The Monkey in the Wrench: MiR-181a's Role in Promoting Adipogenesis and Ovarian Cancer Transformation

Knarr, Matthew J.

23 May 2019

No description available.

Biomedical Research

miRNA

ovarian cancer

oncogenic transformation

Identification and Characterization of Mitochondrial Genome Concatemers in AIDS-Associated Lymphomas and Lymphoma Cell Lines

Bedoya, Felipe

05 June 2009

Despite recent advances in the understanding of the molecular bases of hematological malignancies, the specific mechanisms on how they originate and why some subtypes are more prevalent than others still remain to be elucidated. These two important aspects have been even more difficult to analyze when dealing with individuals under immune suppression because other factors must be considered. Questions still remain as to why individuals with AIDS tend to develop lymphoproliferative disorders differently from those observed in individuals under iatrogenic immunosuppressive therapy. Most of lymphomas occurring in transplant recipients are B-cell neoplasias typically associated with Epstein-Barr virus (EBV) infection. In contrast, only about 50% of lymphomas of patients with AIDS are associated with lymphotrophic herpesviruses such as EBV and Kaposi's sarcoma-associated herpesvirus (KSHV). No known infectious agent has been detected in the remaining 50% of AIDS-associated lymphomas, suggesting the involvement of novel viruses or unique molecular mechanisms. Since most oncogenic viruses persist as episomal circular viral genomes in the nuclei of tumor cells, we developed a method to visualize and identify covalently closed circular DNA (cccDNA) in lymphoma samples. Although this study revealed no novel viruses, we identified concatemers of the mitochondrial genome in all lymphoma samples tested. We further studied in detail one AIDS-associated lymphoma (denominated EL) whose mitochondrial DNA primarily consisted of tandem head-to-tail genome duplications. Insertion of cytosine residues was noted in the EL mitochondrial genome sequence near the origin of replication. EL cells responded weakly to Fas-apoptotic stimulus, displayed reduced mitochondrial activity and mass, and produced higher levels of reactive oxygen species (ROS) than control cells. Screening of several other AIDS-associated lymphomas and established lymphoma cell lines revealed a different kind of mitochondrial genome concatemers consisting of interlinks of DNA monomer molecules. Concatemers were not detected in normal T-lymphocytes suggesting an association with neoplastic transformation. This dissertation describes the two distinct types of mitochondrial genome concatemers identified in transformed lymphoid cells and presents a detailed analysis of their structure and implications in cellular homeostasis.

mitochondrial DNA

AIDS-related lymphomas

oncogenic transformation

leukemogenesis

mitochondria

American Studies

Arts and Humanities

Analyse des propriétés oncogéniques de cIAP1 : contribution de ses partenaires cdc42 et E2F1 / cIAP1 oncogenic properties analysis : contribution of its partners cdc42 and E2F1

Berthelet, Jean

04 November 2014

La protéine cIAP1 (cellular Inhibitor of Apoptosis Protein-1) de la famille des IAP (Inhibitor of Apoptosis Protein) est un oncogène avec une activité E3 ubiquitine ligase. Au cours de la différenciation de nombreux modèles cellulaires (macrophages, cellules dendritiques, cellules épithéliales du colon, cellules souches hématopoïetiques, cardiomyocytes), cIAP1 sort du noyau pour se relocaliser dans le cytoplasme, cette relocalisation étant associée à un arrêt de prolifération. La plupart des fonctions connues de cIAP1 sont liées à sa localisation cytoplasmique où il est un régulateur important des voies de signalisation des récepteurs du TNF-a et de NF-?B. Cependant, cIAP1 est principalement exprimée dans le noyau de différents types cellulaires ce qui n’est pas en accord avec son rôle dans la signalisation cellulaire. Mon travail de thèse a permis d’identifier un rôle de cIAP1 dans la prolifération cellulaire. cIAP1 interagit avec le facteur de transcription E2F1 et favorise son recrutement sur les promoteurs des Cycline E et A impliquées dans les transitions G1/S et G2 du cycle cellulaire, ce qui augmente l’expression des transcrits et des protéines de ces deux cibles. Il semblerait que par cette activité, cIAP1 régule la prolifération des cellules et soit important dans l’équilibre entre la prolifération et la différenciation, deux mécanismes cellulaires étroitement liés. Dans un second travail, nous avons montré que cAIP1 est déterminant dans le remodelage du cytosquelette d’actine en réponse au TNF-a. Dans les fibroblastes, le TNF-a induit la formation de fines protrusions membranaires riches en actine appelées filipodes, cette formation étant régulée par cdc42. Mes travaux ont montrés que cIAP1, associé à son partenaire historique TRAF2, régule la formation de ces filipodes. Il est capable d’interagir directement avec la RhoGTPase Cdc42 et de contrôler son activation après un traitement par le TNF- a, mais aussi par l’EGF. De plus, cIAP1 régule également la transformation oncogénique par HRas en augmentant les propriétés invasives et migratoires des cellules. Ces nouvelles fonctions de cIAP1 pourraient contribuer à ses propriétés oncogéniques. / The inhibitor of apoptosis protein cIAP1 (cellular inhibitor of apoptosis protein-1) from the IAP family (Inhibitor of Apoptosis Protein) is an oncogene with an E3 ubiquitin ligase activity. cIAP1 is relocalized from the nucleus to the cytoplasm during the differentiation of many kind of cellular models (macrophages, dendritic cells, colon epithelial cells, hematopoietic stem cells, cardiomyocytes) and this relocalization is associated with a proliferation arrest. The well-known functions of cIAP1 are associated with its cytoplasmic localization, where it regulates the TNFa receptors and NF-?B signaling pathways. However, cIAP1 is mainly expressed in the nucleus on many cell types which is not in accordance with its cell signalling activity. My work identifies a function of cIAP1 in proliferation regulation. cIAP1 interacts with E2F1 transcription factor and favors its recruitment on Cyclins E and A promoters, both involved in G1/S and G2 phases of the cell cycle, which leads to high level of transcript and protein expression of these two targets. It seems that cIAP1 regulates the cellular proliferation and is important for the balance between proliferation and differentiation, two mechanisms tightly connected in cells. In a second work, we showed that cIAP1 is critical for actin cytoskeleton modification upon TNF-a treatment. In fibroblasts, TNF-a induce filipodia formation, a process regulated by cdc42. Our work showed that cIAP1, when associated with its partner TRAF2, interact and control cdc42 activation, a member of Rho GTPases protein family. We also observed that cIAP1 regulates HRas driven oncogenic transformation and increases the motility and invasiveness of the cells. These new functions of cIAP1 in the control of transcription factor and cell cytoskeleton could be important for its oncogenic properties.

CIAP1

E2F1

Cdc42

Prolifération

TNF-a

Cytosquelette d’actine

Rho GTPases

Filipodes

HRas

Transformation oncogénique

CIAP1

E2F1

Cdc42

Proliferation

TNF-a

Actin cytoskeleton

Rho GTPases

Filipodia

HRas

Oncogenic transformation

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