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375 results on '"Hanenberg H"'

1. Optimized NGFR-derived hinges for rapid and efficient enrichment and detection of CAR T cells in vitro and in vivo

Author

Bister, A., Ibach, T., Haist, C., Gerhorst, G., Smorra, D., Soldierer, M., Roellecke, K., Wagenmann, M., Scheckenbach, K., Gattermann, N., Wiek, C., and Hanenberg, H.

Subjects
Cancer Research, Oncology, Medizin, Molecular Medicine, Pharmacology (medical), human activities
Abstract

Chimeric antigen receptor (CAR) T cell therapy has demonstrated unprecedented success with high remission rates for heavily pretreated patients with hematological malignancies. The hinge connecting the extracellular antigen recognition unit to the transmembrane domain provides the length and flexibility of the CAR constructs and ensures that the CAR can reach the target antigen and mediate recognition and killing of target cells. The hinge can also include specific amino acid sequences to improve CAR expression, influence T cell proliferation, and facilitate CAR T cell detection, enrichment, and even elimination. Here, we report the generation of two novel hinge domains derived from the low-affinity p75 chain of the human nerve growth factor receptor (NGFR), termed N3 and N4, which, when incorporated into the CAR backbone, allow detection as well as high-grade enrichment of CAR T cells with GMP-compatible immunomagnetic reagents. After optimizing the MACS protocol for excellent CAR T cell purity and yield, we demonstrated that N3- and N4-hinged CAR T cells are as efficacious as their CD8-hinged counterparts in vitro against hematological blasts and also in vivo in the control of acute monocytic leukemia in an immunodeficient mouse xenograft model. Thus, both hinges could potentially be an integral part of future CAR designs and universally applicable in clinical applications. CA Hanenberg

Published
2022

26. Upregulation of NKG2D ligands impairs hematopoietic stem cell function in Fanconi anemia

Author

Casado, J.A., Valeri, A., Sanchez-Dominguez, R., Vela, P., Lopez, A., Navarro, S., Alberquilla, O., Hanenberg, H., Pujol, Roser, Segovia, J. C., Minguillon, J., Surrallés i Calonge, Jordi, De Heredia, C.D., Sevilla, J., Rio, P., Bueren, J.A., Universitat Autònoma de Barcelona, Institut Català de la Salut, [Casado JA, Valeri A, Sanchez-Domínguez R, Vela P, López A, Navarro S] Division of Innovative Therapies, CIEMAT and Advanced Therapies Unit, IIS-Fundación Jimenez Diaz and Autónoma University, Madrid, Spain. Biomedical Center for Research on Rare Diseases (CIBERER), Madrid, Spain. [Díaz de Heredia C] Servei d’Oncologia i Hematologia Pediàtriques, Vall d’Hebron Hospital Universitari, Barcelona, Spain, and Vall d'Hebron Barcelona Hospital Campus

Subjects
células::células de la médula ósea::células madre hematopoyéticas [ANATOMÍA], Cells::Bone Marrow Cells::Hematopoietic Stem Cells [ANATOMY], Cèl·lules mare hematopoètiques, Hemic and Lymphatic Diseases::Hematologic Diseases::Anemia::Anemia, Aplastic::Anemia, Hypoplastic, Congenital::Fanconi Anemia [DISEASES], Medizin, Genetic Phenomena::Gene Expression Regulation::Up-Regulation [PHENOMENA AND PROCESSES], Antigens, CD34, General Medicine, Hematopoietic Stem Cells, Ligands, Up-Regulation, Mice, fenómenos genéticos::regulación de la expresión génica::regulación positiva [FENÓMENOS Y PROCESOS], Fanconi Anemia, NK Cell Lectin-Like Receptor Subfamily K, Regulació genètica, Animals, Anèmia de Fanconi, enfermedades hematológicas y linfáticas::enfermedades hematológicas::anemia::anemia aplásica::anemia hipoplásica congénita::anemia de Fanconi [ENFERMEDADES]
Abstract

Cellular immune response; Immunology; Stem cells Respuesta inmune celular; Inmunología; Células madre Resposta immune cel·lular; Immunologia; Cèl·lules mare Fanconi anemia (FA) is the most prevalent inherited bone marrow failure (BMF) syndrome. Nevertheless, the pathophysiological mechanisms of BMF in FA have not been fully elucidated. Since FA cells are defective in DNA repair, we hypothesized that FA hematopoietic stem and progenitor cells (HSPCs) might express DNA damage–associated stress molecules such as natural killer group 2 member D ligands (NKG2D-Ls). These ligands could then interact with the activating NKG2D receptor expressed in cytotoxic NK or CD8+ T cells, which may result in progressive HSPC depletion. Our results indeed demonstrated upregulated levels of NKG2D-Ls in cultured FA fibroblasts and T cells, and these levels were further exacerbated by mitomycin C or formaldehyde. Notably, a high proportion of BM CD34+ HSPCs from patients with FA also expressed increased levels of NKG2D-Ls, which correlated inversely with the percentage of CD34+ cells in BM. Remarkably, the reduced clonogenic potential characteristic of FA HSPCs was improved by blocking NKG2D–NKG2D-L interactions. Moreover, the in vivo blockage of these interactions in a BMF FA mouse model ameliorated the anemia in these animals. Our study demonstrates the involvement of NKG2D–NKG2D-L interactions in FA HSPC functionality, suggesting an unexpected role of the immune system in the progressive BMF that is characteristic of FA. This work was supported by the “Ministerio de Ciencia e Innovación y Competitividad y Fondo Europeo de Desarrollo Regional (FEDER)” (SAF2015-68073-R, SAF2015-64152-R, and RTI2018-097125-B-I00); Next Generation EU; Plan de Recuperación Transformación y Resilencia (Instituto de Salud Carlos III; TERAV) (RD12/0019/0023); Programs of the European Commission (HEALTHF5-2012-305421 and EUROFANCOLEN); the “Ministerio de Sanidad, Servicios Sociales e Igualdad” (EC11/060 and EC11/550 “Comunidad de Madrid” (AvanCell, B2017/BMD-3692); and the ICREA-Academia program.

Published
2020

45. FANCB Varianten als prädisponierender Faktor für Kopf-Hals-Karzinome

Author

Scheckenbach, K, Glaas, M, Wiek, C, Wolter, L, Röllecke, K, Wagenmann, M, Schipper, J, Plettenberg, C, and Hanenberg, H

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Die Fanconi-Anämie (FA) ist eine erbliche Erkrankung, die mit der Entwicklung von Kopf-Hals-Karzinomen (HNSCC), einer erhöhten genomischen Instabilität bei defekter DNA-Reparatur und einer erhöhten Sensitivität für kreuzvernetzende Chemotherapeutika (KVC) einhergeht.[zum vollständigen Text gelangen Sie über die oben angegebene URL], 87. Jahresversammlung der Deutschen Gesellschaft für Hals-Nasen-Ohren-Heilkunde, Kopf- und Hals-Chirurgie

Published
2016
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47. Identification of amino acid determinants in CYP4B1 for optimal catalytic processing of 4-ipomeanol

Author

Wiek, C, Schmidt, EM, Roellecke, K, Freund, M, Nakano, M, Kelly, EJ, Kaisers, W, Yarov-Yarovoy, V, Kramm, CM, Rettie, AE, and Hanenberg, H

Subjects
Biochemistry & Molecular Biology, Proline, Terpenes, T-Lymphocytes, Hep G2 Cells, Biological Sciences, Protein Engineering, suicide gene system, Medical and Health Sciences, Transgenic, Structure-Activity Relationship, Suicide, 4-ipomeanol, HEK293 Cells, Genes, Enzyme Stability, Chemical Sciences, Biocatalysis, Animals, Humans, Rabbits, Aryl Hydrocarbon Hydroxylases, cytochrome P450 4B1
Abstract

© The Authors Journal compilation © 2015 Biochemical Society. Mammalian CYP4B1 enzymes are cytochrome P450 mono-oxygenases that are responsible for the bioactivation of several exogenous pro-toxins including 4-ipomeanol (4-IPO). In contrast with the orthologous rabbit enzyme, we show here that native human CYP4B1 with a serine residue at position 427 is unable to bioactivate 4-IPO and does not cause cytotoxicity in HepG2 cells and primary human T-cells that overexpress these enzymes. We also demonstrate that a proline residue in the meander region at position 427 in human CYP4B1 and 422 in rabbit CYP4B1 is important for protein stability and rescues the 4-IPO bioactivation of the human enzyme, but is not essential for the catalytic activity of the rabbit CYP4B1 protein. Systematic substitution of native and p.S427P human CYP4B1 with peptide regions from the highly active rabbit enzyme reveals that 18 amino acids in the wild-type rabbit CYP4B1 protein are key for conferring high 4-IPO metabolizing activity. Introduction of 12 of the 18 amino acids that are also present at corresponding positions in other human CYP4 family members into the p.S427P human CYP4B1 protein results in a mutant human enzyme (P + 12) that is as stable and as active as the rabbit wild-type CYP4B1 protein. These 12 mutations cluster in the predicted B-C loop through F-helix regions and reveal new amino acid regions important to P450 enzyme stability. Finally, by minimally re-engineering the human CYP4B1 enzyme for efficient activation of 4-IPO, we have developed a novel human suicide gene system that is a candidate for adoptive cellular therapies in humans.

Published
2015

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