium
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Saran, Shweta, Meima, Marcel E., Alvarez-Curto, Elisa, Weening, Karin E., Rozen, Daniel E., and Schaap, Pauline
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- 2002
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16. Contrasting activities of the aggregative and late PDSA promoters in Dictyostelium development
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Weening, Karin E., Verkerke-Van Wijk, Irene, Thompson, Christopher R., Kessin, Richard H., Podgorski, Gregory J., and Schaap, Pauline
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Developmental biology -- Research ,Gene expression -- Physiological aspects ,Morphogenesis -- Analysis ,Dictyostelium -- Physiological aspects ,Dictyostelium -- Genetic aspects ,Genetic regulation -- Analysis ,Nucleotides -- Genetic aspects ,Nucleotides -- Physiological aspects ,Cells -- Genetic aspects ,Cells -- Physiological aspects ,Biological sciences - Abstract
Expression of the Dictyostelium PdsA gene from the aggregative (PdA) and late (PdL) promoter is essential for aggregation and slug morphogenesis, respectively. We studied the regulation of the PdA and PdL promoters in slugs using labile [beta]-galactosidase (gal) reporter enzymes. PdL was active in prestalk cells as was also found with stable gal. PdA activity decreased strongly in slugs from all cells, except those at the rear. This is almost opposite to PdA activity traced with stable gal, where slugs showed sustained activity with highest levels at the front. PdA was down-regulated after aggregation irrespective of stimulation with any of the factors known to control gene expression. PdL activity was induced in cell suspension by cAMP and DIF acting in synergy. However, a DIF-less mutant showed normal PdL activity during development, suggesting that DIF does not control PdL in vivo. Dissection of the PdL promoter showed that all sequences essential for correct spatiotemporal control of promoter activity are downstream of the transcription start site in a region between -383 and -19 nucleotides relative to the start codon. Removal of nucleotides to position -364 eliminated responsiveness to DIF and cAMP, but normal PdL activity in prestalk cells in slugs was retained. Further 5' deletions abolished all promoter activity. This result also indicates that the induction by DIF and cAMP as seen in cell suspensions is not essential for PdL activity in normal development. Keywords: Dictyostelium discoideum; Cyclic nucleotide phosphodiesterase; Promoter analysis; Morphogenetic signaling; Differentiation inducing factor
- Published
- 2003
17. Human Thymic CD10+ PD-1+ Intraepithelial Lymphocyte Precursors Acquire Interleukin-15 Responsiveness at the CD1a– CD95+ CD28– CCR7– Developmental Stage
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Billiet, Lore, primary, Goetgeluk, Glenn, additional, Bonte, Sarah, additional, De Munter, Stijn, additional, De Cock, Laurenz, additional, Pille, Melissa, additional, Ingels, Joline, additional, Jansen, Hanne, additional, Weening, Karin, additional, Van Nieuwerburgh, Filip, additional, Kerre, Tessa, additional, Taghon, Tom, additional, Leclercq, Georges, additional, and Vandekerckhove, Bart, additional
- Published
- 2020
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18. Rapid and Effective Generation of Nanobody Based CARs using PCR and Gibson Assembly
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De Munter, Stijn, primary, Van Parys, Alexander, additional, Bral, Layla, additional, Ingels, Joline, additional, Goetgeluk, Glenn, additional, Bonte, Sarah, additional, Pille, Melissa, additional, Billiet, Lore, additional, Weening, Karin, additional, Verhee, Annick, additional, Van der Heyden, Jose, additional, Taghon, Tom, additional, Leclercq, Georges, additional, Kerre, Tessa, additional, Tavernier, Jan, additional, and Vandekerckhove, Bart, additional
- Published
- 2020
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19. The human fetal thymus generates invariant effector γδ T cells
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Tieppo, Paola, primary, Papadopoulou, Maria, additional, Gatti, Deborah, additional, McGovern, Naomi, additional, Chan, Jerry K.Y., additional, Gosselin, Françoise, additional, Goetgeluk, Glenn, additional, Weening, Karin, additional, Ma, Ling, additional, Dauby, Nicolas, additional, Cogan, Alexandra, additional, Donner, Catherine, additional, Ginhoux, Florent, additional, Vandekerckhove, Bart, additional, and Vermijlen, David, additional
- Published
- 2019
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20. TARP as immunotherapeutic target in AML expressed in the LSC compartment
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Depreter, Barbara, Weening, Karin, Vandepoele, Karl, Essand, M, De Moerloose, Barbara, Themeli, M, Cloos, J, Hanekamp, D, Moors, Ine, D'hont, Inge, Denys, Barbara, Uyttebroeck, A, Van Damme, A, Dedeken, L, SNAUWAERT, SYLVIA, Goetgeluk, Glenn, De Munter, Stijn, Kerre, Tessa, Vandekerckhove, Bart, Lammens, Tim, and Philippé, Jan
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Medicine and Health Sciences - Published
- 2019
21. The human fetal thymus generates invariant effector γδ T cells.
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Tieppo, Paola, Papadopoulou, Maria, Gatti, Deborah, McGovern, Naomi, Chan, Jerry K Y, Gosselin, Françoise, Goetgeluk, Glenn, Weening, Karin, Ma, Ling, Dauby, Nicolas, Cogan, Alexandra, Donner, Catherine, Ginhoux, Florent, Vandekerckhove, Bart, Vermijlen, David, Tieppo, Paola, Papadopoulou, Maria, Gatti, Deborah, McGovern, Naomi, Chan, Jerry K Y, Gosselin, Françoise, Goetgeluk, Glenn, Weening, Karin, Ma, Ling, Dauby, Nicolas, Cogan, Alexandra, Donner, Catherine, Ginhoux, Florent, Vandekerckhove, Bart, and Vermijlen, David
- Abstract
In the mouse thymus, invariant γδ T cells are generated at well-defined times during development and acquire effector functions before exiting the thymus. However, whether such thymic programming and age-dependent generation of invariant γδ T cells occur in humans is not known. Here we found that, unlike postnatal γδ thymocytes, human fetal γδ thymocytes were functionally programmed (e.g. IFNγ, granzymes) and expressed low levels of terminal deoxynucleotidyl transferase (TdT). This low level of TdT resulted in a low number of N nucleotide insertions in the complementarity-determining region-3 (CDR3) of their TCR repertoire, allowing the usage of short homology repeats within the germline-encoded VDJ segments to generate invariant/public cytomegalovirus-reactive CDR3 sequences (TRGV8-TRJP1-CATWDTTGWFKIF, TRDV2-TRDD3-CACDTGGY, and TRDV1-TRDD3-CALGELGD). Furthermore, both the generation of invariant TCRs and the intrathymic acquisition of effector functions were due to an intrinsic property of fetal hematopoietic stem and precursor cells (HSPCs) caused by high expression of the RNA-binding protein Lin28b. In conclusion, our data indicate that the human fetal thymus generates, in an HSPC/Lin28b-dependent manner, invariant γδ T cells with programmed effector functions., info:eu-repo/semantics/published
- Published
- 2019
22. TARP is an immunotherapeutic target in acute myeloid leukemia expressed in the leukemic stem cell compartment
- Author
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Depreter, Barbara, primary, Weening, Karin E., additional, Vandepoele, Karl, additional, Essand, Magnus, additional, De Moerloose, Barbara, additional, Themeli, Maria, additional, Cloos, Jacqueline, additional, Hanekamp, Diana, additional, Moors, Ine, additional, D’hont, Inge, additional, Denys, Barbara, additional, Uyttebroeck, Anne, additional, Van Damme, An, additional, Dedeken, Laurence, additional, Snauwaert, Sylvia, additional, Goetgeluk, Glenn, additional, De Munter, Stijn, additional, Kerre, Tessa, additional, Vandekerckhove, Bart, additional, Lammens, Tim, additional, and Philippé, Jan, additional
- Published
- 2019
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23. Nanobody Based Dual Specific CARs
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De Munter, Stijn, Ingels, Joline, Goetgeluk, Glenn, Bonte, Sarah, Pille, Melissa, Weening, Karin, Kerre, Tessa, Abken, Hinrich, Vandekerckhove, Bart, De Munter, Stijn, Ingels, Joline, Goetgeluk, Glenn, Bonte, Sarah, Pille, Melissa, Weening, Karin, Kerre, Tessa, Abken, Hinrich, and Vandekerckhove, Bart
- Abstract
Recent clinical trials have shown that adoptive chimeric antigen receptor (CAR) T cell therapy is a very potent and possibly curative option in the treatment of B cell leukemias and lymphomas. However, targeting a single antigen may not be sufficient, and relapse due to the emergence of antigen negative leukemic cells may occur. A potential strategy to counter the outgrowth of antigen escape variants is to broaden the specificity of the CAR by incorporation of multiple antigen recognition domains in tandem. As a proof of concept, we here describe a bispecific CAR in which the single chain variable fragment (scFv) is replaced by a tandem of two single-antibody domains or nanobodies (nanoCAR). High membrane nanoCAR expression levels are observed in retrovirally transduced T cells. NanoCARs specific for CD20 and HER2 induce T cell activation, cytokine production and tumor lysis upon incubation with transgenic Jurkat cells expressing either antigen or both antigens simultaneously. The use of nanobody technology allows for the production of compact CARs with dual specificity and predefined affinity.
- Published
- 2018
24. Nanobody Based Dual Specific CARs
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De Munter, Stijn, primary, Ingels, Joline, additional, Goetgeluk, Glenn, additional, Bonte, Sarah, additional, Pille, Melissa, additional, Weening, Karin, additional, Kerre, Tessa, additional, Abken, Hinrich, additional, and Vandekerckhove, Bart, additional
- Published
- 2018
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25. Antigen receptor-redirected T cells derived from hematopoietic precursor cells lack expression of the endogenous TCR/CD3 receptor and exhibit specific antitumor capacities
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van Caeneghem, Yasmine, Kerre, Tessa, Debets, Reno, Vermijlen, David, Abken, Hinrich, Vandekerckhove, Bart, De Munter, Stijn, Tieppo, Paola, Goetgeluk, Glenn, Weening, Karin, Verstichel, Greet, Bonte, Sarah, Taghon, Tom, Leclercq, Georges, van Caeneghem, Yasmine, Kerre, Tessa, Debets, Reno, Vermijlen, David, Abken, Hinrich, Vandekerckhove, Bart, De Munter, Stijn, Tieppo, Paola, Goetgeluk, Glenn, Weening, Karin, Verstichel, Greet, Bonte, Sarah, Taghon, Tom, and Leclercq, Georges
- Abstract
Recent clinical studies indicate that adoptive T-cell therapy and especially chimeric antigen receptor (CAR) T-cell therapy is a very potent and potentially curative treatment for B-lineage hematologic malignancies. Currently, autologous peripheral blood T cells are used for adoptive T-cell therapy. Adoptive T cells derived from healthy allogeneic donors may have several advantages; however, the expected occurrence of graft versus host disease (GvHD) as a consequence of the diverse allogeneic T-cell receptor (TCR) repertoire expressed by these cells compromises this approach. Here, we generated T cells from cord blood hematopoietic progenitor cells (HPCs) that were transduced to express an antigen receptor (AR): either a CAR or a TCR with or without built-in CD28 co-stimulatory domains. These AR-transgenic HPCs were culture-expanded on an OP9-DL1 feeder layer and subsequently differentiated to CD5+CD7+ T-lineage precursors, to CD4+ CD8+ double positive cells and finally to mature AR+ T cells. The AR+ T cells were largely naive CD45RA+CD62L+ T cells. These T cells had mostly germline TCRα and TCRβ loci and therefore lacked surface-expressed CD3/TCRαβ complexes. The CD3− AR-transgenic cells were mono-specific, functional T cells as they displayed specific cytotoxic activity. Cytokine production, including IL-2, was prominent in those cells bearing ARs with built-in CD28 domains. Data sustain the concept that cord blood HPC derived, in vitro generated allogeneic CD3− AR+ T cells can be used to more effectively eliminate malignant cells, while at the same time limiting the occurrence of GvHD., SCOPUS: ar.j, info:eu-repo/semantics/published
- Published
- 2017
26. Antigen receptor-redirected T cells derived from hematopoietic precursor cells lack expression of the endogenous TCR/CD3 receptor and exhibit specific antitumor capacities
- Author
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Van Caeneghem, Yasmine, primary, De Munter, Stijn, additional, Tieppo, Paola, additional, Goetgeluk, Glenn, additional, Weening, Karin, additional, Verstichel, Greet, additional, Bonte, Sarah, additional, Taghon, Tom, additional, Leclercq, Georges, additional, Kerre, Tessa, additional, Debets, Reno, additional, Vermijlen, David, additional, Abken, Hinrich, additional, and Vandekerckhove, Bart, additional
- Published
- 2017
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27. HIV-1 Vpr N-terminal tagging affects alternative splicing of the viral genome
- Author
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Baeyens, Ann, primary, Naessens, Evelien, additional, Van Nuffel, Anouk, additional, Weening, Karin E., additional, Reilly, Anne-Marie, additional, Claeys, Eva, additional, Trypsteen, Wim, additional, Vandekerckhove, Linos, additional, Eyckerman, Sven, additional, Gevaert, Kris, additional, and Verhasselt, Bruno, additional
- Published
- 2016
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28. Proceedings of the Frontiers of Retrovirology Conference 2016
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Zurnic, Irena, primary, Hütter, Sylvia, additional, Lehmann, Ute, additional, Stanke, Nicole, additional, Reh, Juliane, additional, Kern, Tobias, additional, Lindel, Fabian, additional, Gerresheim, Gesche, additional, Hamann, Martin, additional, Müllers, Erik, additional, Lesbats, Paul, additional, Cherepanov, Peter, additional, Serrao, Erik, additional, Engelman, Alan, additional, Lindemann, Dirk, additional, Da Silva Santos, Claire, additional, Tartour, Kevin, additional, Cimarelli, Andrea, additional, Burdick, Rya, additional, Chen, Jianbo, additional, Sastri, Jaya, additional, Hu, Wei-Shau, additional, Pathak, Vinay, additional, Keppler, Oliver T., additional, Pradeau, Karine, additional, Eiler, Sylvia, additional, Levy, Nicolas, additional, Lennon, Sarah, additional, Cianferani, Sarah, additional, Emiliani, Stéphane, additional, Ruff, Marc, additional, Parissi, Vincent, additional, Rato, Sylvie, additional, Rausell, Antonio, additional, Munoz, Miguel, additional, Telenti, Amalio, additional, Ciuffi, Angela, additional, Zhyvoloup, Alexander, additional, Melamed, Anat, additional, Anderson, Ian, additional, Planas, Delphine, additional, Kriston-Vizi, Janos, additional, Ketteler, Robin, additional, Lee, Chen- Hsuin, additional, Merritt, Andy, additional, Ancuta, Petronela, additional, Bangham, Charles, additional, Fassati, Ariberto, additional, Rodari, Anthony, additional, Van Driessche, Benoit, additional, Galais, Mathilde, additional, Delacourt, Nadége, additional, Fauquenoy, Sylvain, additional, Vanhulle, Caroline, additional, Kula, Anna, additional, Burny, Arsène, additional, Rohr, Olivier, additional, Van Lint, Carine, additional, van Montfort, Thijs, additional, van der Sluis, Renee, additional, Speijer, Dave, additional, Berkhout, Ben, additional, Meng, Bo, additional, Rutkowski, Andrzej, additional, Berry, Neil, additional, Dölken, Lars, additional, Lever, Andrew, additional, Schuster, Thomas, additional, Asbach, Benedikt, additional, Wagner, Ralf, additional, Gross, Christine, additional, Wiesmann, Veit, additional, Kalmer, Martina, additional, Wittenberg, Thomas, additional, Gettemans, Jan, additional, Thoma-Kress, Andrea K., additional, Li, Minghua, additional, Freed, Eric O., additional, Liu, Shan-Lu, additional, Müller, Janis, additional, Münch, Jan, additional, Sewald, Xaver, additional, Uchil, Pradeep, additional, Ladinsky, Mark, additional, Beloor, Jagadish, additional, Pi, Ruoxi, additional, Herrmann, Christin, additional, Motamedi, Nasim, additional, Murooka, Thomas, additional, Brehm, Michael, additional, Greiner, Dale, additional, Mempel, Thorsten, additional, Bjorkman, Pamela, additional, Kumar, Priti, additional, Mothes, Walther, additional, Joas, Simone, additional, Parrish, Erica, additional, Gnanadurai, Clement Wesley, additional, Lump, Edina, additional, Stürzel, Christina M., additional, Parrish, Nicholas F., additional, Sauermann, Ulrike, additional, Töpfer, Katharina, additional, Schultheiss, Tina, 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additional, Faulkner, Geoffrey J., additional, Hurst, Tara, additional, Katzourakis, Aris, additional, Magiorkinis, Gkikas, additional, Schott, Kerstin, additional, Derua, Rita, additional, Seifried, Janna, additional, Reuter, Andreas, additional, Schmitz, Heike, additional, Tondera, Christiane, additional, Brandariz-Nuñez, Alberto, additional, Diaz-Griffero, Felipe, additional, Janssens, Veerle, additional, König, Renate, additional, Baldauf, Hanna-Mari, additional, Stegmann, Lena, additional, Schwarz, Sarah-Marie, additional, Trotard, Maud, additional, Martin, Margarethe, additional, Lenzi, Gina, additional, Burggraf, Manja, additional, Pan, Xiaoyu, additional, Fregoso, Oliver I., additional, Lim, Efrem S., additional, Abraham, Libin, additional, Erikson, Elina, additional, Nguyen, Laura, additional, Ambiel, Ina, additional, Rutsch, Frank, additional, Kim, Baek, additional, Emerman, Michael, additional, Fackler, Oliver T., additional, Wittmann, Sabine, additional, Behrendt, Rayk, additional, Volkmann, Bianca, additional, Eissmann, Kristin, additional, Gramberg, Thomas, additional, Bolduan, Sebastian, additional, Koppensteiner, Herwig, additional, Regensburg, Stefanie, additional, Brack-Werner, Ruth, additional, Draenert, Rika, additional, Schindler, Michael, additional, Ducroux, Aurélie, additional, Xu, Shuting, additional, Ponnurangam, Aparna, additional, Franz, Sergej, additional, Malassa, Angelina, additional, Ewald, Ellen, additional, Goffinet, Christine, additional, Fung, Sin-Yee, additional, Chan, Ching-Ping, additional, Yuen, Chun-Kit, additional, Kok, Kin-Hang, additional, Chan, Chin-Ping, additional, Jin, Dong-Yan, additional, Dittmer, Ulf, additional, Kmiec, Dorota, additional, Iyer, Shilpa, additional, Stürzel, Christina, additional, Hahn, Beatrice, additional, Ariumi, Yasuo, additional, Yasuda-Inoue, Mariko, additional, Kawano, Koudai, additional, Tateishi, Satoshi, additional, Turelli, Priscilla, additional, Compton, Alex, additional, Roy, Nicolas, additional, Porrot, Françoise, additional, Billet, Anne, additional, Casartelli, Nicoletta, additional, Yount, Jacob, additional, Liang, Chen, additional, Schwartz, Oliver, additional, Magnus, Carsten, additional, Reh, Lucia, additional, Moore, Penny, additional, Uhr, Therese, additional, Weber, Jacqueline, additional, Morris, Lynn, additional, Trkola, Alexandra, additional, Grindberg, Rashel V., additional, Schlaepfer, Erika, additional, Schreiber, Gideon, additional, Simon, Viviana, additional, Speck, Roberto F., additional, Debyser, Zeger, additional, Vranckx, Lenard, additional, Demeulemeester, Jonas, additional, Saleh, Suha, additional, Verdin, Eric, additional, Cereseto, Anna, additional, Christ, Frauke, additional, Gijsbers, Rik, additional, Wang, Gang, additional, Zhao, Na, additional, Das, Atze T., additional, Köstler, Josef, additional, Perdiguero, Beatriz, additional, Esteban, Mariano, additional, Jacobs, Bertram L., additional, Montefiori, David C., additional, LaBranche, Celia C., additional, Yates, Nicole L., additional, Tomaras, Georgia D., additional, Ferrari, Guido, additional, Foulds, Kathryn E., additional, Roederer, Mario, additional, Landucci, Gary, additional, Forthal, Donald N., additional, Seaman, Michael S., additional, Hawkins, Natalie, additional, Self, Steven G., additional, Phogat, Sanjay, additional, Tartaglia, James, additional, Barnett, Susan W., additional, Burke, Brian, additional, Cristillo, Anthony D., additional, Ding, Song, additional, Heeney, Jonathan L., additional, Pantaleo, Giuseppe, additional, Stab, Viktoria, additional, Ensser, Armin, additional, Tippler, Bettina, additional, Burton, Dennis, additional, Tenbusch, Matthias, additional, Überla, Klaus, additional, Alter, Galit, additional, Lofano, Giuseppe, additional, Dugast, Anne-Sophie, additional, Kulkarni, Viraj, additional, Suscovich, Todd, additional, Opazo, Tatiana, additional, Barraza, Felipe, additional, Herrera, Diego, additional, Garces, Andrea, additional, Schwenke, Tomas, additional, Tapia, Diego, additional, Cancino, Jorge, additional, Arriagada, Gloria, additional, Haußner, Christina, additional, Damm, Dominik, additional, Rohrhofer, Anette, additional, Schmidt, Barbara, additional, Eichler, Jutta, additional, Midgley, Rebecca, additional, Wheeldon, James, additional, Piguet, Vincent, additional, Khopkar, Priyanka, additional, Rohamare, Megha, additional, Kulkarni, Smita, additional, Godinho-Santos, Ana, additional, Hance, Allan, additional, Goncalves, Joao, additional, Mammano, Fabrizio, additional, Gasser, Romain, additional, Hamoudi, Meriem, additional, Pellicciotta, Martina, additional, Zhou, Zhicheng, additional, Visdeloup, Clara, additional, Colin, Philippe, additional, Braibant, Martine, additional, Lagane, Bernard, additional, Negroni, Matteo, additional, Wamara, Jula, additional, Bannert, Norbert, additional, Mesplede, Thibault, additional, Osman, Nathan, additional, Anstett, Kaitlin, additional, Liang, Jiaming Calvin, additional, Pham, Hanh Thi, additional, Wainberg, Mark, additional, Shao, Wei, additional, Shan, Jigui, additional, Kearney, Mary, additional, Wu, Xiaolin, additional, Maldarelli, Frank, additional, Mellors, John, additional, Luke, Brian, additional, Coffin, John, additional, Hughes, Stephen, additional, Fricke, Thomas, additional, Opp, Silvana, additional, Shepard, Caitlin, additional, Ivanov, Dmitri, additional, Valle-Casuso, Jose, additional, Kanja, Marine, additional, Cappy, Pierre, additional, Lener, Daniela, additional, Knyazhanskaya, Ekaterina, additional, Anisenko, Andrey, additional, Zatsepin, Timofey, additional, Gottikh, Marina, additional, Komkov, Alexander, additional, Minervina, Anastasia, additional, Nugmanov, Gaiaz, additional, Nazarov, Vadim, additional, Khodosevich, Konstantin, additional, Mamedov, Ilgar, additional, Lebedev, Yuri, additional, Colomer-Lluch, Marta, additional, Serra-Moreno, Ruth, additional, Sarracino, Ambra, additional, Gharu, Lavina, additional, Pasternak, Alexander, additional, Marcello, Alessandro, additional, McCartin, Ann Marie, additional, Kulkarni, Anurag, additional, Le Douce, Valentin, additional, Gautier, Virginie, additional, Baeyens, Ann, additional, Naessens, Evelien, additional, Van Nuffel, Anouk, additional, Weening, Karin, additional, Reilly, Anne- Marie, additional, Claeys, Eva, additional, Trypsteen, Wim, additional, Vandekerckhove, Linos, additional, Eyckerman, Sven, additional, Gevaert, Kris, additional, Verhasselt, Bruno, additional, Mok, Hoi Ping, additional, Norton, Nicholas, additional, Fun, Axel, additional, Hirst, Jack, additional, Wills, Mark, additional, Miklik, Dalibor, additional, Senigl, Filip, additional, Hejnar, Jiri, additional, Sakuragi, Jun-ichi, additional, Sakuragi, Sayuri, additional, Yokoyama, Masaru, additional, Shioda, Tatsuo, additional, Sato, Hironori, additional, Bodem, Jochen, additional, Moschall, Rebecca, additional, Denk, Sarah, additional, Erkelenz, Steffen, additional, Schenk, Christian, additional, Schaal, Heiner, additional, Donhauser, Norbert, additional, Socher, Ellen, additional, Millen, Sebastian, additional, Sticht, Heinrich, additional, Mann, Melanie, additional, Wei, Guochao, additional, Betts, Matthew J., additional, Liu, Yang, additional, Kehl, Timo, additional, Russell, Robert B., additional, Löchelt, Martin, additional, Hohn, Oliver, additional, Mostafa, Saeed, additional, Hanke, Kirsten, additional, Norley, Stephen, additional, Chen, Chia-Yen, additional, Shingai, Masashi, additional, Borrego, Pedro, additional, Taveira, Nuno, additional, Strebel, Klaus, additional, Hellmund, Chris, additional, Friedrich, Melanie, additional, Hahn, Friedrich, additional, Setz, Christian, additional, Rauch, Pia, additional, Fraedrich, Kirsten, additional, Matthaei, Alina, additional, Henklein, Petra, additional, Traxdorf, Maximilian, additional, Fossen, Torgils, additional, Schubert, Ulrich, additional, Khwaja, Aya, additional, Galilee, Meytal, additional, Alian, Akram, additional, Schwalbe, Birco, additional, Hauser, Heiko, additional, Schreiber, Michael, additional, Scherpenisse, Mirte, additional, Cho, Young-Keol, additional, Kim, Jungeun, additional, Jeong, Daeun, additional, Trejbalova, Katerina, additional, Benesova, Martina, additional, Kucerova, Dana, additional, Vernerova, Zdenka, additional, Amouroux, Rachel, additional, Hajkova, Petra, additional, Elleder, Daniel, additional, Hron, Tomas, additional, Farkasova, Helena, additional, Padhi, Abinash, additional, Paces, Jan, additional, Zhu, Henan, additional, Gifford, Robert, additional, Murcia, Pablo, additional, Carrozza, Maria Luisa, additional, Niewiadomska, Anna-Maria, additional, Mazzei, Maurizio, additional, Abi-Said, Mounir, additional, Hughes, Joseph, additional, Hué, Stéphane, additional, Obasa, Adetayo, additional, Jacobs, Graeme, additional, Engelbrecht, Susan, additional, Mack, Katharina, additional, Starz, Kathrin, additional, Geyer, Matthias, additional, Bibollet-Ruche, Frederic, additional, Leoz, Marie, additional, Plantier, Jean Christophe, additional, Argaw-Denboba, Ayele, additional, Balestrieri, Emanuela, additional, Serafino, Annalucia, additional, Bucci, Ilaria, additional, Cipriani, Chiara, additional, Spadafora, Corrado, additional, Sinibaldi-Vallebona, Paolo, additional, Matteucci, Claudia, additional, Jayashree, S. Nandi, additional, Neogi, Ujjwal, additional, Chhangani, Anil K., additional, Rathore, Shravan Sing, additional, Mathur, Bajrang R. J., additional, Abati, Adeyemi, additional, Koç, B. Taylan, additional, Oğuzoğlu, Tuba Çiğdem, additional, Shimauchi, Takatoshi, additional, Caucheteux, Stephan, additional, Turpin, Jocelyn, additional, Finsterbusch, Katja, additional, Tokura, Yoshiki, additional, Souriant, Shanti, additional, Balboa, Luciana, additional, Pingris, Karine, additional, Kviatcowsky, Denise, additional, Raynaud-Messina, Brigitte, additional, Cougoule, Céline, additional, Mercier, Ingrid, additional, Kuroda, Marcelo, additional, González-Montaner, Pablo, additional, Inwentarz, Sandra, additional, Moraña, Eduardo Jose, additional, del Carmen Sasiain, Maria, additional, Neyrolles, Olivier, additional, Maridonneau-Parini, Isabelle, additional, Lugo-Villarino, Geanncarlo, additional, Vérollet, Christel, additional, Herrmann, Alexandra, additional, Thomas, Dominique, additional, Bouzas, Nerea Ferreirós, additional, Lahaye, Xavier, additional, Bhargava, Anvita, additional, Satoh, Takeshi, additional, Gentili, Matteo, additional, Cerboni, Silvia, additional, Silvin, Aymeric, additional, Conrad, Cécile, additional, Ahmed-Belkacem, Hakim, additional, Rodriguez, Elisa C., additional, Guichou, Jean-François, additional, Bosquet, Nathalie, additional, Piel, Matthieu, additional, Le Grand, Roger, additional, King, Megan, additional, Pawlotsky, Jean-Michel, additional, Manel, Nicolas, additional, Hofmann, Henning, additional, Vanwalscappel, Benedicte, additional, Bloch, Nicolin, additional, Landau, Nathaniel, additional, Indik, Stanislav, additional, Hagen, Benedikt, additional, Valle-Casuso, José Carlos, additional, Allouch, Awatef, additional, David, Annie, additional, Barré-Sinoussi, Françoise, additional, Benkirane, Monsef, additional, Pancino, Gianfranco, additional, Saez-Cirion, Asier, additional, Lee, Wing-Yiu, additional, Sloan, Richard, additional, Schulte, Bianca, additional, Blomberg, Jonas, additional, Vargiu, Luana, additional, Rodriguez-Tomé, Patricia, additional, Tramontano, Enzo, additional, Sperber, Göran, additional, Kumari, 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Barchet, Winfried, additional, Häussler, Susanne, additional, Pietschmann, Thomas, additional, Javed, Aneela, additional, Leuchte, Nicole, additional, Salinas, Gabriela, additional, Opitz, Lennart, additional, Sopper, Sieghart, additional, Mummert, Christiane, additional, Hofmann, Christian, additional, Hückelhoven, Angela G., additional, Bergmann, Silke, additional, Müller-Schmucker, Sandra M., additional, Harrer, Ellen G., additional, Dörrie, Jan, additional, Schaft, Niels, additional, Harrer, Thomas, additional, Cardinaux, Laure, additional, Zahno, M.- L., additional, Vogt, H.- R., additional, Zanoni, R., additional, Bertoni, G., additional, Muenchhoff, Maximilian, additional, Goulder, Philip, additional, Keppler, Oliver, additional, Rebensburg, Stephanie, additional, Helfer, Markus, additional, Zhang, Yuwei, additional, Chen, Huicheng, additional, Bernier, Annie, additional, Gosselin, Annie, additional, Routy, Jean- Pierre, additional, Wöhrl, Birgitta, additional, Schneider, Anna, additional, Corona, Angela, additional, Spöring, Imke, additional, Jordan, Mareike, additional, Buchholz, Bernd, additional, Maccioni, Elias, additional, Di Santo, Roberto, additional, Schweimer, Kristian, additional, Schölz, Christian, additional, Weinert, Brian, additional, Wagner, Sebastian, additional, Beli, Petra, additional, Miyake, Yasuyuki, additional, Qi, Jun, additional, Jensen, Lars, additional, Streicher, Werner, additional, McCarthy, Anna, additional, Westwood, Nicholas, additional, Lain, Sonia, additional, Cox, Jürgen, additional, Matthias, Patrick, additional, Mann, Matthias, additional, Bradner, James, additional, Choudhary, Chunaram, additional, Stern, Marcel, additional, Valletta, Elena, additional, Frezza, Caterina, additional, Marino-Merlo, Francesca, additional, Grelli, Sandro, additional, Serafino, Anna Lucia, additional, Mastino, Antonio, additional, Macchi, Beatrice, additional, Kaulfuß, Meike, additional, Windmann, Sonja, additional, Bayer, Wibke, additional, Mikasi, Sello, additional, Heß, Rebecca, additional, Bonsmann, Michael Storcksdieck gen., additional, Kirschning, Carsten, additional, Lepenies, Bernd, additional, Kolenbrander, Anne, additional, Temchura, Vladimir, additional, Iijima, Kenta, additional, Kobayashi, Junya, additional, and Ishizaka, Yukihito, additional
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- 2016
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29. Chimeric Antigen Receptor Transgenic, T Cell Receptor/CD3 Negative Monospecific T Cells Generated from Cord Blood CD34 Positive Cells
- Author
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van Caeneghem, Yasmine, Goetgeluk, Glenn, Weening, Karin, Verstichel, Greet, Bonte, Sarah, Taghon, Tom, Leclercq, Georges, Offner, Fritz, Abken, Hinrich, Kerre, Tessa, Vandekerkhove, Bart, van Caeneghem, Yasmine, Goetgeluk, Glenn, Weening, Karin, Verstichel, Greet, Bonte, Sarah, Taghon, Tom, Leclercq, Georges, Offner, Fritz, Abken, Hinrich, Kerre, Tessa, and Vandekerkhove, Bart
- Published
- 2015
30. Chimeric Antigen Receptor Transgenic, T Cell Receptor/CD3 Negative Monospecific T Cells Generated from Cord Blood CD34 Positive Cells
- Author
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van Caeneghem, Yasmine, primary, Goetgeluk, Glenn, additional, Weening, Karin, additional, Verstichel, Greet, additional, Bonte, Sarah, additional, Taghon, Tom, additional, Leclercq, Georges, additional, Offner, Fritz, additional, Abken, Hinrich, additional, Kerre, Tessa, additional, and Vandekerkhove, Bart, additional
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- 2015
- Full Text
- View/download PDF
31. Vaccine-induced monoclonal antibodies targeting circumsporozoite protein prevent Plasmodium falciparum infection
- Author
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Foquet, Lander, primary, Hermsen, Cornelus C., additional, van Gemert, Geert-Jan, additional, Van Braeckel, Eva, additional, Weening, Karin E., additional, Sauerwein, Robert, additional, Meuleman, Philip, additional, and Leroux-Roels, Geert, additional
- Published
- 2013
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32. Evolution of self-organisation in Dictyostelia by adaptation of a non-selective phosphodiesterase and a matrix component for regulated cAMP degradation
- Author
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Kawabe, Yoshinori, primary, Weening, Karin E., additional, Marquay-Markiewicz, Jacques, additional, and Schaap, Pauline, additional
- Published
- 2012
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- View/download PDF
33. Genetic Control of Lithium Sensitivity and Regulation of Inositol Biosynthetic Genes
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King, Jason, primary, Keim, Melanie, additional, Teo, Regina, additional, Weening, Karin E., additional, Kapur, Mridu, additional, McQuillan, Karina, additional, Ryves, Jonathan, additional, Rogers, Ben, additional, Dalton, Emma, additional, Williams, Robin S. B., additional, and Harwood, Adrian J., additional
- Published
- 2010
- Full Text
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34. Vectors for expression of proteins with single or combinatorial fluorescent protein and tandem affinity purification tags in Dictyostelium
- Author
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Meima, Marcel E., primary, Weening, Karin E., additional, and Schaap, Pauline, additional
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- 2007
- Full Text
- View/download PDF
35. Pharmacological profiling of the Dictyostelium adenylate cyclases ACA, ACB and ACG
- Author
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Alvarez-Curto, Elisa, primary, Weening, Karin E., additional, and Schaap, Pauline, additional
- Published
- 2006
- Full Text
- View/download PDF
36. Characterization of a cAMP-stimulated cAMP Phosphodiesterase inDictyostelium discoideum
- Author
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Meima, Marcel E., primary, Weening, Karin E., additional, and Schaap, Pauline, additional
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- 2003
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- View/download PDF
37. The Protein Kinase YakA Regulates G-protein-linked Signaling Responses during Growth and Development ofDictyostelium
- Author
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van Es, Saskia, primary, Weening, Karin E., additional, and Devreotes, Peter N., additional
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- 2001
- Full Text
- View/download PDF
38. Proceedings of the Frontiers of Retrovirology Conference 2016
- Author
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Zurnic, Irena, Hütter, Sylvia, Lehmann, Ute, Stanke, Nicole, Reh, Juliane, Kern, Tobias, Lindel, Fabian, Gerresheim, Gesche, Hamann, Martin, Müllers, Erik, Lesbats, Paul, Cherepanov, Peter, Serrao, Erik, Engelman, Alan, Lindemann, Dirk, Da Silva Santos, Claire, Tartour, Kevin, Cimarelli, Andrea, Burdick, Rya, Chen, Jianbo, Sastri, Jaya, Hu, Wei-Shau, Pathak, Vinay, Keppler, Oliver T., Pradeau, Karine, Eiler, Sylvia, Levy, Nicolas, Lennon, Sarah, Cianferani, Sarah, Emiliani, Stéphane, Ruff, Marc, Parissi, Vincent, Rato, Sylvie, Rausell, Antonio, Munoz, Miguel, Telenti, Amalio, Ciuffi, Angela, Zhyvoloup, Alexander, Melamed, Anat, Anderson, Ian, Planas, Delphine, Kriston-Vizi, Janos, Ketteler, Robin, Lee, Chen- Hsuin, Merritt, Andy, Ancuta, Petronela, Bangham, Charles, Fassati, Ariberto, Rodari, Anthony, Van Driessche, Benoit, Galais, Mathilde, Delacourt, Nadége, Fauquenoy, Sylvain, Vanhulle, Caroline, Kula, Anna, Burny, Arsène, Rohr, Olivier, Van Lint, Carine, van Montfort, Thijs, van der Sluis, Renee, Speijer, Dave, Berkhout, Ben, Meng, Bo, Rutkowski, Andrzej, Berry, Neil, Dölken, Lars, Lever, Andrew, Schuster, Thomas, Asbach, Benedikt, Wagner, Ralf, Gross, Christine, Wiesmann, Veit, Kalmer, Martina, Wittenberg, Thomas, Gettemans, Jan, Thoma-Kress, Andrea K., Li, Minghua, Freed, Eric O., Liu, Shan-Lu, Müller, Janis, Münch, Jan, Sewald, Xaver, Uchil, Pradeep, Ladinsky, Mark, Beloor, Jagadish, Pi, Ruoxi, Herrmann, Christin, Motamedi, Nasim, Murooka, Thomas, Brehm, Michael, Greiner, Dale, Mempel, Thorsten, Bjorkman, Pamela, Kumar, Priti, Mothes, Walther, Joas, Simone, Parrish, Erica, Gnanadurai, Clement Wesley, Lump, Edina, Stürzel, Christina M., Parrish, Nicholas F., Sauermann, Ulrike, Töpfer, Katharina, Schultheiss, Tina, Bosinger, Steven, Silvestri, Guido, Apetrei, Cristian, Huot, Nicholas, Müller-Trutwin, Michaela, Sauter, Daniel, Hahn, Beatrice H., Stahl-Hennig, Christiane, Kirchhoff, Frank, Schumann, Gerald, Jung-Klawitter, Sabine, Fuchs, Nina V., Upton, Kyle R., Muñoz-Lopez, Martin, Shukla, Ruchi, Wang, Jichang, Garcia-Canadas, Marta, Lopez-Ruiz, Cesar, Gerhardt, Daniel J., Sebe, Attila, Grabundzija, Ivana, Gerdes, Patricia, Merkert, Sylvia, Pulgarin, Andres, Bock, Anja, Held, Ulrike, Witthuhn, Anett, Haase, Alexandra, Wolvetang, Ernst J., Martin, Ulrich, Ivics, Zoltán, Izsvák, Zsuzsanna, Garcia-Perez, J., Faulkner, Geoffrey J., Hurst, Tara, Katzourakis, Aris, Magiorkinis, Gkikas, Schott, Kerstin, Derua, Rita, Seifried, Janna, Reuter, Andreas, Schmitz, Heike, Tondera, Christiane, Brandariz-Nuñez, Alberto, Diaz-Griffero, Felipe, Janssens, Veerle, König, Renate, Baldauf, Hanna-Mari, Stegmann, Lena, Schwarz, Sarah-Marie, Trotard, Maud, Martin, Margarethe, Lenzi, Gina, Burggraf, Manja, Pan, Xiaoyu, Fregoso, Oliver I., Lim, Efrem S., Abraham, Libin, Erikson, Elina, Nguyen, Laura, Ambiel, Ina, Rutsch, Frank, Kim, Baek, Emerman, Michael, Fackler, Oliver T., Wittmann, Sabine, Behrendt, Rayk, Volkmann, Bianca, Eissmann, Kristin, Gramberg, Thomas, Bolduan, Sebastian, Koppensteiner, Herwig, Regensburg, Stefanie, Brack-Werner, Ruth, Draenert, Rika, Schindler, Michael, Ducroux, Aurélie, Xu, Shuting, Ponnurangam, Aparna, Franz, Sergej, Malassa, Angelina, Ewald, Ellen, Goffinet, Christine, Fung, Sin-Yee, Chan, Ching-Ping, Yuen, Chun-Kit, Kok, Kin-Hang, Chan, Chin-Ping, Jin, Dong-Yan, Dittmer, Ulf, Kmiec, Dorota, Iyer, Shilpa, Stürzel, Christina, Hahn, Beatrice, Ariumi, Yasuo, Yasuda-Inoue, Mariko, Kawano, Koudai, Tateishi, Satoshi, Turelli, Priscilla, Compton, Alex, Roy, Nicolas, Porrot, Françoise, Billet, Anne, Casartelli, Nicoletta, Yount, Jacob, Liang, Chen, Schwartz, Oliver, Magnus, Carsten, Reh, Lucia, Moore, Penny, Uhr, Therese, Weber, Jacqueline, Morris, Lynn, Trkola, Alexandra, Grindberg, Rashel V., Schlaepfer, Erika, Schreiber, Gideon, Simon, Viviana, Speck, Roberto F., Debyser, Zeger, Vranckx, Lenard, Demeulemeester, Jonas, Saleh, Suha, Verdin, Eric, Cereseto, Anna, Christ, Frauke, Gijsbers, Rik, Wang, Gang, Zhao, Na, Das, Atze T., Köstler, Josef, Perdiguero, Beatriz, Esteban, Mariano, Jacobs, Bertram L., Montefiori, David C., LaBranche, Celia C., Yates, Nicole L., Tomaras, Georgia D., Ferrari, Guido, Foulds, Kathryn E., Roederer, Mario, Landucci, Gary, Forthal, Donald N., Seaman, Michael S., Hawkins, Natalie, Self, Steven G., Phogat, Sanjay, Tartaglia, James, Barnett, Susan W., Burke, Brian, Cristillo, Anthony D., Ding, Song, Heeney, Jonathan L., Pantaleo, Giuseppe, Stab, Viktoria, Ensser, Armin, Tippler, Bettina, Burton, Dennis, Tenbusch, Matthias, Überla, Klaus, Alter, Galit, Lofano, Giuseppe, Dugast, Anne-Sophie, Kulkarni, Viraj, Suscovich, Todd, Opazo, Tatiana, Barraza, Felipe, Herrera, Diego, Garces, Andrea, Schwenke, Tomas, Tapia, Diego, Cancino, Jorge, Arriagada, Gloria, Haußner, Christina, Damm, Dominik, Rohrhofer, Anette, Schmidt, Barbara, Eichler, Jutta, Midgley, Rebecca, Wheeldon, James, Piguet, Vincent, Khopkar, Priyanka, Rohamare, Megha, Kulkarni, Smita, Godinho-Santos, Ana, Hance, Allan, Goncalves, Joao, Mammano, Fabrizio, Gasser, Romain, Hamoudi, Meriem, Pellicciotta, Martina, Zhou, Zhicheng, Visdeloup, Clara, Colin, Philippe, Braibant, Martine, Lagane, Bernard, Negroni, Matteo, Wamara, Jula, Bannert, Norbert, Mesplede, Thibault, Osman, Nathan, Anstett, Kaitlin, Liang, Jiaming Calvin, Pham, Hanh Thi, Wainberg, Mark, Shao, Wei, Shan, Jigui, Kearney, Mary, Wu, Xiaolin, Maldarelli, Frank, Mellors, John, Luke, Brian, Coffin, John, Hughes, Stephen, Fricke, Thomas, Opp, Silvana, Shepard, Caitlin, Ivanov, Dmitri, Valle-Casuso, Jose, Kanja, Marine, Cappy, Pierre, Lener, Daniela, Knyazhanskaya, Ekaterina, Anisenko, Andrey, Zatsepin, Timofey, Gottikh, Marina, Komkov, Alexander, Minervina, Anastasia, Nugmanov, Gaiaz, Nazarov, Vadim, Khodosevich, Konstantin, Mamedov, Ilgar, Lebedev, Yuri, Colomer-Lluch, Marta, Serra-Moreno, Ruth, Sarracino, Ambra, Gharu, Lavina, Pasternak, Alexander, Marcello, Alessandro, McCartin, Ann Marie, Kulkarni, Anurag, Le Douce, Valentin, Gautier, Virginie, Baeyens, Ann, Naessens, Evelien, Van Nuffel, Anouk, Weening, Karin, Reilly, Anne- Marie, Claeys, Eva, Trypsteen, Wim, Vandekerckhove, Linos, Eyckerman, Sven, Gevaert, Kris, Verhasselt, Bruno, Mok, Hoi Ping, Norton, Nicholas, Fun, Axel, Hirst, Jack, Wills, Mark, Miklik, Dalibor, Senigl, Filip, Hejnar, Jiri, Sakuragi, Jun-ichi, Sakuragi, Sayuri, Yokoyama, Masaru, Shioda, Tatsuo, Sato, Hironori, Bodem, Jochen, Moschall, Rebecca, Denk, Sarah, Erkelenz, Steffen, Schenk, Christian, Schaal, Heiner, Donhauser, Norbert, Socher, Ellen, Millen, Sebastian, Sticht, Heinrich, Mann, Melanie, Wei, Guochao, Betts, Matthew J., Liu, Yang, Kehl, Timo, Russell, Robert B., Löchelt, Martin, Hohn, Oliver, Mostafa, Saeed, Hanke, Kirsten, Norley, Stephen, Chen, Chia-Yen, Shingai, Masashi, Borrego, Pedro, Taveira, Nuno, Strebel, Klaus, Hellmund, Chris, Friedrich, Melanie, Hahn, Friedrich, Setz, Christian, Rauch, Pia, Fraedrich, Kirsten, Matthaei, Alina, Henklein, Petra, Traxdorf, Maximilian, Fossen, Torgils, Schubert, Ulrich, Khwaja, Aya, Galilee, Meytal, Alian, Akram, Schwalbe, Birco, Hauser, Heiko, Schreiber, Michael, Scherpenisse, Mirte, Cho, Young-Keol, Kim, Jungeun, Jeong, Daeun, Trejbalova, Katerina, Benesova, Martina, Kucerova, Dana, Vernerova, Zdenka, Amouroux, Rachel, Hajkova, Petra, Elleder, Daniel, Hron, Tomas, Farkasova, Helena, Padhi, Abinash, Paces, Jan, Zhu, Henan, Gifford, Robert, Murcia, Pablo, Carrozza, Maria Luisa, Niewiadomska, Anna-Maria, Mazzei, Maurizio, Abi-Said, Mounir, Hughes, Joseph, Hué, Stéphane, Obasa, Adetayo, Jacobs, Graeme, Engelbrecht, Susan, Mack, Katharina, Starz, Kathrin, Geyer, Matthias, Bibollet-Ruche, Frederic, Leoz, Marie, Plantier, Jean Christophe, Argaw-Denboba, Ayele, Balestrieri, Emanuela, Serafino, Annalucia, Bucci, Ilaria, Cipriani, Chiara, Spadafora, Corrado, Sinibaldi-Vallebona, Paolo, Matteucci, Claudia, Jayashree, S. Nandi, Neogi, Ujjwal, Chhangani, Anil K., Rathore, Shravan Sing, Mathur, Bajrang R. J., Abati, Adeyemi, Koç, B. Taylan, Oğuzoğlu, Tuba Çiğdem, Shimauchi, Takatoshi, Caucheteux, Stephan, Turpin, Jocelyn, Finsterbusch, Katja, Tokura, Yoshiki, Souriant, Shanti, Balboa, Luciana, Pingris, Karine, Kviatcowsky, Denise, Raynaud-Messina, Brigitte, Cougoule, Céline, Mercier, Ingrid, Kuroda, Marcelo, González-Montaner, Pablo, Inwentarz, Sandra, Moraña, Eduardo Jose, del Carmen Sasiain, Maria, Neyrolles, Olivier, Maridonneau-Parini, Isabelle, Lugo-Villarino, Geanncarlo, Vérollet, Christel, Herrmann, Alexandra, Thomas, Dominique, Bouzas, Nerea Ferreirós, Lahaye, Xavier, Bhargava, Anvita, Satoh, Takeshi, Gentili, Matteo, Cerboni, Silvia, Silvin, Aymeric, Conrad, Cécile, Ahmed-Belkacem, Hakim, Rodriguez, Elisa C., Guichou, Jean-François, Bosquet, Nathalie, Piel, Matthieu, Le Grand, Roger, King, Megan, Pawlotsky, Jean-Michel, Manel, Nicolas, Hofmann, Henning, Vanwalscappel, Benedicte, Bloch, Nicolin, Landau, Nathaniel, Indik, Stanislav, Hagen, Benedikt, Valle-Casuso, José Carlos, Allouch, Awatef, David, Annie, Barré-Sinoussi, Françoise, Benkirane, Monsef, Pancino, Gianfranco, Saez-Cirion, Asier, Lee, Wing-Yiu, Sloan, Richard, Schulte, Bianca, Blomberg, Jonas, Vargiu, Luana, Rodriguez-Tomé, Patricia, Tramontano, Enzo, Sperber, Göran, Kumari, Namita, Ammosova, Tatiana, Diaz, Sharmeen, Oneal, Patricia, Nekhai, Sergei, Fahrny, Audrey, Gers-Huber, Gustavo, Audigé, Annette, Jayaprakash, Anitha, Sachidanandam, Ravi, Hernandez, Matt, Dillon-White, Marsha, Maze, Emmanuel, Ham, Claire, Almond, Neil, Towers, Greg, Belshaw, Robert, de Sousa-Pereira, Patrícia, Abrantes, Joana, Pizzato, Massimo, Esteves, Pedro J., Kahle, Tanja, Schmitt, Sven, Merkel, Laura, Reuter, Nina, Stamminger, Thomas, Rosa, Ilaria Dalla, Bishop, Kate, Spinazzola, Antonella, Groom, Harriet, Vieyres, Gabrielle, Müsken, Mathias, Zillinger, Thomas, Hornung, Veit, Barchet, Winfried, Häussler, Susanne, Pietschmann, Thomas, Javed, Aneela, Leuchte, Nicole, Salinas, Gabriela, Opitz, Lennart, Sopper, Sieghart, Mummert, Christiane, Hofmann, Christian, Hückelhoven, Angela G., Bergmann, Silke, Müller-Schmucker, Sandra M., Harrer, Ellen G., Dörrie, Jan, Schaft, Niels, Harrer, Thomas, Cardinaux, Laure, Zahno, M.- L., Vogt, H.- R., Zanoni, R., Bertoni, G., Muenchhoff, Maximilian, Goulder, Philip, Keppler, Oliver, Rebensburg, Stephanie, Helfer, Markus, Zhang, Yuwei, Chen, Huicheng, Bernier, Annie, Gosselin, Annie, Routy, Jean- Pierre, Wöhrl, Birgitta, Schneider, Anna, Corona, Angela, Spöring, Imke, Jordan, Mareike, Buchholz, Bernd, Maccioni, Elias, Di Santo, Roberto, Schweimer, Kristian, Schölz, Christian, Weinert, Brian, Wagner, Sebastian, Beli, Petra, Miyake, Yasuyuki, Qi, Jun, Jensen, Lars, Streicher, Werner, McCarthy, Anna, Westwood, Nicholas, Lain, Sonia, Cox, Jürgen, Matthias, Patrick, Mann, Matthias, Bradner, James, Choudhary, Chunaram, Stern, Marcel, Valletta, Elena, Frezza, Caterina, Marino-Merlo, Francesca, Grelli, Sandro, Serafino, Anna Lucia, Mastino, Antonio, Macchi, Beatrice, Kaulfuß, Meike, Windmann, Sonja, Bayer, Wibke, Mikasi, Sello, Heß, Rebecca, Bonsmann, Michael Storcksdieck gen., Kirschning, Carsten, Lepenies, Bernd, Kolenbrander, Anne, Temchura, Vladimir, Iijima, Kenta, Kobayashi, Junya, and Ishizaka, Yukihito
- Abstract
Table of contents Oral presentations Session 1: Entry & uncoating O1 Host cell polo-like kinases (PLKs) promote early prototype foamy virus (PFV) replication Irena Zurnic, Sylvia Hütter, Ute Lehmann, Nicole Stanke, Juliane Reh, Tobias Kern, Fabian Lindel, Gesche Gerresheim, Martin Hamann, Erik Müllers, Paul Lesbats, Peter Cherepanov, Erik Serrao, Alan Engelman, Dirk Lindemann O2 A novel entry/uncoating assay reveals the presence of at least two species of viral capsids during synchronized HIV-1 infection Claire Da Silva Santos, Kevin Tartour, Andrea Cimarelli O3 Dynamics of nuclear envelope association and nuclear import of HIV-1 complexes Rya Burdick, Jianbo Chen, Jaya Sastri, Wei-Shau Hu, Vinay Pathak O4 Human papillomavirus protein E4 potently enhances the susceptibility to HIV infection Oliver T. Keppler Session 2: Reverse transcription & integration O5 Structure and function of HIV-1 integrase post translational modifications Karine Pradeau, Sylvia Eiler, Nicolas Levy, Sarah Lennon, Sarah Cianferani, Stéphane Emiliani, Marc Ruff O6 Regulation of retroviral integration by RNA polymerase II associated factors and chromatin structure Vincent Parissi Session 3: Transcription and latency O7 A novel single-cell analysis pipeline to identify specific biomarkers of HIV permissiveness Sylvie Rato, Antonio Rausell, Miguel Munoz, Amalio Telenti, Angela Ciuffi O8 A capsid-dependent integration program linking T cell activation to HIV-1 gene expression Alexander Zhyvoloup, Anat Melamed, Ian Anderson, Delphine Planas, Janos Kriston-Vizi, Robin Ketteler, Chen-Hsuin Lee, Andy Merritt, Petronela Ancuta, Charles Bangham, Ariberto Fassati O9 Characterisation of new RNA polymerase III and RNA polymerase II transcriptional promoters in the Bovine Leukemia Virus genome Anthony Rodari, Benoit Van Driessche, Mathilde Galais, Nadége Delacourt, Sylvain Fauquenoy, Caroline Vanhulle, Anna Kula, Arsène Burny, Olivier Rohr, Carine Van Lint O10 Tissue-specific dendritic cells differentially modulate latent HIV-1 reservoirs Thijs van Montfort, Renee van der Sluis, Dave Speijer, Ben Berkhout Session 4: RNA trafficking & packaging O11 A novel cis-acting element affecting HIV replication Bo Meng, Andrzej Rutkowski, Neil Berry, Lars Dölken, Andrew Lever O12 Tolerance of HIV’s late gene expression towards stepwise codon adaptation Thomas Schuster, Benedikt Asbach, Ralf Wagner Session 5: Assembly & release O13 Importance of the tax-inducible actin-bundling protein fascin for transmission of human T cell leukemia virus Type 1 (HTLV-1) Christine Gross, Veit Wiesmann, Martina Kalmer, Thomas Wittenberg, Jan Gettemans, Andrea K. Thoma-Kress O14 Lentiviral nef proteins antagonize TIM-mediated inhibition of viral release Minghua Li, Eric O. Freed, Shan-Lu Liu Session 6: Pathogenesis & evolution O15 SEVI and semen prolong the half-life of HIV-1 Janis Müller, Jan Münch O16 CD169+ macrophages mediate retrovirus trans-infection of permissive lymphocytes to establish infection in vivo Xaver Sewald, Pradeep Uchil, Mark Ladinsky, Jagadish Beloor, Ruoxi Pi, Christin Herrmann, Nasim Motamedi, Thomas Murooka, Michael Brehm, Dale Greiner, Thorsten Mempel, Pamela Bjorkman, Priti Kumar, Walther Mothes O17 Efficient replication of a vpu containing SIVagm construct in African Green Monkeys requires an HIV-1 nef gene Simone Joas, Erica Parrish, Clement Wesley Gnanadurai, Edina Lump, Christina M. Stürzel, Nicholas F. Parrish, Ulrike Sauermann, Katharina Töpfer, Tina Schultheiss, Steven Bosinger, Guido Silvestri, Cristian Apetrei, Nicholas Huot, Michaela Müller-Trutwin, Daniel Sauter, Beatrice H. Hahn, Christiane Stahl-Hennig, Frank Kirchhoff O18 Reprogramming initiates mobilization of endogenous mutagenic LINE-1, Alu and SVA retrotransposons in human induced pluripotent stem cells with consequences for host gene expression Gerald Schumann, Sabine Jung-Klawitter, Nina V. Fuchs, Kyle R. Upton, Martin Muñoz-Lopez, Ruchi Shukla, Jichang Wang, Marta Garcia-Canadas, Cesar Lopez-Ruiz, Daniel J. Gerhardt, Attila Sebe, Ivana Grabundzija, Patricia Gerdes, Sylvia Merkert, Andres Pulgarin, Anja Bock, Ulrike Held, Anett Witthuhn, Alexandra Haase, Ernst J. Wolvetang, Ulrich Martin, Zoltán Ivics, Zsuzsanna Izsvák, J. Garcia-Perez, Geoffrey J. Faulkner O19 NF-κB activation induces expression of human endogenous retrovirus and particle production Tara Hurst, Aris Katzourakis, Gkikas Magiorkinis Session 7a and b: Innate sensing & intrinsic immunity O20 Identification of the phosphatase acting on T592 in SAMHD1 during M/G1 transition Kerstin Schott, Rita Derua, Janna Seifried, Andreas Reuter, Heike Schmitz, Christiane Tondera, Alberto Brandariz-Nuñez, Felipe Diaz-Griffero, Veerle Janssens, Renate König O21 Vpx overcomes a SAMHD1-independent block to HIV reverse transcription that is specific to resting CD4 T cells Hanna-Mari Baldauf, Lena Stegmann, Sarah-Marie Schwarz, Maud Trotard, Margarethe Martin, Gina Lenzi, Manja Burggraf, Xiaoyu Pan, Oliver I. Fregoso, Efrem S. Lim, Libin Abraham, Elina Erikson, Laura Nguyen, Ina Ambiel, Frank Rutsch, Renate König, Baek Kim, Michael Emerman, Oliver T. Fackler, Oliver T. Keppler O22 The role of SAMHD1 in antiviral restriction and immune sensing in the mouse Sabine Wittmann, Rayk Behrendt, Bianca Volkmann, Kristin Eissmann, Thomas Gramberg O23 T cells expressing reduced restriction factors are preferentially infected in therapy naïve HIV-1 patients Sebastian Bolduan, Herwig Koppensteiner, Stefanie Regensburg, Ruth Brack-Werner, Rika Draenert, Michael Schindler O24 cGAS-mediated innate immunity spreads through HIV-1 env-induced membrane fusion sites from infected to uninfected primary HIV-1 target cells Aurélie Ducroux, Shuting Xu, Aparna Ponnurangam, Sergej Franz, Angelina Malassa, Ellen Ewald, Christine Goffinet O25 Perturbation of innate RNA and DNA sensing by human T cell leukemia virus type 1 oncoproteins Sin-Yee Fung, Ching-Ping Chan, Chun-Kit Yuen, Kin-Hang Kok, Chin-Ping Chan, Dong-Yan Jin O26 Induction and anti-viral activity of Interferon α subtypes in HIV-1 infection Ulf Dittmer O27 Vpu-mediated counteraction of tetherin is a major determinant of HIV-1 interferon resistance Dorota Kmiec, Shilpa Iyer, Christina Stürzel, Daniel Sauter, Beatrice Hahn, Frank Kirchhoff O28 DNA repair protein Rad18 restricts HIV-1 and LINE-1 life cycle Yasuo Ariumi, Mariko Yasuda-Inoue, Koudai Kawano, Satoshi Tateishi, Priscilla Turelli O29 Natural mutations in IFITM3 allow escape from post-translational regulation and toggle antiviral specificity Alex Compton, Nicolas Roy, Françoise Porrot, Anne Billet, Nicoletta Casartelli, Jacob Yount, Chen Liang, Oliver Schwartz Session 8: Adaptive immunity & immune evasion O30 Observing evolution in HIV-1 infection: phylogenetics and mutant selection windows to infer the influence of the autologous antibody response on the viral quasispecies Carsten Magnus, Lucia Reh, Penny Moore, Therese Uhr, Jacqueline Weber, Lynn Morris, Alexandra Trkola O31 Dose and subtype specific analyses of the anti-HIV effects of IFN-alpha family members Rashel V. Grindberg, Erika Schlaepfer, Gideon Schreiber, Viviana Simon, Roberto F. Speck Session 9: Novel antiviral strategies O32 LEDGIN-mediated inhibition of the integrase-LEDGF/p75 interaction reduces reactivation of residual latent HIV Zeger Debyser, Lenard Vranckx, Jonas Demeulemeester, Suha Saleh, Eric Verdin, Anna Cereseto, Frauke Christ, Rik Gijsbers O33 NKG2D-mediated clearance of reactivated viral reservoirs by natural killer cells O34 Inhibition of HIV reactivation in brain cells by AAV-mediated delivery of CRISPR/Cas9 O35 CRISPR-Cas9 as antiviral: potent HIV-1 inhibition, but rapid virus escape and the subsequent design of escape-proof antiviral strategies Ben Berkhout, Gang Wang, Na Zhao, Atze T. Das Session 10: Recent advances in HIV vaccine development O36 Priming with a potent HIV-1 DNA vaccine frames the quality of T cell and antibody responses prior to a poxvirus and protein boost Benedikt Asbach, Josef Köstler, Beatriz Perdiguero, Mariano Esteban, Bertram L. Jacobs, David C. Montefiori, Celia C. LaBranche, Nicole L. Yates, Georgia D. Tomaras, Guido Ferrari, Kathryn E. Foulds, Mario Roederer, Gary Landucci, Donald N. Forthal, Michael S. Seaman, Natalie Hawkins, Steven G. Self, Sanjay Phogat, James Tartaglia, Susan W. Barnett, Brian Burke, Anthony D. Cristillo, Song Ding, Jonathan L. Heeney, Giuseppe Pantaleo, Ralf Wagner O37 Passive immunisation with a neutralising antibody against HIV-1 Env prevents infection of the first cells in a mucosal challenge rhesus monkey model Christiane Stahl-Hennig, Viktoria Stab, Armin Ensser, Ulrike Sauermann, Bettina Tippler, Dennis Burton, Matthias Tenbusch, Klaus Überla O38 HIV antibody Fc-glycoforms drive B cell affinity maturation Galit Alter, Giuseppe Lofano, Anne-Sophie Dugast, Viraj Kulkarni, Todd Suscovich Poster presentations Topic 1: Entry & uncoating P1 Dynein light chain is required for murine leukemia virus infection Tatiana Opazo, Felipe Barraza, Diego Herrera, Andrea Garces, Tomas Schwenke, Diego Tapia, Jorge Cancino, Gloria Arriagada P2 Peptide paratope mimics of the broadly neutralising HIV-1 antibody b12 Christina Haußner, Dominik Damm, Anette Rohrhofer, Barbara Schmidt, Jutta Eichler P3 Investigating cellular pathways involved in the transmission of HIV-1 between dendritic cells and T cells using RNAi screening techniques Rebecca Midgley, James Wheeldon, Vincent Piguet P4 Co-receptor tropism in HIV-1, HIV-2 monotypic and dual infections Priyanka Khopkar, Megha Rohamare, Smita Kulkarni P5 Characterisation of the role of CIB1 and CIB2 as HIV-1 helper factors Ana Godinho-Santos, Allan Hance, Joao Goncalves, Fabrizio Mammano P6 Buffering deleterious polymorphisms in the highly constrained C2 region of HIV-1 envelope by the flexible V3 domain Romain Gasser, Meriem Hamoudi, Martina Pellicciotta, Zhicheng Zhou, Clara Visdeloup, Philippe Colin, Martine Braibant, Bernard Lagane, Matteo Negroni P7 Entry inhibition of HERV-K(HML-2) by an Env-IgG fusion protein Jula Wamara, Norbert Bannert Topic 2: Reverse transcription & integration P8 The R263K/H51Y resistance substitutions in HIV integrase decreases levels of integrated HIV DNA over time Thibault Mesplede, Nathan Osman, Kaitlin Anstett, Jiaming Calvin Liang, Hanh Thi Pham, Mark Wainberg P9 The Retrovirus Integration Database (RID) Wei Shao, Jigui Shan, Mary Kearney, Xiaolin Wu, Frank Maldarelli, John Mellors, Brian Luke, John Coffin, Stephen Hughes P10 The small molecule 3G11 inhibits HIV-1 reverse transcription Thomas Fricke, Silvana Opp, Caitlin Shepard, Dmitri Ivanov, Baek Kim, Jose Valle-Casuso, Felipe Diaz-Griffero P11 Dual and opposite regulation of HIV-1 integration by hRAD51: impact on therapeutical approaches using homologous DNA repair modulators Vincent Parissi P12 A flexible motif essential for integration by HIV-1 integrase Marine Kanja, Pierre Cappy, Matteo Negroni, Daniela Lener P13 Interaction between HIV-1 integrase and the host protein Ku70: identification of the binding site and study of the influence on integrase-proteasome interplay Ekaterina Knyazhanskaya, Andrey Anisenko, Timofey Zatsepin, Marina Gottikh P14 Normalisation based method for deep sequencing of somatic retroelement integrations in human genome Alexander Komkov, Anastasia Minervina, Gaiaz Nugmanov, Vadim Nazarov, Konstantin Khodosevich, Ilgar Mamedov, Yuri Lebedev Topic 3: Transcription and latency P15 BCA2/RABRING7 restricts HIV-1 transcription by preventing the nuclear translocation of NF-κB Marta Colomer-Lluch, Ruth Serra-Moreno P16 MATR3 post-transcriptional regulation of HIV-1 transcription during latency Ambra Sarracino, Anna Kula, Lavina Gharu, Alexander Pasternak, Carine Van Lint, Alessandro Marcello P17 HIV-1 tat intersects the SUMO pathway to regulate HIV-1 promoter activity Ann Marie McCartin, Anurag Kulkarni, Valentin Le Douce, Virginie Gautier P18 Conservation in HIV-1 Vpr guides tertiary gRNA folding and alternative splicing Ann Baeyens, Evelien Naessens, Anouk Van Nuffel, Karin Weening, Anne-Marie Reilly, Eva Claeys, Wim Trypsteen, Linos Vandekerckhove, Sven Eyckerman, Kris Gevaert, Bruno Verhasselt P19 The majority of reactivatable latent HIV are genetically distinct Hoi Ping Mok, Nicholas Norton, Axel Fun, Jack Hirst, Mark Wills, Andrew Lever P20 Do mutations in the tat exonic splice enhancer contribute to HIV-1 latency? Nicholas Norton, Hoi Ping Mok, Jack Hirst, Andrew Lever P21 Culture-to-Ct: A fast and direct RT-qPCR HIV gene reactivation screening method using primary T cell culture Valentin Le Douce, Ann Marie McCartin, Virginie Gautier P22 A novel approach to define populations of early silenced proviruses Dalibor Miklik, Filip Senigl, Jiri Hejnar Topic 4: RNA trafficking & packaging P23 Functional analysis of the structure and conformation of HIV-1 genome RNA DIS Jun-ichi Sakuragi, Sayuri Sakuragi, Masaru Yokoyama, Tatsuo Shioda, Hironori Sato P24 Regulation of foamy viral env splicing controls gag and pol expression Jochen Bodem, Rebecca Moschall, Sarah Denk, Steffen Erkelenz, Christian Schenk, Heiner Schaal Topic 5: Assembly & release P25 Transfer of HTLV-1 p8 to target T cells depends on VASP: a novel interaction partner of p8 Norbert Donhauser, Ellen Socher, Sebastian Millen, Heinrich Sticht, Andrea K. Thoma-Kress P26 COL4A1 and COL4A2 are novel HTLV-1 tax targets with a putative role in virus transmission Christine Gross, Sebastian Millen, Melanie Mann, Klaus Überla, Andrea K. Thoma-Kress P27 The C terminus of foamy virus gag protein is required for particle formation, and virus budding: starting assembly at the C terminus? Guochao Wei, Matthew J. Betts, Yang Liu, Timo Kehl, Robert B. Russell, Martin Löchelt P28 Generation of an antigen-capture ELISA and analysis of Rec and Staufen-1 effects on HERV-K(HML-2) virus particle production Oliver Hohn, Saeed Mostafa, Kirsten Hanke, Stephen Norley, Norbert Bannert P29 Antagonism of BST-2/tetherin is a conserved function of primary HIV-2 Env glycoproteins Chia-Yen Chen, Masashi Shingai, Pedro Borrego, Nuno Taveira, Klaus Strebel P30 Mutations in the packaging signal region of the HIV-1 genome cause a late domain mutant phenotype Chris Hellmund, Bo Meng, Andrew Lever P31 p6 regulates membrane association of HIV-1 gag Melanie Friedrich, Friedrich Hahn, Christian Setz, Pia Rauch, Kirsten Fraedrich, Alina Matthaei, Petra Henklein, Maximilian Traxdorf, Torgils Fossen, Ulrich Schubert Topic 6: Pathogenesis & evolution P32 Molecular and structural basis of protein evolution during viral adaptation Aya Khwaja, Meytal Galilee, Akram Alian P33 HIV-1 enhancement and neutralisation by soluble gp120 and its role for the selection of the R5-tropic “best fit” Birco Schwalbe, Heiko Hauser, Michael Schreiber P34 An insertion of seven amino acids in the Env cytoplasmic tail of Human Immunodeficiency Virus type 2 (HIV-2) selected during disease progression enhances viral replication François Dufrasne, Mara Lucchetti, Patrick Goubau, Jean Ruelle P35 Cell-associated HIV-1 unspliced to multiply spliced RNA ratio at 12 weeks ART correlates with markers of immune activation and apoptosis and predicts the CD4 T-cell count at 96 weeks ART Mirte Scherpenisse, Ben Berkhout, Alexander Pasternak P36 Faster progression in non-B subtype HIV-1-infected patients than Korean subclade of subtype B is accompanied by higher variation and no induction of gross deletion in non-B nef gene by Korean red ginseng treatment Young-Keol Cho, Jungeun Kim, Daeun Jeong P37 Aberrant expression of ERVWE1 endogenous retrovirus and overexpression of TET dioxygenases are characteristic features of seminoma Katerina Trejbalova, Martina Benesova, Dana Kucerova, Zdenka Vernerova, Rachel Amouroux, Petra Hajkova, Jiri Hejnar P38 Life history of the oldest lentivirus: characterisation of ELVgv integrations and the TRIM5 selection pattern in dermoptera Daniel Elleder, Tomas Hron, Helena Farkasova, Abinash Padhi, Jan Paces P39 Characterisation of a highly divergent endogenous retrovirus in the equine germ line Henan Zhu, Robert Gifford, Pablo Murcia P40 The emergence of pandemic retroviral infection in small ruminants Maria Luisa Carrozza, Anna-Maria Niewiadomska, Maurizio Mazzei, Mounir Abi-Said, Joseph Hughes, Stéphane Hué, Robert Gifford P41 Near full-length genome (NFLG) Characterisation of HIV-1 subtype B identified in South Africa Adetayo Obasa, Graeme Jacobs, Susan Engelbrecht P42 Acquisition of Vpu-mediated tetherin antagonism by an HIV-1 group O strain Katharina Mack, Kathrin Starz, Daniel Sauter, Matthias Geyer, Frederic Bibollet-Ruche, Christina Stürzel, Marie Leoz, Jean Christophe Plantier, Beatrice H. Hahn, Frank Kirchhoff P43 The human endogenous retrovirus type K is involved in cancer stem cell markers expression and in human melanoma malignancy Ayele Argaw-Denboba, Emanuela Balestrieri, Annalucia Serafino, Ilaria Bucci, Chiara Cipriani, Corrado Spadafora, Paolo Sinibaldi-Vallebona, Claudia Matteucci P44 Natural infection of Indian non-human primates by unique lentiviruses S. Nandi Jayashree, Ujjwal Neogi, Anil K. Chhangani, Shravan Sing Rathore, Bajrang R. J. Mathur P45 Free cervical cancer screening among HIV-positive women receiving antiretroviral treatment in Nigeria Adeyemi Abati P46 Molecular evolutionary status of feline immunodeficiency virus in Turkey B. Taylan Koç, Tuba Çiğdem Oğuzoğlu Topic 7: Innate sensing & intrinsic immunity P47 Cell-to-cell contact with HTLV-1-infected T cells reduces dendritic cell immune functions and contributes to infection in trans. Takatoshi Shimauchi, Stephan Caucheteux, Jocelyn Turpin, Katja Finsterbusch, Charles Bangham, Yoshiki Tokura, Vincent Piguet P48 Deciphering the mechanisms of HIV-1 exacerbation induced by Mycobacterium tuberculosis in monocytes/macrophages Shanti Souriant, Luciana Balboa, Karine Pingris, Denise Kviatcowsky, Brigitte Raynaud-Messina, Céline Cougoule, Ingrid Mercier, Marcelo Kuroda, Pablo González-Montaner, Sandra Inwentarz, Eduardo Jose Moraña, Maria del Carmen Sasiain, Olivier Neyrolles, Isabelle Maridonneau-Parini, Geanncarlo Lugo-Villarino, Christel Vérollet P49 The SAMHD1-mediated inhibition of LINE-1 retroelements is regulated by phosphorylation Alexandra Herrmann, Sabine Wittmann, Caitlin Shepard, Dominique Thomas, Nerea Ferreirós Bouzas, Baek Kim, Thomas Gramberg P50 Activities of nuclear envelope protein SUN2 in HIV infection Xavier Lahaye, Anvita Bhargava, Takeshi Satoh, Matteo Gentili, Silvia Cerboni, Aymeric Silvin, Cécile Conrad, Hakim Ahmed-Belkacem, Elisa C. Rodriguez, Jean-François Guichou, Nathalie Bosquet, Matthieu Piel, Roger Le Grand, Megan King, Jean-Michel Pawlotsky, Nicolas Manel P51 Activation of TLR7/8 with a small molecule agonist induces a novel restriction to HIV-1 infection of monocytes Henning Hofmann, Benedicte Vanwalscappel, Nicolin Bloch, Nathaniel Landau P52 Steady state between the DNA polymerase and Rnase H domain activities of reverse transcriptases determines the sensitivity of retroviruses to inhibition by APOBEC3 proteins Stanislav Indik, Benedikt Hagen P53 HIV restriction in mature dendritic cells is related to p21 induction and p21-mediated control of the dNTP pool and SAMHD1 activity. José Carlos Valle-Casuso, Awatef Allouch, Annie David, Françoise Barré-Sinoussi, Michaela Müller-Trutwin, Monsef Benkirane, Gianfranco Pancino, Asier Saez-Cirion P54 IFITM protens restrict HIV-1 protein synthesis Wing-Yiu Lee, Chen Liang, Richard Sloan P55 Characterisation and functional analysis of the novel restriction factor Serinc5 Bianca Schulte, Silvana Opp, Felipe Diaz-Griffero P56 piRNA sequences are common in Human Endogenous Retroviral Sequences (HERVs): An antiretroviral restriction mechanism? Jonas Blomberg, Luana Vargiu, Patricia Rodriguez-Tomé, Enzo Tramontano, Göran Sperber P57 Ferroportin restricts HIV-1 infection in sickle cell disease Namita Kumari, Tatiana Ammosova, Sharmeen Diaz, Patricia Oneal, Sergei Nekhai P58 APOBEC3G modulates the response to antiretroviral drugs in humanized mice Audrey Fahrny, Gustavo Gers-Huber, Annette Audigé, Roberto F. Speck, Anitha Jayaprakash, Ravi Sachidanandam, Matt Hernandez, Marsha Dillon-White, Viviana Simon P59 High-throughput epigenetic analysis of evolutionarily young endogenous retrovirus presents in the mule deer (Odocoileus hemionus) genome Tomas Hron, Helena Farkasova, Daniel Elleder P60 Characterisation of the expression of novel endogenous retroviruses and immune interactions in a macaque model Neil Berry, Emmanuel Maze, Claire Ham, Neil Almond, Greg Towers, Robert Belshaw P61 HIV-1 restriction by orthologs of SERINC3 and SERINC5 Patrícia de Sousa-Pereira, Joana Abrantes, Massimo Pizzato, Pedro J. Esteves, Oliver T. Fackler, Oliver T. Keppler, Hanna-Mari Baldauf P62 TRIM19/PML restricts HIV infection in a cell type-dependent manner Bianca Volkmann, Tanja Kahle, Kristin Eissmann, Alexandra Herrmann, Sven Schmitt, Sabine Wittmann, Laura Merkel, Nina Reuter, Thomas Stamminger, Thomas Gramberg P63 Recent invasion of the mule deer genome by a retrovirus Helena Farkasova, Tomas Hron, Daniel Elleder P64 Does the antiviral protein SAMHD1 influence mitochondrial function? Ilaria Dalla Rosa, Kate Bishop, Antonella Spinazzola, Harriet Groom P65 cGAMP transfers intercellularly via HIV-1 Env-mediated cell–cell fusion sites and triggers an innate immune response in primary target cells Shuting Xu, Aurélie Ducroux, Aparna Ponnurangam, Sergej Franz, Gabrielle Vieyres, Mathias Müsken, Thomas Zillinger, Angelina Malassa, Ellen Ewald, Veit Hornung, Winfried Barchet, Susanne Häussler, Thomas Pietschmann, Christine Goffinet P66 Pre-infection transcript levels of FAM26F in PBMCS inform about overall plasma viral load in acute and postacute phase after SIV-infection Ulrike Sauermann, Aneela Javed, Nicole Leuchte, Gabriela Salinas, Lennart Opitz, Christiane Stahl-Hennig, Sieghart Sopper P67 Sequence-function analysis of three T cell receptors targeting the HIV-1 p17 epitope SLYNTVATL Christiane Mummert, Christian Hofmann, Angela G. Hückelhoven, Silke Bergmann, Sandra M. Müller-Schmucker, Ellen G. Harrer, Jan Dörrie, Niels Schaft, Thomas Harrer P68 An immunodominant region of the envelope glycoprotein of small ruminant lentiviruses may function as decoy antigen Laure Cardinaux, M.-L. Zahno, H.-R. Vogt, R. Zanoni, G. Bertoni P69 Impact of immune activation, immune exhaustion, broadly neutralising antibodies and viral reservoirs on disease progression in HIV-infected children Maximilian Muenchhoff, Philip Goulder, Oliver Keppler Topic 9: Novel antiviral strategies P70 Identification of natural compounds as new antiviral products by bioassay-guided fractionation Alexandra Herrmann, Stephanie Rebensburg, Markus Helfer, Michael Schindler, Ruth Brack-Werner P71 The PPARG antagonism disconnects the HIV replication and effector functions in Th17 cells Yuwei Zhang, Huicheng Chen, Delphine Planas, Annie Bernier, Annie Gosselin, Jean-Pierre Routy, Petronela Ancuta P72 Characterisation of a multiresistant subtype AG reverse transcriptase: AZT resistance, sensitivity to RNase H inhibitors and inhibitor binding Birgitta Wöhrl, Anna Schneider, Angela Corona, Imke Spöring, Mareike Jordan, Bernd Buchholz, Elias Maccioni, Roberto Di Santo, Jochen Bodem, Enzo Tramontano, Kristian Schweimer P73 Insigths into the acetylation pattern of HDAC inhibitors and their potential role in HIV therapy Christian Schölz, Brian Weinert, Sebastian Wagner, Petra Beli, Yasuyuki Miyake, Jun Qi, Lars Jensen, Werner Streicher, Anna McCarthy, Nicholas Westwood, Sonia Lain, Jürgen Cox, Patrick Matthias, Matthias Mann, James Bradner, Chunaram Choudhary P74 HPV-derived and seminal amyloid peptides enhance HIV-1 infection and impair the efficacy of broadly neutralising antibodies and antiretroviral drugs Marcel Stern, Oliver T. Keppler P75 D(−)lentiginosine inhibits both proliferation and virus expression in cells infected by HTLV-1 in vitro Elena Valletta, Caterina Frezza, Claudia Matteucci, Francesca Marino-Merlo, Sandro Grelli, Anna Lucia Serafino, Antonio Mastino, Beatrice Macchi P76 HIV-1 resistance analyses of the Cape Winelands districts, South Africa Sello Mikasi, Graeme Jacobs, Susan Engelbrecht Topic 10: Recent advances in HIV vaccine development P77 Induction of complex retrovirus antigen-specific immune responses by adenovirus-based vectors depends on the order of vector administration Meike Kaulfuß, Sonja Windmann, Wibke Bayer P78 Direct impact of structural properties of HIV-1 Env on the regulation of the humoral immune response Rebecca Heß, Michael Storcksdieck gen. Bonsmann, Viktoria Stab, Carsten Kirschning, Bernd Lepenies, Matthias Tenbusch, Klaus Überla P79 Lentiviral virus-like particles mediate gerenration of T-follicular helper cells in vitro Anne Kolenbrander, Klaus Überla, Vladimir Temchura P80 Recruitment of HIV-1 Vpr to DNA damage sites and protection of proviral DNA from nuclease activity Kenta Iijima, Junya Kobayashi, Yukihito Ishizaka
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- 2016
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39. Human Thymic CD10 + PD-1 + Intraepithelial Lymphocyte Precursors Acquire Interleukin-15 Responsiveness at the CD1a – CD95 + CD28 – CCR7 – Developmental Stage.
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Billiet, Lore, Goetgeluk, Glenn, Bonte, Sarah, De Munter, Stijn, De Cock, Laurenz, Pille, Melissa, Ingels, Joline, Jansen, Hanne, Weening, Karin, Van Nieuwerburgh, Filip, Kerre, Tessa, Taghon, Tom, Leclercq, Georges, and Vandekerckhove, Bart
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PROGRAMMED cell death 1 receptors ,INTERLEUKIN-15 ,LYMPHOCYTES ,T cells ,CELL analysis - Abstract
Human thymic CD8αα
+ CD10+ PD-1+ αβ T cells selected through early agonist selection have been proposed as the putative thymic precursors of the human CD8αα+ intestinal intraepithelial lymphocytes (IELs). However, the progeny of these thymic precursor cells in human blood or tissues has not yet been characterized. Here, we studied the phenotypical and transcriptional differentiation of the thymic IEL precursor (IELp) lineage upon in vitro exposure to cytokines prominent in the peripheral tissues such as interleukin-15 (IL-15) and the inflammatory cytokines interleukin-12 (IL-12) and interleukin-18 (IL-18). We showed that only the CD1a− fraction of the CD10+ PD-1+ IELp population was able to proliferate with IL-15, suggesting that this subset had acquired functionality. These cells downregulated PD-1 expression and completely lost CD10 expression, whereas other surface markers such as CD95 and CXCR3 remained highly expressed. RNA-seq analysis of the IL-15-cultured cells clearly showed induction of innate-like and effector genes. Induction of the cytotoxic machinery by the CD10+ PD-1+ population was acquired in the presence of IL-15 and was further augmented by inflammatory cytokines. Our data suggest that only the CD1a− CD10+ PD-1+ population exits the thymus and survives in the periphery. Furthermore, PD-1 and CD10 expression is not an intrinsic property of this lineage, but rather characterizes a transient stage in differentiation. CD95 and CXCR3 expression combined with the absence of CD28, CCR7, and CD6 expression might be more powerful markers to define this lineage in the periphery. [ABSTRACT FROM AUTHOR]- Published
- 2020
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40. In vitroOP9-DL1 co-culture and subsequent maturation in the presence of IL-21 generates tumor antigen-specific T cells with a favorable less-differentiated phenotype and enhanced functionality
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Bonte, Sarah, de Munter, Stijn, Billiet, Lore, Goetgeluk, Glenn, Ingels, Joline, Jansen, Hanne, Pille, Melissa, de Cock, Laurenz, Weening, Karin, Taghon, Tom, Leclercq, Georges, Vandekerckhove, Bart, and Kerre, Tessa
- Abstract
ABSTRACTT cell receptor (TCR)-redirected T cells target intracellular antigens such as Wilms’ tumor 1 (WT1), a tumor-associated antigen overexpressed in several malignancies, including acute myeloid leukemia (AML). For both chimeric antigen receptor (CAR)- and TCR-redirected T cells, several clinical studies indicate that T cell subsets with a less-differentiated phenotype (e.g. stem cell memory T cells, TSCM) survive longer and mediate superior anti-tumor effects in vivoas opposed to more terminally differentiated T cells. Cytokines added during in vitroand ex vivoculture of T cells play an important role in driving the phenotype of T cells for adoptive transfer. Using the OP9-DL1 co-culture system, we have shown previously that we are able to generate in vitro, starting from clinically relevant stem cell sources, T cells with a single tumor antigen (TA)-specific TCR. This method circumvents possible TCR chain mispairing and unwanted toxicities that might occur when introducing a TA-specific TCR in peripheral blood lymphocytes. We now show that we are able to optimize our in vitroculture protocol, by adding IL-21 during maturation, resulting in generation of TA-specific T cells with a less-differentiated phenotype and enhanced in vitroanti-tumor effects. We believe the favorable TSCM-like phenotype of these in vitrogenerated T cells preludes superior in vivopersistence and anti-tumor efficacy. Therefore, these TA-specific T cells could be of use as a valuable new form of patient-tailored T cell immunotherapy for malignancies for which finding a suitable CAR-T target antigen is challenging, such as AML.
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- 2021
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41. The human fetal thymus generates invariant effector γδ T cells
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Tieppo, Paola, Papadopoulou, Maria, Gatti, Deborah, McGovern, Naomi, Chan, Jerry K.Y., Gosselin, Françoise, Goetgeluk, Glenn, Weening, Karin, Ma, Ling, Dauby, Nicolas, Cogan, Alexandra, Donner, Catherine, Ginhoux, Florent, Vandekerckhove, Bart, and Vermijlen, David
- Abstract
In the mouse thymus, invariant γδ T cells are generated at well-defined times during development and acquire effector functions before exiting the thymus. However, whether such thymic programming and age-dependent generation of invariant γδ T cells occur in humans is not known. Here we found that, unlike postnatal γδ thymocytes, human fetal γδ thymocytes were functionally programmed (e.g., IFNγ, granzymes) and expressed low levels of terminal deoxynucleotidyl transferase (TdT). This low level of TdT resulted in a low number of N nucleotide insertions in the complementarity-determining region-3 (CDR3) of their TCR repertoire, allowing the usage of short homology repeats within the germline-encoded VDJ segments to generate invariant/public cytomegalovirus-reactive CDR3 sequences (TRGV8-TRJP1-CATWDTTGWFKIF, TRDV2-TRDD3-CACDTGGY, and TRDV1-TRDD3-CALGELGD). Furthermore, both the generation of invariant TCRs and the intrathymic acquisition of effector functions were due to an intrinsic property of fetal hematopoietic stem and precursor cells (HSPCs) caused by high expression of the RNA-binding protein Lin28b. In conclusion, our data indicate that the human fetal thymus generates, in an HSPC/Lin28b-dependent manner, invariant γδ T cells with programmed effector functions.
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- 2020
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42. A novel neutralizing human monoclonal antibody broadly abrogates hepatitis C virus infection in vitro and in vivo
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Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, Meuleman, Philip, Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, and Meuleman, Philip
- Abstract
Infections with hepatitis C virus (HCV) represent a worldwide health burden and a prophylactic vaccine is still not available. Liver transplantation (LT) is often the only option for patients with HCV-induced end-stage liver disease. However, immediately after transplantation, the liver graft becomes infected by circulating virus, resulting in accelerated progression of liver disease. Although the effi cacy of HCV treatment using direct-acting antivirals has improved significantly, immune compromised LT-patients and patients with advanced liver disease remain difficult to treat. As an alternative approach, interfering with viral entry could prevent infection of the donor liver. We generated a human monoclonal antibody (mAb), designated 2A5, which targets the HCV envelope. The neutralizing activity of mAb 2A5 was assessed using multiple prototype and patient-derived HCV pseudoparticles (HCVpp), cell culture produced HCV (HCVcc), and a human-liver chimeric mouse model. Neutralization levels observed for mAb 2A5 were generally high and mostly superior to those obtained with AP33, a well-characterized HCV-neutralizing monoclonal antibody. Using humanized mice, complete protection was observed after genotype 1a and 4a HCV challenge, while only partial protection was achieved using gt1b and 6a isolates. Epitope mapping revealed that mAb 2A5 binding is conformation-dependent and identified the E2-region spanning amino acids 434 to 446 (epitope II) as the predominant contact domain. Conclusion : mAb 2A5 shows potent anti-HCV neutralizing activity both in vitro and in vivo and could hence represent a valuable candidate to prevent HCV recurrence in LT-patients. In addition, the detailed identification of the neutralizing epitope can be applied for the design of prophylactic HCV vaccines.
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43. A novel neutralizing human monoclonal antibody broadly abrogates hepatitis C virus infection in vitro and in vivo
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Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, Meuleman, Philip, Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, and Meuleman, Philip
- Abstract
Infections with hepatitis C virus (HCV) represent a worldwide health burden and a prophylactic vaccine is still not available. Liver transplantation (LT) is often the only option for patients with HCV-induced end-stage liver disease. However, immediately after transplantation, the liver graft becomes infected by circulating virus, resulting in accelerated progression of liver disease. Although the effi cacy of HCV treatment using direct-acting antivirals has improved significantly, immune compromised LT-patients and patients with advanced liver disease remain difficult to treat. As an alternative approach, interfering with viral entry could prevent infection of the donor liver. We generated a human monoclonal antibody (mAb), designated 2A5, which targets the HCV envelope. The neutralizing activity of mAb 2A5 was assessed using multiple prototype and patient-derived HCV pseudoparticles (HCVpp), cell culture produced HCV (HCVcc), and a human-liver chimeric mouse model. Neutralization levels observed for mAb 2A5 were generally high and mostly superior to those obtained with AP33, a well-characterized HCV-neutralizing monoclonal antibody. Using humanized mice, complete protection was observed after genotype 1a and 4a HCV challenge, while only partial protection was achieved using gt1b and 6a isolates. Epitope mapping revealed that mAb 2A5 binding is conformation-dependent and identified the E2-region spanning amino acids 434 to 446 (epitope II) as the predominant contact domain. Conclusion : mAb 2A5 shows potent anti-HCV neutralizing activity both in vitro and in vivo and could hence represent a valuable candidate to prevent HCV recurrence in LT-patients. In addition, the detailed identification of the neutralizing epitope can be applied for the design of prophylactic HCV vaccines.
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44. A novel neutralizing human monoclonal antibody broadly abrogates hepatitis C virus infection in vitro and in vivo
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Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, Meuleman, Philip, Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, and Meuleman, Philip
- Abstract
Infections with hepatitis C virus (HCV) represent a worldwide health burden and a prophylactic vaccine is still not available. Liver transplantation (LT) is often the only option for patients with HCV-induced end-stage liver disease. However, immediately after transplantation, the liver graft becomes infected by circulating virus, resulting in accelerated progression of liver disease. Although the effi cacy of HCV treatment using direct-acting antivirals has improved significantly, immune compromised LT-patients and patients with advanced liver disease remain difficult to treat. As an alternative approach, interfering with viral entry could prevent infection of the donor liver. We generated a human monoclonal antibody (mAb), designated 2A5, which targets the HCV envelope. The neutralizing activity of mAb 2A5 was assessed using multiple prototype and patient-derived HCV pseudoparticles (HCVpp), cell culture produced HCV (HCVcc), and a human-liver chimeric mouse model. Neutralization levels observed for mAb 2A5 were generally high and mostly superior to those obtained with AP33, a well-characterized HCV-neutralizing monoclonal antibody. Using humanized mice, complete protection was observed after genotype 1a and 4a HCV challenge, while only partial protection was achieved using gt1b and 6a isolates. Epitope mapping revealed that mAb 2A5 binding is conformation-dependent and identified the E2-region spanning amino acids 434 to 446 (epitope II) as the predominant contact domain. Conclusion : mAb 2A5 shows potent anti-HCV neutralizing activity both in vitro and in vivo and could hence represent a valuable candidate to prevent HCV recurrence in LT-patients. In addition, the detailed identification of the neutralizing epitope can be applied for the design of prophylactic HCV vaccines.
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45. A novel neutralizing human monoclonal antibody broadly abrogates hepatitis C virus infection in vitro and in vivo
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Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, Meuleman, Philip, Desombere, Isabelle, Mesalam, Ahmed Atef, Urbanowicz, Richard A., Van Houtte, Freya, Verhoye, Lieven, Keck, Zhen-Yong, Farhoudi, Ali, Vercauteren, Koen, Weening, Karin E., Baumert, Thomas F., Patel, Arvind H., Foung, Steven K.H., Ball, Jonathan, Leroux-Roels, Geert, and Meuleman, Philip
- Abstract
Infections with hepatitis C virus (HCV) represent a worldwide health burden and a prophylactic vaccine is still not available. Liver transplantation (LT) is often the only option for patients with HCV-induced end-stage liver disease. However, immediately after transplantation, the liver graft becomes infected by circulating virus, resulting in accelerated progression of liver disease. Although the effi cacy of HCV treatment using direct-acting antivirals has improved significantly, immune compromised LT-patients and patients with advanced liver disease remain difficult to treat. As an alternative approach, interfering with viral entry could prevent infection of the donor liver. We generated a human monoclonal antibody (mAb), designated 2A5, which targets the HCV envelope. The neutralizing activity of mAb 2A5 was assessed using multiple prototype and patient-derived HCV pseudoparticles (HCVpp), cell culture produced HCV (HCVcc), and a human-liver chimeric mouse model. Neutralization levels observed for mAb 2A5 were generally high and mostly superior to those obtained with AP33, a well-characterized HCV-neutralizing monoclonal antibody. Using humanized mice, complete protection was observed after genotype 1a and 4a HCV challenge, while only partial protection was achieved using gt1b and 6a isolates. Epitope mapping revealed that mAb 2A5 binding is conformation-dependent and identified the E2-region spanning amino acids 434 to 446 (epitope II) as the predominant contact domain. Conclusion : mAb 2A5 shows potent anti-HCV neutralizing activity both in vitro and in vivo and could hence represent a valuable candidate to prevent HCV recurrence in LT-patients. In addition, the detailed identification of the neutralizing epitope can be applied for the design of prophylactic HCV vaccines.
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46. TARP is an immunotherapeutic target in acute myeloid leukemia expressed in the leukemic stem cell compartment.
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Depreter B, Weening KE, Vandepoele K, Essand M, De Moerloose B, Themeli M, Cloos J, Hanekamp D, Moors I, D'hont I, Denys B, Uyttebroeck A, Van Damme A, Dedeken L, Snauwaert S, Goetgeluk G, De Munter S, Kerre T, Vandekerckhove B, Lammens T, and Philippé J
- Subjects
- Adult, Child, Humans, Immunotherapy, Male, Nuclear Proteins, Receptors, Antigen, T-Cell, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute therapy
- Abstract
Immunotherapeutic strategies targeting the rare leukemic stem cell compartment might provide salvage to the high relapse rates currently observed in acute myeloid leukemia (AML). We applied gene expression profiling for comparison of leukemic blasts and leukemic stem cells with their normal counterparts. Here, we show that the T-cell receptor γ chain alternate reading frame protein (TARP) is over-expressed in de novo pediatric (n=13) and adult (n=17) AML sorted leukemic stem cells and blasts compared to hematopoietic stem cells and normal myeloblasts (15 healthy controls). Moreover, TARP expression was significantly associated with a fms-like tyrosine kinase receptor-3 internal tandem duplication in pediatric AML. TARP overexpression was confirmed in AML cell lines (n=9), and was found to be absent in B-cell acute lymphocytic leukemia (n=5) and chronic myeloid leukemia (n=1). Sequencing revealed that both a classical TARP transcript, as described in breast and prostate adenocarcinoma, and an AML-specific alternative TARP transcript, were present. Protein expression levels mostly matched transcript levels. TARP was shown to reside in the cytoplasmic compartment and showed sporadic endoplasmic reticulum co-localization. TARP-T-cell receptor engineered cytotoxic T-cells in vitro killed AML cell lines and patient leukemic cells co-expressing TARP and HLA-A*0201. In conclusion, TARP qualifies as a relevant target for immunotherapeutic T-cell therapy in AML., (Copyright© 2020 Ferrata Storti Foundation.)
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- 2020
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47. Pharmacological profiling of the Dictyostelium adenylate cyclases ACA, ACB and ACG.
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Alvarez-Curto E, Weening KE, and Schaap P
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- 3',5'-Cyclic-AMP Phosphodiesterases metabolism, Adenylyl Cyclase Inhibitors, Adenylyl Cyclases metabolism, Animals, Caffeine pharmacology, Cell Line, Dictyostelium genetics, Kinetics, Protozoan Proteins antagonists & inhibitors, Protozoan Proteins metabolism, Adenylyl Cyclases genetics, Dictyostelium enzymology, Gene Expression Profiling, Protozoan Proteins genetics
- Abstract
Intracellular and secreted cAMPs play crucial roles in controlling cell movement and gene regulation throughout development of the social amoeba Dictyostelium discoideum. cAMP is produced by three structurally distinct ACs (adenylate cyclases), ACA, ACG and ACB, which have distinctive but overlapping patterns of expression and, as concluded from gene disruption studies, seemingly overlapping functions. In addition to gene disruption, acute pharmacological abrogation of protein activity can be a powerful tool to identify the protein's role in the biology of the organism. We analysed the effects of a range of compounds on the activity of ACA, ACB and ACG to identify enzyme-specific modulators. Caffeine, which was previously used to specifically block ACA function, also inhibited cAMP accumulation by ACB and ACG. IPA (2',3'-O-isopropylidene adenosine) specifically inhibits ACA when measured in intact cells, without affecting ACB or ACG. All three enzymes are inhibited by the P-site inhibitor DDA (2',5'-dideoxyadenosine) when assayed in cell lysates, but not in intact cells. Tyrphostin A25 [alpha-cyano-(3,4,5-trihydroxy)cinnamonitrile] and SQ22536 [9-(tetrahydro-2'-furyl)adenine] proved to be effective and specific inhibitors for ACG and ACA respectively. Both compounds acted directly on enzyme activity assayed in cell lysates, but only SQ22536 was also a specific inhibitor when added to intact cells.
- Published
- 2007
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