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2. B-cell signaling in persistent polyclonal B lymphocytosis (PPBL).

Author

Voelxen, Nadine, Wehr, Claudia, Gutenberger, Sylvia, Keller, Baerbel, Erlacher, Miriam, Dominguez‐Conde, Cecilia, Bertele, Daniela, Emmerich, Florian, Pantic, Milena, Jennings, Stefanie, Rakhmanov, Mirzokhid, Foerster, Christian, Martens, Uwe M, Platzbecker, Uwe, Peter, Hans‐Hartmut, Fisch, Paul, Boztug, Kaan, Eibel, Hermann, Salzer, Ulrich, and Warnatz, Klaus

Abstract

Persistent polyclonal B lymphocytosis (PPBL) is a benign hematological disorder characterized by a selective expansion of circulating polyclonal marginal zone (MZ)‐like B cells. Previous reports demonstrated that cases of PPBL showed poor activation, proliferation and survival of B cells in vitro, yet the underlying defect remains unknown. Here we report for the first time an attenuated activation of the canonical NF‐κB (nuclear factor of kappa light polypeptide gene enhancer in B cells) and mitogen‐activated protein kinase/extracellular signal‐regulated kinase pathway after CD40 stimulation. This defect was selective, as alternative NF‐κB signaling after CD40 stimulation and both B‐cell receptor‐ and Toll‐like receptor 9‐mediated activation remained unaffected. Reduced canonical NF‐κB activation resulted in decreased IκBα and CD40 expression in resting cells. In PPBL patients, expression of Bcl‐xL in MZ‐like B cells did not increase upon activation, consistent with the high apoptosis rates of PPBL‐derived B cells that were observed in vitro. The B‐cell phenotype of mice with selective knockouts of early components of the CD40 signaling pathway resembles PPBL, but sequencing corresponding genes in sorted MZ‐like B cells of PPBL patients did not reveal relevant genetic alterations. Nevertheless, the frequently observed mutations in early signaling components of the NF‐κB pathway in MZ lymphomas underline the relevance of our findings for the pathogenesis of PPBL. [ABSTRACT FROM AUTHOR]

Published
2016
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4. Preclinical Evaluation of 4-Methylthiobutyl Isothiocyanate on Liver Cancer and Cancer Stem Cells with Different p53 Status.

Author

Lamy, Evelyn, Hertrampf, Anke, Herz, Corinna, Schüler, Julia, Erlacher, Miriam, Bertele, Daniela, Bakare, Adekunle, Wagner, Meike, Weiland, Timo, Lauer, Ulrich, Drognitz, Oliver, Huber, Roman, Rohn, Sascha, Giesemann, Torsten, and Mersch-Sundermann, Volker

Subjects
BUTYL group, ISOTHIOCYANATES, LIVER cancer, CANCER stem cells, CANCER chemotherapy, CELL death
Abstract

Isothiocyanates from plants of the order Brassicales are considered promising cancer chemotherapeutic phytochemicals. However, their selective cytotoxicity on liver cancer has been barely researched. Therefore, in the present study, we systematically studied the chemotherapeutic potency of 4-methylthiobutyl isothiocyanate (MTBITC). Selective toxicity was investigated by comparing its effect on liver cancer cells and their chemoresistant subpopulations to normal primary hepatocytes and liver tissue slices. Additionally, in a first assessment, the in vivo tolerability of MTBITC was investigated in mice. Growth arrest at G2/M and apoptosis induction was evident in all in vitro cancer models treated with MTBITC, including populations with cancer initiating characteristics. This was found independent from TP53; however cell death was delayed in p53 compromised cells as compared to wt-p53 cells which was probably due to differential BH3 only gene regulation i. e. Noxa and its antagonist A1. In normal hepatocytes, no apoptosis or necrosis could be detected after repeated administration of up to 50 µM MTBITC. In mice, orally applied MTBITC was well tolerated over 18 days of treatment for up to 50 mg/kg/day, the highest dose tested. In conclusion, we could show here that the killing effect of MTBITC has a definite selectivity for cancer cells over normal liver cells and its cytotoxicity even applies for chemoresistant cancer initiating cells. Our study could serve for a better understanding of the chemotherapeutic properties of isothiocyanates on human liver-derived cancer cells. [ABSTRACT FROM AUTHOR]

Published
2013
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6. Transient apoptosis inhibition in donor stem cells improves hematopoietic stem cell transplantation.

Author

Kollek M, Voigt G, Molnar C, Murad F, Bertele D, Krombholz CF, Bohler S, Labi V, Schiller S, Kunze M, Geley S, Niemeyer CM, Garcia-Saez A, and Erlacher M

Subjects
Animals, Caspases drug effects, Caspases metabolism, Chimerism, Humans, Leukemia etiology, Mice, Mice, Inbred C57BL, Transduction, Genetic, bcl-X Protein physiology, Apoptosis physiology, Hematopoietic Stem Cell Transplantation methods
Abstract

During hematopoietic stem cell transplantation, a substantial number of donor cells are lost because of apoptotic cell death. Transplantation-associated apoptosis is mediated mainly by the proapoptotic BCL-2 family proteins BIM and BMF, and their proapoptotic function is conserved between mouse and human stem and progenitor cells. Permanent inhibition of apoptosis in donor cells caused by the loss of these BH3-only proteins improves transplantation outcome, but recipients might be exposed to increased risk of lymphomagenesis or autoimmunity. Here, we address whether transient inhibition of apoptosis can serve as a safe but efficient alternative to improve the outcome of stem cell transplantation. We show that transient apoptosis inhibition by short-term overexpression of prosurvival BCL-XL, known to block BIM and BMF, is not only sufficient to increase the viability of hematopoietic stem and progenitor cells during engraftment but also improves transplantation outcome without signs of adverse pathologies. Hence, this strategy represents a promising and novel therapeutic approach, particularly under conditions of limited donor stem cell availability., (© 2017 Kollek et al.)

Published
2017
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7. Long-term serial xenotransplantation of juvenile myelomonocytic leukemia recapitulates human disease in Rag2-/-γc-/- mice.

Author

Krombholz CF, Aumann K, Kollek M, Bertele D, Fluhr S, Kunze M, Niemeyer CM, Flotho C, and Erlacher M

Subjects
Animals, Biopsy, Disease Models, Animal, Graft Survival, Graft vs Host Disease etiology, Humans, Immunohistochemistry, Leukemia, Myelomonocytic, Juvenile mortality, Mice, Mice, Knockout, Neoplasm Invasiveness, Neoplastic Stem Cells metabolism, T-Lymphocytes immunology, T-Lymphocytes metabolism, Transplantation, Heterologous, DNA-Binding Proteins deficiency, Interleukin Receptor Common gamma Subunit deficiency, Leukemia, Myelomonocytic, Juvenile genetics, Leukemia, Myelomonocytic, Juvenile pathology, Neoplasm Transplantation adverse effects
Abstract

Juvenile myelomonocytic leukemia is a clonal malignant disease affecting young children. Current cure rates, even with allogeneic hematopoietic stem cell transplantation, are no better than 50%-60%. Pre-clinical research on juvenile myelomonocytic leukemia is urgently needed for the identification of novel therapies but is hampered by the unavailability of culture systems. Here we report a xenotransplantation model that allows long-term in vivo propagation of primary juvenile myelomonocytic leukemia cells. Persistent engraftment of leukemic cells was achieved by intrahepatic injection of 1×10(6) cells into newborn Rag2(-/-)γc(-/-) mice or intravenous injection of 5×10(6) cells into 5-week old mice. Key characteristics of juvenile myelomonocytic leukemia were reproduced, including cachexia and clonal expansion of myelomonocytic progenitor cells that infiltrated bone marrow, spleen, liver and, notably, lung. Xenografted leukemia cells led to reduced survival of recipient mice. The stem cell character of juvenile myelomonocytic leukemia was confirmed by successful serial transplantation that resulted in leukemia cell propagation for more than one year. Independence of exogenous cytokines, low donor cell number and slowly progressing leukemia are advantages of the model, which will serve as an important tool to research the pathophysiology of juvenile myelomonocytic leukemia and test novel pharmaceutical strategies such as DNA methyltransferase inhibition., (Copyright© Ferrata Storti Foundation.)

Published
2016
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8. Targeting aberrant PI3K/Akt activation by PI103 restores sensitivity to TRAIL-induced apoptosis in neuroblastoma.

Author

Opel D, Naumann I, Schneider M, Bertele D, Debatin KM, and Fulda S

Subjects
Animals, Brain Neoplasms pathology, Chick Embryo, Drug Synergism, Enzyme Activation genetics, Furans pharmacology, Humans, Mice, Molecular Targeted Therapy, Mutation physiology, Neuroblastoma pathology, Phosphatidylinositol 3-Kinases genetics, Phosphatidylinositol 3-Kinases metabolism, Phosphoinositide-3 Kinase Inhibitors, Protein Kinase Inhibitors administration & dosage, Protein Kinase Inhibitors pharmacology, Proto-Oncogene Proteins c-akt antagonists & inhibitors, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, Pyridines pharmacology, Pyrimidines pharmacology, TNF-Related Apoptosis-Inducing Ligand pharmacology, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Apoptosis drug effects, Brain Neoplasms drug therapy, Drug Resistance, Neoplasm drug effects, Furans administration & dosage, Neuroblastoma drug therapy, Pyridines administration & dosage, Pyrimidines administration & dosage, TNF-Related Apoptosis-Inducing Ligand administration & dosage
Abstract

Purpose: Because we recently identified Akt activation as a novel poor prognostic indicator in neuroblastoma, we investigated whether phosphoinositide 3'-kinase (PI3K) inhibition sensitizes neuroblastoma cells for TRAIL-induced apoptosis., Experimental Design: The effect of pharmacological or genetic inhibition of PI3K or mTOR was analyzed on apoptosis induction, clonogenic survival, and activation of apoptosis signaling pathways in vitro and in a neuroblastoma in vivo model. The functional relevance of individual Bcl-2 family proteins was examined by knockdown or overexpression experiments., Results: The PI3K inhibitor PI103 cooperates with TRAIL to synergistically induce apoptosis (combination index < 0.1), to suppress clonogenic survival, and to reduce tumor growth in a neuroblastoma in vivo model. Similarly, genetic silencing of PI3K significantly increases TRAIL-mediated apoptosis, whereas genetic or pharmacological blockage of mTOR fails to potentiate TRAIL-induced apoptosis. Combined treatment with PI103 and TRAIL enhances cleavage of Bid and the insertion of tBid into mitochondrial membranes, and reduces phosphorylation of Bim(EL). Additionally, PI103 decreases expression of Mcl-1, XIAP, and cFLIP, thereby promoting Bax/Bak activation, mitochondrial perturbations, and caspase-dependent apoptosis. Knockdown of Bid or Noxa or overexpression of Bcl-2 rescues cells from PI103- and TRAIL-induced apoptosis, whereas Mcl-1 silencing potentiates apoptosis. Bcl-2 overexpression also inhibits cleavage of caspase-3, caspase-8, and Bid pointing to a mitochondria-driven feedback amplification loop., Conclusions: PI103 primes neuroblastoma cells for TRAIL-induced apoptosis by shifting the balance toward proapoptotic Bcl-2 family members and increased mitochondrial apoptosis. Thus, PI3K inhibitors represent a novel promising approach to enhance the efficacy of TRAIL-based treatment protocols in neuroblastoma., (©2011 AACR.)

Published
2011
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