Molecular Characterization of a Recurrent t(2;7) Translocation Linking CDK6 to the IGK Locus in Chronic B-cell Neoplasia

Parker, Edward

27 June 2013

Uncovering the chromosomal abnormalities associated with human malignancy can provide significant insights into the molecular basis of tumorigenesis, as well as identifying potential targets for therapy. The present study set out to examine the genetic characteristics of t(2;7)(p11-12;q21-22) translocations arising in conjunction with chronic B-cell neoplasia. Using long-range PCR, a t(2;7) was initially mapped in an individual presenting with the preclinical entity CD5- monoclonal B-cell lymphocytosis. This revealed a breakpoint at 2p11.2 localized to the recombination signal of the immunoglobulin kappa (IGK) variable gene IGKV3-15, and a breakpoint at 7q21.2 located 520 bp upstream of cyclin dependent kinase 6 (CDK6). The same approach was subsequently employed to elucidate near-identical t(2;7) breakpoints in 4 additional cases presenting with chronic lymphocytic leukemia or indolent non-Hodgkin lymphomas. The remarkable consistency of these translocations implicates the dysregulation of CDK6 via translocation to IGK as a recurrent pathomechanism during the emergence of B-cell lymphoproliferative disorders.

Genetics

Malignancy

Hematology

B-cell Neoplasia

Chromosomal Translocation

Monoclonal B-cell Lymphocytosis

Chronic Lymphocytic Leukemia

Non-Hodkin Lymphomas

PCR

CDK6

IGK

0369

Molecular Characterization of a Recurrent t(2;7) Translocation Linking CDK6 to the IGK Locus in Chronic B-cell Neoplasia

Parker, Edward

27 June 2013

Uncovering the chromosomal abnormalities associated with human malignancy can provide significant insights into the molecular basis of tumorigenesis, as well as identifying potential targets for therapy. The present study set out to examine the genetic characteristics of t(2;7)(p11-12;q21-22) translocations arising in conjunction with chronic B-cell neoplasia. Using long-range PCR, a t(2;7) was initially mapped in an individual presenting with the preclinical entity CD5- monoclonal B-cell lymphocytosis. This revealed a breakpoint at 2p11.2 localized to the recombination signal of the immunoglobulin kappa (IGK) variable gene IGKV3-15, and a breakpoint at 7q21.2 located 520 bp upstream of cyclin dependent kinase 6 (CDK6). The same approach was subsequently employed to elucidate near-identical t(2;7) breakpoints in 4 additional cases presenting with chronic lymphocytic leukemia or indolent non-Hodgkin lymphomas. The remarkable consistency of these translocations implicates the dysregulation of CDK6 via translocation to IGK as a recurrent pathomechanism during the emergence of B-cell lymphoproliferative disorders.

Genetics

Malignancy

Hematology

B-cell Neoplasia

Chromosomal Translocation

Monoclonal B-cell Lymphocytosis

Chronic Lymphocytic Leukemia

Non-Hodkin Lymphomas

PCR

CDK6

IGK

0369

Genetic and Epigenetic Profiling of Mantle Cell Lymphoma and Chronic Lymphocytic Leukemia

Halldórsdóttir, Anna Margrét

January 2011

Mantle cell lymphoma (MCL) and chronic lymphocytic leukemia (CLL) both belong to the group of mature B-cell malignancies. However, MCL is typically clinically aggressive while the clinical course of CLL varies. CLL can be divided into prognostic subgroups based on IGHV mutational status and into multiple subsets based on closely homologous (stereotyped) B-cell receptors. In paper I we investigated 31 MCL cases using high-density 250K single-nucleotide polymorphism arrays and gene expression arrays. Although most copy-number aberrations (CNAs) were previously reported in MCL, a novel deletion was identified at 20q (16%) containing the candidate tumor suppressor gene ZFP64. A high proliferation gene expression signature was associated with poor prognosis, large CNAs, 7p gains and 9q losses. Losses at 1p/8p/13q/17p were associated with increased genomic complexity. In paper II we sequenced exons 4 to 8 of the TP53 gene in 119 MCL cases. 17p copy-number status was known from previous studies or determined by real-time quantitative polymerase chain reaction. TP53 mutations were detected in 14% of cases and were strongly associated with poor survival while 17p deletions were more common (32%) but did not predict survival. In papers III and IV we applied high-resolution genomic 27K methylation arrays to 20 MCL and 39 CLL samples. In paper III MCL displayed a homogenous methylation profile without correlation with the proliferation signature whereas MCL was clearly separated from CLL. Gene ontology analysis revealed enrichment of developmental genes, in particular homeobox transcription factor genes, among targets methylated in MCL. In paper IV we compared three different stereotyped CLL subsets: #1 (IGHV unmutated), #2 (IGHV3-21) and #4 (IGHV mutated). Many genes were differentially methylated between each two subsets and immune response genes (e.g. CD80 and CD86) were enriched among genes methylated in subset #1 but not in subsets #2/#4. In summary, CNAs were frequent and not random in MCL. Specific CNAs correlated with a high proliferation gene expression signature or genomic complexity. TP53 mutations predicted short survival whereas 17p deletions did not. A high proliferation signature was not associated with differential DNA methylation in MCL, which demonstrated a homogeneous methylation pattern. In contrast, genomic methylation patterns differed between MCL and CLL and between stereotyped CLL subsets.

mantle cell lymphoma

chronic lymphocytic leukemia

copy number aberration

proliferation signature

TP53

SNP array

methylation array

Haematology

Hematologi

Clinical genetics

Klinisk genetik

Molecular biology

Molekylärbiologi

Tumour biology

Tumörbiologi

Neuropathies périphériques et hémopathies B : de l'étude clinique des neuropathies associées à une gammapathie monoclonale IgM à activité anti-MAG au mécanisme de mort cellulaire induit par le Fingolimod (FTY720) dans les hémopathies B / Peripheral neuropathy and B cell malignancy : anti MAG neuropathy and cell cytotoxicity induced by FTY720 in chronic lymphocytic leuckemia

Delmont, Émilien

26 November 2013

Les neuropathies à anticorps anti-MAG sont secondaires à une gammapathie monoclonale IgM dirigée contre la MAG des gaines de myéline des nerfs périphériques. Le traitement est celui de l’hémopathie sous‐jacente. Même si les thérapeutiques sont de plus en plus efficaces, les hémopathies restent le plus souvent incurables. Le rituximab est couramment utilisé dans le traitement des neuropathies à anticorps anti‐MAG, mais son efficacité n’a pas pu être clairement démontrée dans deux études contrôlées. Le FTY720 ou fingolimod est un sphingolipide, analogue de la sphingosine, qui inhibe les récepteurs de la sphingosine-1-phosphate (S1P). Il est utilisé comme immunosuppresseur dans la Sclérose en Plaques. Des études ont également rapporté un effet cytotoxique du FTY720 dans des hémopathies sans toutefois clairement expliquer son mécanisme d’action. L’objectif de ce travail est d’élucider les mécanismes moléculaires de l’effet cytotoxique du FTY720 dans un modèle d’hémopathie B, la leucémie lymphoïde chronique (LLC). Des cellules leucémiques primaires de LLC et une lignée cellulaire MEC1 ont été utilisées comme modèle expérimental in vitro. Le FTY720, comme la sphingosine, entraîne une cytotoxicité dose‐dépendante dans la LLC. Cet effet, médié par la forme non phosphorylée de FTY720, est indépendant des récepteurs au S1P. Le FTY720 induit l’expression de marqueurs d’apoptose: exposition de la phosphaJdylsérine, clivage de PARP et de caspase 3. Cependant sa toxicité apparaît indépendante des caspases. La lipidation accrue de LC3 et la formation d’autophagolysosomes indiquent que le FTY720 augmente également le flux autophagique. Cependant, des inhibiteurs de l’autophagie ne permettent pas de bloquer la mort cellulaire induite par le FTY720, suggérant que l’autophagie a ici un rôle protecteur vis à vis de la toxicité du FTY720. Plusieurs éléments permettent de conclure que le FTY720 est responsable d’une nécrose cellulaire : aspect morphologique de nécrose en microscopie électronique, perméabilisation membranaire précoce avec relocalisation cytoplasmique de HMGB1, libération extracellulaire de LDH, perméabilisation de la membrane lysosomale associée à une activation des cathepsines. Au niveau moléculaire, l’action du FTY720 n’est pas bloquée par la nécrostatine 1, indiquant que la nécrose induite par le FTY720 est indépendante de RIPK1 (receptor interacJng protein 1), une kinase clef des voies extrinsèques de nécrose cellulaire programmée. Par contre, nos travaux ont établi l’implication de DRP1 (dynamin related protein), une enzyme régulatrice de la fission mitochondriale, dans le processus de nécrose induite par le FTY720. En plus d’une relocalisation précoce de DRP1 à la mitochondrie accompagnée d’une augmentation de sa phosphorylation sur des sites régulateurs de son activité, nos expériences montrent que la suppression de son expression par interférence à ARN dans les cellules leucémiques réduit fortement la mort cellulaire induite par le FTY720. Le FTY720 est donc responsable dans la LLC d’une nécrose cellulaire programmée dépendante de DRP1. Nos résultats illustrent l’implication des sphingolipides dans la régulation de la survie cellulaire et dans les voies de nécrose programmée. Le FTY720 a un mode d’action original différent de l’apoptose induite par les chimiothérapies classiques. Le FTY720 pourrait donc être une alternative thérapeutique dans les néoplasies B résistantes aux chimiothérapies usuelles et dans certaines manifestations auto‐immunes des hémopathies comme les neuropathies à anticorps anti‐MAG. / Fingolimod (FTY720) is an immunosuppressive drug that was recently approved for the treatment of multiple sclerosis and is currently under pre-clinical investigation as a therapy for a number of haematological malignancies. Previous studies have indicated a role for FTY720 in inducing autophagy and caspase-independent cell death in cancer cells through incompletely characterized molecular mechanisms. Our study thus aims at a beeer understanding of the way of action of FTY720. In chronic lymphocytic leukaemia (CLL) cells, FTY720 induced cell death with typical features of apoptosis, including phosphatidylserine exposure and caspase-3 activation, and features of autophagy, including LC3 conversion, autophagolysosome formation and lysosomal cathepsins activation. However, neither caspase nor autophagy blockade prevented the cytotoxic effect of FTY720, suggesting another mechanism of cell death. Using electron and fluorescence microscopy, flow cytometry and biochemical analyses, we found that FTY720 treatment increased a fraction of annexin V-/7-AAD+ cells both in primary and transformed leukemic cells and induced morphological changes representative of necrosis, including oncosis, mitochondrial and plasma membrane alteration. FTY720 treatment resulted in increased plasma membrane permeability as shown by the extracellular translocation of the nuclear high mobility group box 1 (HMGB1) protein and by the release into the culture medium of the cytosolic enzyme lactate dehydrogenase (LDH). Interestingly, cell death induced by FTY720 was not prevented by pharmacological inhibition of RIPK1 and PP2A. In contrast, FTY720--‐induced necrosis was accompanied by an early relocation to the mitochondria of Dynamin Related Protein 1, DRP1. Importantly, FTY720 stimulation led to ma tior changes in the phosphorylation of serine residues associated with the mitochondrial fission activity of DRP1. Finally, siRNA--‐mediated knockdown of DRP1 significantly reduced necrotic cell death induced by FTY720. In this study, we thus demonstrate that in leukemic cells the cytotoxic effect of the immunosuppressive drug Fingolimod involves a DRP1--‐dependent regulated necrosis. These observations are important in line of the future development of Fingolimod as a new therapeutic agent in haematological malignancies.

Fingolimod (FTY720)

Nécrose cellulaire

DRP1

Leucémie lymphoïde chronique

Neuropathie périphérique anti MAG

Gammapathie monoclonale IgM

Fingolimod (FTY720)

Necrosis

DRP1

Chronic lymphocytic leukemia

Anti MAG neuropathy

Activation and Role of Memory CD8 T Cells in Heterologous Antiviral Immunity and Immunopathology in the Lung: A Dissertation

Chen, Hong

09 December 2002

Each individual experiences many sequential infections throughout the lifetime. An increasing body of work indicates that prior exposure to unrelated pathogens can greatly alter the disease course during a later infection. This can be a consequence of a phenomenon known as heterologous immunity. Most viruses invade the host through the mucosa of a variety of organs and tissues. Using the intranasal mucosal route of infection, the thesis focused on studying modulation of lymphocytic choriomeningitis virus (LCMV)-specific memory CD8 T cells upon respiratory vaccinia virus (VV) infection and the role of these memory CD8 T cells in heterologous immunity against VV and altered immunopathology in the lung. The VV infection had a profound impact on memory T cells specific for LCMV. The impact included the up-regulation of CD69 expression on LCMV-specific CD8 memory T cells and the activation of their in vivoIFN-γ production and cytotoxic function. Some of these antigen-specific memory T cells selectively expanded in number, resulting in modulation of the original LCMV-specific T cell repertoire. In addition, there was a selective organ-dependent redistribution of these LCMV-specific memory T cell populations in secondary lymphoid tissue (the mediastinal lymph node and spleen) and the non-lymphoid peripheral (the lung) organs. The presence of these LCMV-specific memory T cells correlated with IFN-γ-dependent enhanced VV clearance, decreased mortality and marked changes in lung immunopathology. Thus, the participation of pre-existing memory T cells specific for unrelated agents can alter the dynamics of mucosal immunity. This is associated with an altered disease course in response to a pathogen. The roles for T cell cross-reactivity and cytokines in the modulation of memory CD8 T cells during heterologous memory CD8 T cell-mediated immunity and immunopathology were investigated. Upon VV challenge, there were preferential expansions of several LCMV-specific memory CD8 T cell populations. This selectivity suggested that cross-reactive responses played a role in this expansion. Moreover, a VV peptide, partially homologous to LCMV NP 205, stimulated LCMV-NP205 specific CD8 T cells, suggesting that NP205 may be a cross-reactive epitope. Poly I:C treatment of LCMV-immune mice resulted in a transient increase but no repertoire alteration of LCMV-epitope-specific CD8 T cells. These T cells did not produce IFN-γ in vivo. These results imply that poly I:C, presumably through its induced cytokines, was assisting in initial recruitment of LCMV-specific memory CD8 T cells in a nonspecific manner. VV challenge of LCMV-immune IL-12KO mice resulted in activation and slightly decreased accumulation of LCMV-specific CD8 T cells. Moreover, there was a dramatic reduction of in vivoIFN-γ production by LCMV-specific IL-12KO CD8 T cells in the lung. I interpreted this to mean that IL-12 was important to augment IFN-γ production by memory CD8 T cells upon TCR engagement by antigens and to induce further accumulation of activated memory CD8 T cells during the heterologous viral infection. This thesis also systematically examined what effect the sequence of two heterologous virus challenges had on viral clearance, early cytokine profiles and immunopathology in the lung after infecting mice immune to one virus with another unrelated viruses. Four unrelated viruses, [LCMV, VV, influenza A virus or murine cytomegalovirus (MCMV)], were used. There were many common changes observed in the acute response to VV as a consequence of prior immunity to any of three viruses, LCMV, MCMV or influenza A virus. These included the enhanced clearance of VV in the lung, associated with enhanced TH1 type responses with increased IFN-γ and suppressed pro-inflammatory responses. However, immunity to the three different viruses resulted in unique pathologies in the VV-infected lungs, but with one common feature, the substitution of lymphocytic and chronic mononuclear infiltrates for the usual acute polymorphonuclear response seen in non-immune mice. Immunity to influenza A virus appeared to influence the outcome of subsequent acute infections with any of the three viruses, VV, LCMV and MCMV. Most notably, influenza A virus-immunity protected against VV but it actually enhanced LCMV and MCMV titers. This enhanced MCMV replication was associated with enhanced TH1 type response and pro-inflammatory cytokine responses. Immunity to influenza A virus appeared to dramatically enhance the mild lymphocytic and chronic mononuclear response usually observed during acute infection with either LCMV or MCMV in non-immune mice, but LCMV infection and MCM infection of influenza A virus-immune mice each had its own unique features. Thus, the specific sequence of virus infections controls the outcome of disease.

Immunologic Memory

Immunity

Mucosal

Vaccinia virus

Antigens

CD8

CD8-Positive T-Lymphocytes

Lymphocytic choriomeningitis virus

Animal Experimentation and Research

Biological Factors

Cells

Hemic and Immune Systems

Viruses

CD4 T Cell-Mediated Lysis and Polyclonal Activation of B Cells During Lymphocytic Choriomeningitis Virus Infection: A Dissertation

Jellison, Evan Robert

10 January 2008

CD4 T cells and B cells are cells associated with the adaptive immune system. The adaptive immune system is designed to mount a rapid antigen-specific response to pathogens by way of clonal expansions of T and B cells bearing discrete antigen-specific receptors. During viral infection, interactions between CD4 T cells and B cells occur in a dynamic process, where B cells that bind to the virus internalize and degrade virus particles. The B cells then present viral antigens to virus-specific CD4 T cells that activate the B cells and cause them to proliferate and differentiate into virus-specific antibody-secreting cells. Yet, non-specific hypergammaglobulinemia and the production of self-reactive antibodies occur during many viral infections, and studies have suggested that viral antigen-presenting B cells may become polyclonally activated by CD4 T cells in vivo in the absence of viral engagement of the B cell receptor. This presumed polyclonal B cell activation associated with virus infection is of great medical interest because it may be involved in the initiation of autoimmunity or contribute to the long-term maintenance of B cell memory. In order to directly examine the interactions that occur between T cells and B cells, I asked what would happen to a polyclonal population of B cells that are presenting viral antigens, if they were transferred into virus-infected hosts. I performed these studies in mice using the well-characterized lymphocytic choriomeningitis virus (LCMV) model of infection. I found that the transferred population of antigen-presenting B cells had two fates. Some antigen-expressing B cells were killed in vivo by CD4 T cells in the first day after transfer into LCMV-infected hosts. However, B cells that survived the cytotoxicity underwent a dynamic polyclonal activation manifested by proliferation, changes in phenotype, and antibody production. The specific elimination of antigen-presenting B cells following adoptive transfer into LCMV-infected hosts is the first evidence that MHC class II-restricted killing can occur in vivo during viral infection. This killing was specific, because only cells expressing specific viral peptides were eliminated, and they were only eliminated in LCMV-infected mice. In addition to peptide specificity, killing was restricted to MHC class II high cells that expressed the B cell markers B220 and CD19. Mice depleted of CD4 T cells prior to adoptive transfer did not eliminate virus-specific targets, suggesting that CD4 T cells are required for this killing. I found that CD4 T cell-dependent cytotoxicity cannot be solely explained by one mechanism, but Fas-FasL interactions and perforin are mechanisms used to induce lysis. Polyclonal B cell activation, hypothesized to be the cause of virus-induced hypergammaglobulinemia, has never been formally described in vivo. Based on previous studies of virus-induced hypergammaglobulinemia, which showed that CD4 T cells were required and that hypergammaglobulinemia was more likely to occur when virus grows to high titer in vivo, it was proposed that the B cells responsible for hypergammaglobulinemia may be expressing viral antigens to virus-specific CD4 T cells in vivo. CD4 T cells would then activate the B cells. However, because the antibodies produced during hypergammaglobulinemia are predominantly not virus-specific, nonvirus-specific B cells must be presenting viral antigens in vivo. In my studies, the adoptively transferred B cells that survived the MHC class II-restricted cytotoxicity became polyclonally activated in LCMV-infected mice. Most of the surviving naïve B cells presenting class II MHC peptides underwent an extensive differentiation process involving both proliferation and secretion of antibodies. Both events required CD4 cells and CD40/CD40L interactions to occur but B cell division did not require MyD88-dependent signaling, type I interferon signaling, or interferon γ signaling within B cells. No division or activation of B cells was detected at all in virus-infected hosts in the absence of cognate CD4 T cells and class II antigen. B cells taken from immunologically tolerant donor LCMV carrier mice with high LCMV antigen load became activated following adoptive transfer into LCMV-infected hosts, suggesting that B cells can present sufficient antigen for this process during a viral infection. A transgenic population of B cells presenting viral antigens was also stimulated to undergo polyclonal activation in LCMV-infected mice. Due to the high proportion of B cells stimulated by virus infection and the fact that transgenic B cells can be activated in this manner, I conclude that virus-induced polyclonal B cell activation is independent of B cell receptor specificity. This approach, therefore, formally demonstrates and quantifies a virus-induced polyclonal proliferation and differentiation of B cells which can occur in a B cell receptor-independent manner. By examining the fate of antigen-presenting B cells following adoptive transfer into LCMV-infected mice, I have been able to observe dynamic interactions between virus-specific CD4 T cells and B cells during viral infection. Adoptive transfer of antigen-presenting B cells results in CD4 T cell-mediated killing and polyclonal activation of B cells during LCMV infection. Studies showing requirements for CD4 T cells or MHC class II to control viral infections must now take MHC class II-restricted cytotoxicity into account. Polyclonal B cell activation after viral infection has the potential to enhance the maintenance of B cell memory or lead to the onset of autoimmune disease.

Cytotoxicity

Immunologic

Histocompatibility Antigens Class II

Lymphocytic choriomeningitis virus

Antigen Presentation

B-Lymphocyte Subsets

Lymphocyte Activation

Receptors

Antigen

B-Cell

Autoimmunity

Biological Factors

Cells

Hemic and Immune Systems

Viruses

La protéine HSP90 : expression et ciblage dans les hémopathies malignes / -

Flandrin-Gresta, Pascale

26 November 2012

Les protéines de choc thermiques (HSP) sont des chaperons moléculaires qui stabilisent le pliage et la conformation de protéines normales et oncogéniques, prévenant la formation d'agrégats protéiques. Elles sont impliquées dans la régulation de l'apoptose, de la survie cellulaire et dans la cancérogénèse. HSP90 est la protéine chaperone majeure de stabilisation d'oncogènes impliqués dans les hémopathies malignes. L'objectif de notre travail était de déterminer l'implication de HSP90 dans différents types d'hémopathies malignes, les Leucémies Aiguës Myéloïdes (LAM), les Syndromes Myélodysplasiques (SMD) et les Leucémies Aiguës Lymphoblastiques (LAL), et de tester son inhibition par un inhibiteur spécifique, la tanespimycine (17- AAG). Dans les LAM, nous avons évalué l'implication des différentes isoformes de la protéine dans la résistance aux chimiothérapies et aux inhibiteurs de HSP90. Ce travail met en évidence la valeur péjorative de l'expression de HSP90 dans les différents sous types d'hémopathies, corrélant avec un risque de rechute élevé ou d'évolution vers des formes plus agressives. L'utilisation de la tanespimycine a permis de déclencher l'apoptose dans les cellules immatures impliquées dans ces pathologies. HSP90 constitue donc une protéine majeure de la cellule leucémique, et son ciblage offre des perspectives intéressantes dans le traitement des hémopathies malignes / Heat shock proteins (HSP) are molecular chaperones that stabilize the folding and conformation of normal and oncogenic proteins, preventing the formation of protein aggregates. They are involved in the regulation of apoptosis, cell survival and carcinogenesis. HSP90 is the major chaperone implicated in stabilization of oncogenes involved in hematologic malignancies. The aim of our study was to determine the involvement of HSP90 in various types of malignancies, Acute Myeloid Leukemia (AML), Myelodysplastic Syndromes (MDS) and Acute Lymphoblastic Leukemia (ALL) and to test its inhibition by a specific inhibitor, the tanespimycine (17-AAG). In acute myeloid leukemia, we evaluated the involvement of different isoforms of the protein in resistance to chemotherapy and inhibitors of HSP90. This work highlights the pejorative value of HSP90 expression in different subtypes of malignancies, correlated with a high risk of relapse or progression to more aggressive forms. Use of tanespimycine has triggered apoptosis in immature cells involved in these diseases. HSP90 is therefore a major protein of the leukemic cell and its targeting offers interesting perspectives in the treatment of hematologic malignancies

HSP90

Leucémie Aiguë Myéloïde

Syndromes myélodysplasiques

Cible thérapeutique

Leucémie Aiguë Lymphoblastique

Tanespimycine

HSP90

Acute myeloid leukemia

Syndromes myélodysplasiques

Therapeutic target

Acute lymphocytic leukemia (ALL)

Tanespimycin

616

Analýza strukturních chromosomových přestaveb u hematologických neoplázií; Studium strukturních chromosomových aberací buněk chronické lymfatické leukemie po DSP30/IL2 stimulované kultivaci / Analysis of structural chromosomal rearrangements in hematological neoplasias; Study of structural chromosomal rearrangements of cells of chronic lymphocytic leukemia after DSP30/IL2 stimulated cultivation

Hrubá, Martina

January 2014

Cytogenetic analysis of cells of chronic lymphocytic leukemia (CLL) is difficult because of their low proliferative activity. To obtain sufficient number of mitoses for performing chromosomal analysis a suitable stimulation of cell division is needed. Using DSP30/IL2 stimulated cultivation 391 CLL samples were investigated in 5 years' period. The cultivation was showed to have high success rate (96%; 375/391) with also high rate of detection of pathological clones by both karyotype and metaphase FISH analyses (in 84% of samples; 329/391). Almost in half of samples (44%; 171/391) other aberrations than recurrent FISH (i.e. 13q14 deletion, trisomy 12, TP53, ATM genes deletions) were found. Also high frequency of translocations (37%; 144/391), complex karyotypes (28%; 111/391) and clonal evolution, which was detected in one third of all samples (34% of samples with presence of more than two clones; 133/391) and like a new event in disease duration even more frequently (in 39% of samples repeatedly investigated after stimulated cultivation; 21/54), was revealed. The presence of translocations, complex karyotypes and clonal evolution was associated with progressive form of disease (P 0,000003, resp. P 0,0002 and P 0,05/P 0,04). In cases of the recurrent deletions the detailed analysis of metaphase...

Evaluation et caractérisation des effets anticancéreux de fruits rouges riches en polyphenols dans des modèles de cancer colorectal et de leucémie lymphoïde chronique / Anti-cancer properties of berries rich in polyphenols in colorectral cancer models and chronic lymphocytic leukama : evaluation and characterization of the cellular and the molecular mechanisms

Dandache, Israa

25 September 2013

L’évaluation de l’effet cytotoxique de différents jus de fruits naturellement riches en polyphénols vis-à-vis de quatre lignées de cancer colorectal a montré que le jus de la canneberge est particulièrement actif. En effet, les polyphénols de la canneberge induisent l’apoptose associée à une surexpression des deux facteurs de transcription pro-apoptotiques p73 et FOXO3a. Cette mort programmée est aussi associée à une diminution de l’expression de SIRT1 le déacétylateur de protéines non histone telles que p73, KU70, ou FOXO. D’autres événements précoces comme la production de ROS et les dommages à l’ADN connus pour réguler l’expression de SIRT1 ont été confirmés. Une deuxième étude avait pour objectif de valider le potentiel anticancéreux in vivo chez la souris Balb/C injectée de cellules d’adénocarcinome colique murin. Pour cela nous avons choisi le jus d’aronie noire qui a montré in vitro un profil de cytotoxicité intéressant. L’analyse des tumeurs a montré que l’administration de jus d’aronie entraine une réduction de la prolifération des cellules tumorales. Enfin, l’augmentation significative de la mobilité de LC3 suggère l’activation d’une mort cellulaire autophagique. Afin d’évaluer l’utilisation clinique des polyphénols, nous avons évalué les effets cytotoxiques des polyphénols de myrtille sur des lymphocytes, de patients atteints de LLC. Nos résultats montrent que l’extrait polyphénolique induit une apoptose dépendante du stress oxydant et impliquant aussi des protéines pro-apoptotiques dans des cellules de patients atteints de LLC mais pas dans les cellules de sujets sains. / The evaluation of the cytotoxic effect of different fruit juices, naturally rich in polyphenols, on four different colorectal cancer cell lines proved that cranberry juice was the most active. Indeed, cranberry polyphenols induce apoptosis associated with the overexpression of two important proapoptotic transcription factors, p73 and FOXO3a on one hand. Furthermore, it has been also correlated with a decrease in the expression of SIRT1, the deacetylase of several non-histone proteins such as p73, KU70 and FOXO. Other early events such as ROS production and DNA damage, which are known to regulate the expression of SIRT1 were confirmed. The second study aims at validating the potential anticancer effects in an in vivo model of colorectal cancer in BALB/c mice injected subcutaneously of murine colon adenocarcinoma cells. Accordingly, we chose the black chokeberry juice, which showed an interesting cytotoxic profile in vitro. The analysis of tumors demonstrated that the administration of chokeberry juice leads to a reduction in tumor cell proliferation. Finally, the significant increase in the mobility of LC3 suggests the activation of autophagic cell death. To validate the clinical use of polyphenols, we evaluated the cytotoxic effects of blueberry polyphenols on lymphocytes of CLL patients. Our results show that the polyphenolic extract induces an oxidative stress-dependent apoptosis that involve various pro-apoptotic proteins in cells of patients with CLL but not in healthy subjects.

Polyphenols

Baie

Cancer colorectal

Leucémie lymphoïde chronique

Anticancéreux

Apoptose

Polyphenols

Berry

Colorectal cancer

Chronic lymphocytic leukemia

Anticancer

Apoptosis

Autophagy

Reactive oxygen species

615.7

616.9

O estroma da medula ossea e a sua influencia na expressão de genes de resistencia e sensibilidade a quimioterapicos na leucemia linfoide aguda (LLA) pediatrica / Bone marrow stroma modulates the expression of several drug resistance/sensitivity genes in pediatric acute limphoblastic leukemia

Laranjeira, Angelo Brunelli Albertoni, 1981-

29 March 2007

Orientador: Jose Andres Yunes / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-10T05:42:02Z (GMT). No. of bitstreams: 1 Laranjeira_AngeloBrunelliAlbertoni_M.pdf: 2767287 bytes, checksum: 8b66a1e06cad088fa256103c24e955a7 (MD5) Previous issue date: 2007 / Resumo: A resistência intrínseca ou adquirida aos compostos quimioterápicos é uma das mais importantes causas dos insucessos no tratamento das LLAs pediátricas. A interação da LLA com o microambiente da medula óssea contribui para a proliferação e resistência ao regime quimioterápico das células leucêmicas através de uma grande variedade de mecanismos celulares que provavelmente incluem: aumento da expressão de transportadores celulares, aumento no processo de reparo do DNA, diminuição na regulação dos alvos das drogas, mudanças na regulação do ciclo celular e alteração nas vias apoptóticas. No presente estudo observou-se que a interação estabelecida entre células estromais e células de LLA-B, promoveu a ativação destas como avaliado pela análise das moléculas de superfície das células leucêmicas ao longo dos períodos de cultivo, além da sobrevivência e/ou proliferação em mais de 60% dos casos in vitro. A comunicação entre os dois tipos celulares também mostrou a influência do estroma na modulação da expressão transcricional de 17 genes relacionados com a resistência e sensibilidade a quimioterápicos em células de LLA-B. A modulação teve como conseqüência o aumento nos níveis de expressão da maioria dos genes de resistência e a queda de expressão da maioria dos genes de sensibilidade. Sendo assim, a LLA, pela interação com as células estromais, apresentaram uma alteração que as levou a um fenótipo característico de células resistentes. Essa alteração de expressão mediada pelo contato com o estroma foi confirmada por estudos funcionais de dois genes relacionados com a resistência. O gene KCNN4 em linhagens celulares, que quando submetidas à ação do clotrimazol apresentaram maior viabilidade na presença do que na ausência do estroma; e a adição da proteína recombinante IGFBP-7 no sistema de co-cultura promoveu a resistência e até mesmo proliferação na presença da L-asparaginase. Esta proteína também se mostrou atuante na proliferação das células estromais. Estes resultados mostram dois genes de LLA, que quando modulados pelo contato com o estroma podem contribuir com a maior resistência ao regime quimioterápico, podendo vir a ser usados como alvo para posteriores terapias / Abstract: The intrinsic or acquired chemotherapy resistance composites one of the most important causes of failures in the treatment of pediatric ALL. The ALL and bone marrow microenvironment nteraction contributes for the proliferation and resistance to the chemotherapy regimen of leukemic cells probably through a great variety of cellular mechanisms, including increase of the expression of cellular transporters, increase in the process of DNA repair, downregulation of drugs targets, changes in the regulation of cellular cycle and alteration in the apoptotic ways. In the present study it was observed that the interaction established between stromal cells and pre-B ALL, evaluated through analysis of surface molecules in leukemic cells throughout the periods of culture, were important for the survival and/or proliferation in more than 50% of the cases in vitro. This interaction also showed the influence of stroma in the transcriptional profile of 17 genes related with the resistance and sensitivity to chemotherapeutic agents in pre-B ALL cells. The modulation had as consequence the increase in the levels of expression of the majority of the resistance genes and the decrease of expression of the majority of the sensitivity genes. Being thus, these cellular types, for the interaction with the stromal cells, had presented an alteration that took them to one phenotype characteristic of resistant cells. This stroma-mediated alteration was confirmed by functional studies of two genes related with the resistance. Gene KCNN4 three leukemic cell lines, that when submitted to the action of clotrimazole they had presented greater viability in the presence than in the absence of stroma; and the addition of recombinant protein IGFBP-7 in the co-culture system promoted the resistance and proliferation of primary ALL cells in the presence of the L-asparaginase. This protein also induced proliferation of stromal cells. These results show two genes of ALL, that when modulated for the contact with stroma, can contribute with a resistance to the chemotherapic regimen, becoming possible targets for posterior therapies / Mestrado / Genetica Animal e Evolução / Mestre em Genética e Biologia Molecular

Leucemia linfocitica aguda

Microambiente tumoral

Drogas - Resistência

Estroma da medula óssea

Gene IGFBP7 humano

Acute lymphocytic leukemia

Tumour microenvironment

Drug resistance

Bone marrow stroma

Human IGFBP7 gene