Význam antiangiogenní terapie u lymfomu z plášťových buněk / The Role of Antiangiogenic Therapy in Mantle Cell Lymphoma

Kovaříková, Petra

January 2022

Mantle cell lymphoma (MCL) is a subtype of B-non-Hodgkin's lymphoma, characterized by often relapses. Despite an Ibrutinib (a Bruton's kinase inhibitor) implementation into salvage therapy, these patients often relapse with biologically highly aggressive disease and very poor prognosis. An increased activation of alternative metabolic pathways was described as one of ibrutinib-resistance mechanisms. Some of these pathways have also significant proangiogenic activity (e.g. PI3K-AKT-mTOR). In presented study, we established and standardized a real-time ultrasound and photoacoustic imaging of neovascularization and tissue oxygenation of subcutaneous MCL tumors in mice. Ultrasound and photoacoustic imaging is a fast, non-invasive method for angiogenesis evaluation in subcutaneous tumors with huge preclinical potential. Using MCL mice models, we also demonstrated the importance of CD31/PECAM-1 expression for engraftment, growth and spread of MCL cells in vivo. The level of CD31 expression in primary MCL cell (obtained directly from MCL patients) positively correlates with extent of extranodal involvement. CD31 facilitates survival and regulates extranodal spread of mantle cell lymphoma. We found that increased VEGFA expression causes not only increased microvessel density due to higher sprouting...

Přestavby genů pro imunoglobuliny a sledování minimální reziduální nemoci u B-lymfoproliferativních onemocnění. / Immunoglobulin genes rearrangement and minimal residual disease monitoring in B-lymphoproliferative disease.

Lokvenc, Milan

January 2012

Malignant lymphomas are tumors arising by clonal proliferation of lymphocytes stopped at a specific stage of differentiation. All tumor cells arising from the original clone thus share the same characteristics and that can be used in their detection. Finding a suitable molecular marker of tumor cells is an essential step not only to disease diagnosis, but also for monitoring of minimal residual disease. Minimal residual disease is defined as the subclinical disease level, which malignant cells are not detectable for conventional cytological methods during the therapy. These residual cells can cause relapse. The main goals of the diploma thesis are a detection and analysis of immunoglobulin genes rearrangement and chromosomal translocation t(11; 14) in the MTC region, and a development and optimization of RQ-PCR system for detection of minimal residual disease. Quantification of clonal rearrangement or chromosomal translocation allows the detection of minimal residual disease level in patients with malignant lymphomas. Clonal immunoglobulin genes rearrangement or characteristic chromosomal translocation were analyzed in 19 patients with malignant lymphomas. There were analyzed individual gene segments, N-region and combination variability in immunoglobulin genes rearrangement. There was developed...

Proteomika jako nástroj studia molekulárních mechanizmů závažných onemocnění / Proteomics as a tool for understanding molecular mechanisms of human diseases

Pospíšilová, Jana

January 2014

Proteomics is a set of analytical methods which enable qualitative and quantitative characterization of the proteome. Expression proteomics quantitatively compares proteomes of cells, tissues, body fluids or other biological materials to find differencies in protein expression and, based on these differencies, to describe the biological processes occuring in investigated organisms. An initial material for expression proteomic studies are complex mixtures containing thousands of proteins, which are analyzed using separation (electrophoretic and chromatographic) methods, and identified, possibly quantified using mass spectrometry. The aim of this Thesis is to demonstrate the application of the tools of expression proteomics in solving diverse challenges in biomedicine. We employed various proteomic approaches and tools for studying molecular mechanisms of human diseases using pacient biological samples, or a model organism and a cell culture. We were conducting three different research projects, namely: A quest for potencial molecular targets for selective elimination of TRAIL-resistant mantle cell lymphoma cells; Investigation of molecular mechanisms of heart failure using a rat model of the disease induced by volume overload; and Searching for diagnostically usable serum biomarkers of ovarian...

Treatment of a mantle cell lymphoma cell line with cannabinoids and cytostatics : - effects on DNA synthesis and ceramide metabolism

Chabo, Ablahad

January 2009

Mantle cell lymphoma (MCL) is an aggressive B-cell malignancy with bad prognosis, which predominates in males with advanced age. However, studies of the endocannabinoid system and how it affects tumour behaviour provides the basis for designing innovative therapeutic strategies that could open new opportunities for treatment of patient with MCL. It has earlier been shown that the cannabinoid receptor ligand (R)-(+)-methanandamide (R-MA) induce cell death in MCL by accumulation of ceramide. Ceramide has a pro-apoptotic effect on the cell but could be metabolized by the enzymes glucosylceramide synthase (GCS) and sphingosine kinase 1 (SphK1) to molecules with pro-proliferative effect. Therefore, treatments with R-MA on Jeko-1 MCL cell line were performed in this study to determine interference in the proliferative behaviour as well as in the gene expression of the enzymes GCS and SphK1. In addition, treatments with chemotherapeutic substances, such as doxorubicin or cytarabine (Ara-C), and combinations of R-MA and chemotherapeutic substance, were performed for the same reason. Results showed that the proliferation behaviour of Jeko cells remained unaffected when treated with R-MA, in contrast to the decreased proliferative effects shown when treated with cytostatics or combinations of R-MA and cytostatics. Furthermore, a tendency for up-regulation of GCS and SphK1 expression was recognized when cells were treated with cytostatics or combination of cytostatics and R-MA, in contrast to cells treated with R-MA alone. Although, R-MA alone had a tendency for a small down-regulation of GCS expression, it contributed to a potential elevation of GCS expression when combined with Ara-C or doxorubicin. It is believed that the effect from upregulated levels of the metabolizing enzymes GCS and SphK1 is balanced by, earlier observed, up-regulations of the ceramide synthesis enzymes.

cancer

mantle cell lymphoma

cannabinoids

cytostatics

ceramide

Medical and Health Sciences

Medicin och hälsovetenskap

Pharmacology and Toxicology

Farmakologi och toxikologi

Cell and Molecular Biology

Cell- och molekylärbiologi

Industrial Biotechnology

Industriell bioteknik

Other Clinical Medicine

Annan klinisk medicin

Proteomika jako nástroj studia molekulárních mechanizmů závažných onemocnění / Proteomics as a tool for understanding molecular mechanisms of human diseases

Pospíšilová, Jana

January 2014

Proteomics is a set of analytical methods which enable qualitative and quantitative characterization of the proteome. Expression proteomics quantitatively compares proteomes of cells, tissues, body fluids or other biological materials to find differencies in protein expression and, based on these differencies, to describe the biological processes occuring in investigated organisms. An initial material for expression proteomic studies are complex mixtures containing thousands of proteins, which are analyzed using separation (electrophoretic and chromatographic) methods, and identified, possibly quantified using mass spectrometry. The aim of this Thesis is to demonstrate the application of the tools of expression proteomics in solving diverse challenges in biomedicine. We employed various proteomic approaches and tools for studying molecular mechanisms of human diseases using pacient biological samples, or a model organism and a cell culture. We were conducting three different research projects, namely: A quest for potencial molecular targets for selective elimination of TRAIL-resistant mantle cell lymphoma cells; Investigation of molecular mechanisms of heart failure using a rat model of the disease induced by volume overload; and Searching for diagnostically usable serum biomarkers of ovarian...

Improving NK and T Cell Immunotherapies for Hematologic Malignancies

Wong, Derek Perseus

26 May 2023

No description available.

Biology

Biomedical Research

Immunology

Medicine

Molecular Biology

Oncology

immunotherapy

CAR-T cell therapy

BAFF

hematologic malignancies

B cell cancers

mantle cell lymphoma

non-Hodgkin lymphoma

multiple myeloma

acute lymphoblastic leukemia

NK cells

Cdk5

p35

cytotoxicity

TGF-beta

immunosuppression

Physiopathologie du lymphome à cellules du manteau : de la mécanistique aux modèles précliniques / Physiopathology of mantle cell lymphoma from mechanistic to preclinical models

Body, Simon

29 November 2017

Le lymphome à cellules du manteau (LCM) est une hémopathie maligne B mature, appartenant à la famille des lymphomes non hodgkiniens. Le LCM est caractérisé par la translocation t(11;14)(q13;q32) qui provoque une expression aberrante de cycline D1. C’est une pathologie rare mais à haut risque de rechute, et qui reste le plus souvent incurable suite à l’apparition de clones chimiorésistants. L’acquisition de résistance est intimement liée aux interactions entre les cellules tumorales et leur microenvironnement. Afin de mimer de la manière la plus pertinente possible ces interactions, nous avons mis en place un modèle murin de xénogreffe en utilisant les lignées cellulaires de LCM JeKo1, REC1, Z138 et Granta-519 que nous avons modifiées afin qu’elles expriment un fluorophore (GFP ou m-cherry) et/ou le gène codant pour la luciférase. Après injection aux souris du substrat de la luciférase, la luciférine, nous sommes en mesure de suivre au cours du temps la progression tumorale. Nous pouvons également évaluer le degré d’infiltration tumorale dans la moelle osseuse, la rate, le cerveau et le sang après euthanasie des animaux, par des techniques de cytométrie en flux et d’immunocytochimie. Ce modèle nous a permis de montrer l’intérêt thérapeutique d’un inhibiteur de l’exportine 1 (XPO1) : le KPT 330 (ou selinexor) qui est capable de contenir cycline D1 uniquement au niveau nucléaire. Nous avons montré que la localisation subcellulaire de cycline D1, est retrouvée majoritairement cytoplasmique dans certaines lignées cellulaires de LCM (2/7) et chez un certain nombre de patients (6/42, 14%), et est associée à un fort potentiel d’invasion, de migration et à un phénotype agressif. Par ailleurs, grâce à ce modèle, nous avons pu objectiver le manque d’efficacité in vivo d’agonistes aux récepteurs aux œstrogènes de type β (ER β). Ces récepteurs, présents sur les lymphocytes B étaient supposés inhiber la prolifération cellulaire et provoquer la mort des cellules par apoptose. L’utilisation de deux agonistes des ER β, le diarylpropionitrile (DPN) et l’ERB-041 a montré une absence d’effet de ces molécules, lorsque les cellules tumorales sont au contact de leur microenvironnement. D’autre part, afin de mieux comprendre les mécanismes de résistance aux chimiothérapies, nous avons étudié la résistance de la lignée cellulaire REC-1 traitée par des agents génotoxiques. Nous avons montré que cette lignée présentait une anomalie de dégradation de cycline D1 associée à une activité diminuée du protéasome 26S. Enfin, nous avons montré dans des travaux préliminaires que la protéine fused in sarcoma (FUS) pourrait, lorsqu’elle est associée à cycline D1, être capable de réguler les voies de réparation des dommages à l’ADN. Des anomalies de ces voies induisent une grande instabilité génétique responsable de l’échappement des tumeurs aux traitements, le ciblage de FUS pourrait par conséquent présenter un intérêt thérapeutique.Pris dans leur ensemble, ces résultats permettent de renforcer ou d’infirmer l’intérêt de certaines cibles thérapeutiques dans l’espoir de pouvoir continuer à améliorer la prise en charge des patients. Ils fournissent également un outil pour l’évaluation de nouvelles molécules dans un modèle murin prenant en compte les interactions entre la cellule tumorale et son microenvironnement. / Mantle cell lymphoma (MCL) is a mature malignant hemopathy, belonging to the non-Hodgkin's lymphoma family. The MCL is characterized by the translocation t(11;14)(q13;q32) which causes an aberrant expression of cyclin D1. It is a rare disease but at high risk of relapse, and it is most often incurable due to the appearance of chemoresistant clones. The acquisition of resistance is intimately linked to the interactions between the tumor cells and their microenvironment. In order to mimic, in the most relevant way, these interactions, we have implemented a mouse xenograft model using the MCL cell lines JeKo1, REC1, Z138 and Granta-519 which we have modified so that they express a fluorophore (GFP or m-cherry) and / or the gene encoding the luciferase. After injection to the mice of the luciferase substrate, luciferin, we are able to follow over time the tumor progression. We can also assess the degree of tumor infiltration in bone marrow, spleen, brain and blood after euthanasia of animals, by flow cytometry and immunocytochemistry. This model allowed us to show the therapeutic interest of an inhibitor of exportin 1 (XPO1): the KPT 330 (or selinexor) which is able to contain cyclin D1 only on the nuclear level. We have shown that the subcellular localization of cyclin D1 is mainly cytoplasmic in some LCM (2/7) cell lines and in a number of patients (6/42, 14%), and is associated with a high potential Invasion, migration and an aggressive phenotype. Moreover, thanks to this model, we have been able to objectify the in vivo lack of efficacy of agonists to β-type estrogen receptors (ER β). These receptors, present on B lymphocytes, were thought to inhibit cell proliferation and cause cell death by apoptosis. The use of two ER β agonists, diarylpropionitrile (DPN) and ERB-041 showed an absence of effect of these molecules, when the tumor cells are in contact with their microenvironment. On the other hand, in order to better understand the mechanisms of resistance to chemotherapies, we studied the resistance of the REC-1 cell line treated with genotoxic agents. We have shown that this line has an abnormality of cyclin D1 degradation associated with decreased activity of the 26S proteasome. Finally, we have shown in preliminary work that the fused in sarcoma protein (FUS) could, when associated with cyclin D1, be able to regulate the repair pathways of DNA damage. Abnormalities of these pathways induce a great genetic instability responsible for the escape of tumors to treatments, the targeting of FUS could therefore be of therapeutic interest.Taken as a whole, these results reinforce or invalidate the interest of certain therapeutic targets in the hope of continuing to improve the management of patients. They also provide a tool for evaluating new molecules in a murine model that takes into account the interactions between the tumor cell and its microenvironment.

Lymphome à cellules du manteau

Cycline D1

Modèles in vivo

Inhibiteur d’exportin 1 (XPO1

Potentiel métastatique

Chimiorésistance

Mantle cell lymphoma

Cyclin D1

Exportin 1 inhibitor (XPO1)

Metastatic potentia

Chemoresistance

Fused in sarcoma (FUS)