Contribution de la forme mitochondriale de Bcl-xL dans le contrôle de la migration cellulaire / Role of mitochondrial Bcl-xL in the control of cell migration

Bessou, Margaux

10 July 2017

Les protéines de la famille Bcl-2 sont les principaux régulateurs de la mort cellulaire par apoptose. Au sein de cette famille, la protéine Bcl-xL appartient au sous-groupe des anti-apoptotiques et contribue à maintenir la survie cellulaire. Cependant, des données récentes suggèrent que les membres de la famille Bcl-2, et en particulier Bcl-xL, ont également d'autres fonctions.Dans le contexte pathologique du cancer du sein, la surexpression du gène Bcl-x n'affecterait pas la taille de la tumeur initiale mais favoriserait plutôt l'invasion ganglionnaire et la formation de métastases. La capacité des tumeurs à former des métastases repose notamment sur le potentiel migratoire et invasif des cellules cancéreuses, et de ce fait nous avons cherché à savoir si Bcl-xL pouvait contrôler ces processus. En lien avec les données cliniques, nous montrons que la perte d'expression de Bcl-xL réduit la capacité migratoire de cellules cancéreuses mammaires. De plus, le contrôle de la migration exercé par Bcl-xL est indépendant de son activité anti-apoptotique. Ainsi, l'inhibition de la poche hydrophobe de Bcl-xL par des composés BH3-mimétiques n'a pas d'effet sur la migration des cellules. Nous avons alors recherché le mécanisme par lequel Bcl-xL agit sur la migration. Nous observons que la fraction mitochondriale de Bcl-xL régule la migration cellulaire, et non la protéine localisée au réticulum endoplasmique. Au niveau de la mitochondrie, nous proposons que Bcl-xL contrôle la migration par l'intermédiaire de son domaine BH4, domaine modulant l'activité du canal mitochondrial VDAC / Proteins of the Bcl-2 family are the main regulators of apoptosis. Among the family, the Bcl-xL protein belongs to the anti-apoptotic subgroup and favors cell survival. However, increasing evidence suggest that Bcl-2 proteins, and in particular Bcl-xL, exert other functions in the cells.In the pathological context of breast cancer, Bcl-x gene overexpression seems to have only little impact on primary tumor growth but instead increases lymph nodes invasion and metastasis. Metastasis formation mainly relies on tumor cells’ ability to migrate and invade surrounding tissues. Therefore, we wondered wether Bcl-xL could control these processes.In line with clinical data, we show that Bcl-xL complete or partial loss of expression reduces cell migration of mammary cancer cell lines. Furthermore, we find that Bcl-xL control of cell migration is independent of its anti-apoptotic activity. Indeed, treatments with BH3-mimetics that bind to and inhibit Bcl-xL hydrophobic pocket have no effect on cell migration. Since Bcl-xL regulation of cell migration seems to be independent of interactions with other Bcl-2 family members, we investigated alternative mechanisms. We observe that mitochondrial Bcl-xL, but not the ER-targeted Bcl-xL, is involved in cell migration. At the mitochondria, we propose that Bcl-xL controls cell migration through its BH4 domain, by modulating the activity of mitochondrial VDAC channel

Protéines Bcl-2

Migration

Mitochondrie

Cancer

Calcium

Bcl-xL

Bcl-2 proteins

Migration

Mitochondria

Cancer

Calcium

Bcl-xL

571.6

Mammalian Reovirus Infection Changes the Expression of Bcl-xL Protein in H1299 Cell Line Independent of p53

Wang, Lou

22 September 2010

Mammalian reovirus (MRV) is a prototype virus of Reoviridae family. MRV virions are composed of two concentric protein capsids that surround a genome of 10 segments of dsRNA. It has been shown that MRV can manipulate host gene expression and further induce apoptosis and cell cycle arrest in various cell lines. However, the detailed molecular mechanisms by which MRV regulates the expression of host cells are largely unknown. P53 is an important transcriptional factor which modulates the expression of more than 130 genes controlled in cell stress-response. We aimed to examine the molecular mechanisms underlying the effect of MRV infection on the expression of host genes and the possible role of p53 in the interaction of MRV and host cells. Prototype serotype 3 reovirus strain Dearing (T3D) and serotype 1 strain Lang (T1L) were used to infect different cell lines, respectively, H1299 (p53-null and p53 positive), HT1080 (p53 mutant and p53 positive) and HCT116 (p21 deficient and 14-3-3σ deficient). By comparing the virus replication curve of T1L and T3D in these cell lines, we found that MRV can replicate with a similar pattern in both p53-defective and p53-positive cell lines which indicated that p53 does not have significant impact on MRV replication in these cell lines. We further found that the level of Bcl-xL protein, which has been shown to be able to inhibit apoptosis, was increased in H1299 cell lines (both p53-null and p53 positive) infected by T3D, but decreased in the same cell lines infected by T1L. A similar change of Bcl-xL protein was not observed In HCT116 and HT1080 cell lines with MRV infection. Fifty four T1L×T3D reassortants were used to map which gene or gene combination was responsible for the changes of Bcl-xL protein. We found that the expression of Bcl-xL protein in H1299 cell line infected by MRV was majorly controlled by the S1 gene segment which encodes the σ1 cell attachment protein and the σ1s non structural protein, while minorly controlled by L3 gene segment of MRV.

Reovirus

Bcl-xL

p53

H1299

Mammalian Reovirus Infection Changes the Expression of Bcl-xL Protein in H1299 Cell Line Independent of p53

Wang, Lou

22 September 2010

Mammalian reovirus (MRV) is a prototype virus of Reoviridae family. MRV virions are composed of two concentric protein capsids that surround a genome of 10 segments of dsRNA. It has been shown that MRV can manipulate host gene expression and further induce apoptosis and cell cycle arrest in various cell lines. However, the detailed molecular mechanisms by which MRV regulates the expression of host cells are largely unknown. P53 is an important transcriptional factor which modulates the expression of more than 130 genes controlled in cell stress-response. We aimed to examine the molecular mechanisms underlying the effect of MRV infection on the expression of host genes and the possible role of p53 in the interaction of MRV and host cells. Prototype serotype 3 reovirus strain Dearing (T3D) and serotype 1 strain Lang (T1L) were used to infect different cell lines, respectively, H1299 (p53-null and p53 positive), HT1080 (p53 mutant and p53 positive) and HCT116 (p21 deficient and 14-3-3σ deficient). By comparing the virus replication curve of T1L and T3D in these cell lines, we found that MRV can replicate with a similar pattern in both p53-defective and p53-positive cell lines which indicated that p53 does not have significant impact on MRV replication in these cell lines. We further found that the level of Bcl-xL protein, which has been shown to be able to inhibit apoptosis, was increased in H1299 cell lines (both p53-null and p53 positive) infected by T3D, but decreased in the same cell lines infected by T1L. A similar change of Bcl-xL protein was not observed In HCT116 and HT1080 cell lines with MRV infection. Fifty four T1L×T3D reassortants were used to map which gene or gene combination was responsible for the changes of Bcl-xL protein. We found that the expression of Bcl-xL protein in H1299 cell line infected by MRV was majorly controlled by the S1 gene segment which encodes the σ1 cell attachment protein and the σ1s non structural protein, while minorly controlled by L3 gene segment of MRV.

Reovirus

Bcl-xL

p53

H1299

Apoptosis in breast lesions

Vakkala née Mustonen, M. (Merja)

08 May 2000

Abstract In this work the extent of apoptosis was studied in a set of 504 benign and malignant breast lesions to elucidate its role in breast tumor development and progression. Also the correlation of apoptosis with estrogen and progesterone receptor positivity, cell proliferation and patients' prognosis was studied. The breast lesions were also analyzed immunohistochemically with antibodies to apoptosis regulating proteins bcl-2 and bax, and caspases 3, 6 and 8. In addition, the immunohistochemical expression of NO• synthesizing enzyme iNOS in relation to apoptosis and angiogenesis was studied. Furthermore, the expression of the antioxidative enzyme MnSOD was studied in relation to apoptosis and cell proliferation. According to the results, the apoptotic index was lowest in benign breast lesions. It was higher in in situ carcinomas, where a gradual increase in the extent of apoptosis from grade I to III in situ carcinoma was seen. The apoptotic index in invasive carcinomas was higher than in in situ carcinomas, and also in invasive carcinomas there was a gradual increase in apoptosis from grade I to III carcinomas. The apoptotic index was highest in recurrent carcinomas. Strong bcl-2 expression was usually found in benign breast lesions but the immunoreactivity decreased in in situ and invasive carcinomas. There was a significant inverse association between bcl-2 immunoreactivity and the extent of apoptosis. Low bcl-2 immunoreactivity also associated with estrogen- or progesterone receptor negativity. In contrast, bax expression did not show any significant association with apoptosis, hormone receptors or the histologic types of tumors. Strong cytoplasmic caspase 3, 6 and 8 immunoreactivity was found in most carcinomas. It was weaker in in situ carcinomas and only weak immunoreactivity could be seen in benign breast lesions. There was a significant association between the extent of apoptosis and caspase immunoreactivity. iNOS expression was found in both tumor and stromal cells. iNOS expression in tumor cells was more frequently found in invasive than in in situ carcinomas. Its expression correlated significantly with a high apoptotic index and high vascularization of the lesion. There was significantly less MnSOD immunoreactivity in invasive breast carcinomas compared to in situ carcinomas or benign hyperplasias. MnSOD immunoreactivity did not associate with the extent of apoptosis, but there was a marginal inverse association between cell proliferation and MnSOD expression. Increased apoptosis was significantly associated with a high cell proliferation, and inversely associated with a positive estrogen status. A high apoptotic index (< 0.50%) was associated with a decreased survival of the patients. The results of this study show that apoptosis plays a decisive role in the development and progression of breast carcinoma. It is influenced not only by apoptosis regulating proteins, such as bcl-2 and caspases, but also by the estrogen receptor status. Apoptosis was also associated with iNOS positivity, the effect of which is mediated through increased NO• production. In line with the suggested role of MnSOD as a tumor suppressor gene, its expression was downregulated in invasive breast carcinoma. In conclusion, the association of apoptosis with patient survival in breast carcinoma may be secondary to its association with tumor cell proliferation and high tumor grade, not necessarily suggesting any causal association between apoptosis and survival.

MnSOD

bcl-2

caspases

iNOS

Conception, synthèse et évaluation biologique d’inhibiteurs des protéines anti-apoptotiques de la famille Bcl-2 / Development and biological evaluation of small molecules inhibitors of anti-apoptotic proteins of Bcl-2 family

Abou samra, Alma

24 November 2017

La mitochondrie joue un rôle capital dans la mort cellulaire programmée ou apoptose par l’intermédiaire des protéines de la famille Bcl-2. Le dérèglement de l'apoptose dans de nombreux cancers fait de cette voie et des protéines de la famille Bcl-2 des cibles prometteuses pour la thérapie anti-cancéreuse. Le développement de petites molécules ciblant les protéines de la famille Bcl-2 s’est toutefois révélé être un grand défi, et peu d’entre elles ont atteint des études de phase clinique. Cependant, depuis une quinzaine d’années, grâce à des approches variées et souvent innovantes, des composés très actifs ont été développés. Plusieurs composés sont actuellement en essais clinique et une molécule, le venetoclax, a obtenu la première autorisation de mise sur le marché en avril 2016. Ce succès thérapeutique démontre que les protéines de la famille de Bcl-2 sont des cibles potentielles pour la thérapie anticancéreuse.Les substances naturelles sont une source importante de nouvelles molécules à structures originales, et de nombreux médicaments utilisés actuellement en chimiothérapie sont d’origine naturelle. La meiogynine A est un triterpène dimère qui a été isolé et synthétisé dans notre équipe. Ce composé possède une activité inhibitrice duale des protéines anti-apoptotiques Bcl-xL et Mcl-1. Des analogues de première et deuxième génération ont été élaborés par la suite, parmi lesquels, certains présentent une activité duale sub-micromolaire. Contrairement aux analogues de première génération, ces composés ne sont cependant pas cytotoxiques, probablement en raison de la présence d’une fonction ester sur la chaine latérale qui peut s’hydrolyser en un métabolite inactif.Mon projet de thèse vise à élaborer des analogues de troisième génération de la meiogynine A possédant une activité inhibitrice multiple sub-micromolaire des protéines anti-apoptotiques Bcl-xL, Mcl-1, Bcl-2 et cytotoxiques sur des lignées cellulaires surexprimant ces mêmes protéines. Pour cela, un essai biologique de mesure d’inhibition de l’interaction Bcl-2/Bim a été mis en place et robotisé afin d’évaluer l’activité biologique des composés synthétisés. De plus, la voie de synthèse bioinspirée d’un précurseur commun des nouveaux analogues a été mise au point à l’échelle de plusieurs grammes. Ce précurseur a permis d’élaborer différents analogues de troisième génération de la meiogynine A en réalisant des pharmacomodulations sur la chaîne latérale afin de remplacer la fonction ester des analogues de deuxième génération par un groupement stable et résistant in cellulo. Différentes séries ont été envisagées (alcènes, amines, amides, carbamates et triazoles). L’activité biologique des composés synthétisés a été évaluée sur les trois cibles in vitro. Finalement, des analyses de cytotoxicité pour les analogues les plus actifs ont été réalisées par nos collaborateurs à l’Institut Gustave Roussy. / Apoptosis is used by multicellular organisms to regulate tissue homeostasis through the elimination of useless or potentially harmful cells. The key players of apoptosis are caspases, a family of proteases whose activation is induced by two major signalling pathways. One of these pathways (the intrinsic pathway) is regulated by the Bcl-2 family of proteins. In recent years, numerous studies have shown that overexpression of the antiapoptotic Bcl-2, Bcl-xL or Mcl-1 proteins is involved in the development of many kinds of cancers or confers resistance to apoptosis induced by standard anticancer therapies. Consequently, targeting this family of proteins is a highly promising strategy for tumour treatment.The feasibility of disrupting protein-protein interactions between anti- and pro-apoptotic members of the Bcl-2 family, using small-molecule inhibitors has been successfully established, and venetoclax was the first to obtain the FDA authorisation in April 2016 as an inhibitor of anti-apoptotic proteins of Bcl-2.Natural products are still playing a significant role in drug discovery and development process. Thus, from the 1940’s to date, 75% of the 175 small molecules used in cancer therapy, are either natural products or derivatives of natural compounds. Screening of plant extracts, marine organisms or microorganisms can provide highly original and functionalized bioactive molecules that are unlikely obtained by screening synthetic libraries. In fact, structural complexity is often a criterion of specificity for biological target.Meiogynin A is an original molecule isolated from a Malaysian Annonaceae and synthesized in our team in 2009. It exhibited a promising inhibitory activity of Bcl-2, Bcl-xL and Mcl-1, three anti-apoptotic proteins of Bcl-2 family whose overexpression is correlated with many cancers. 1st- and 2nd-generation analogs were further elaborated. Despite their remarkable affinity towards target proteins, 2nd-generation analogs lacked cytotoxicity, probably due to the presence of an ester linker that could undergo competitive hydrolysis in cellulo, leading to an inactive metabolite.We aim to develop 3rd-generation analogues of meiogynine A exhibiting high affinity towards multiple anti-apoptotic members of Bcl-2 family as well as cytotoxicity on cancer cells that overexpress these proteins. For this, a new fluorescence polarization inhibition test for Bcl-2/Bim interaction has been implemented, and meiogynine A and its analogues have been tested against the new interaction. In addition to Bcl-xL/Bak and Mcl-1/Bid interaction inhibition, these molecules showed an ability to inhibit Bcl-2/Bim interaction. Thus, they are considered multiple inhibitors.3rd-generation analogues of meiogynine A were obtained by pharmacomodulation of a common precursor that was synthesized on a gram-scale through a bioinspired Diels-Alder reaction. Several functional groups that have better stability in vivo than the ester group were anticipated, such as the amines, amides, carbamates and triazoles. Biological activity of the synthesized analogues was evaluated, and those presenting the best inhibitory profile were evaluated in cellulo by our collaborators in the Institut Gustave Roussy.

Apoptose

Inhibiteurs multiples

Bcl-2

Bcl-XL

Mcl-1

Meiogynine A

Apoptosis

Multiple inhibitors

Bcl-2

Bcl-XL

Mcl-1

Meiogynine A

Étude des fonctions de survie de l'oncogène Bcl xL : rôles de la déamidation de Bcl xL et de l'interaction avec la protéine Rab7 / Study of the survival functions of the oncogene Bcl xL : the roles of Bcl xL deamidation and interaction with the protein Rab7

Beaumatin, Florian

19 December 2012

La protéine Bcl xL, membre de la famille de Bcl 2, est essentiellement décrite pour son rôle dans l'inhibition de la mort des cellules. Récemment, un nouveau rôle lui a été attribué dans la régulation de la macro-autophagie, processus principalement décrit pour promouvoir la survie des cellules. Bcl xL exerce donc ses fonctions de survie à travers la régulation d'au moins deux processus différents.Si les fonctions anti-apoptotiques de Bcl xL ne sont plus à démontrer, ses fonctions dans la régulation de l'autophagie sont davantage débattues. Ainsi, nous avons centré ce travail sur la caractérisation des fonctions pro-autophagiques de Bcl xL afin de mieux comprendre ses fonctions de survie. Nos résultats suggèrent que Bcl xL subit in vivo et dans des cellules en culture une modification de type déamidation. Nous montrons que cette modification renforce les fonctions pro-autophagiques de Bcl xL sans affecter ses fonctions anti-apoptotiques. Par ailleurs, nous nous sommes intéressés à l'interaction entre Bcl xL et la petite GTPase Rab7, une protéine essentielle au processus autophagique et endocytique. Nous avons généré, et analysé d'un point de vue fonctionnel, des mutants de Bcl xL de type perte ou gain d'interaction avec Rab7. Notre principale conclusion est que Bcl xL stimule le trafic des vésicules médié par Rab7, et nous proposons que les fonctions pro-autophagiques de Bcl xL sont majoritairement dépendantes de son interaction avec Rab7. Cette étude contribue ainsi à mieux définir les fonctions pro-autophagiques de Bcl xL ainsi que les processus qui les régulent. Par ailleurs, elle approfondit nos connaissances des fonctions oncogéniques de Bcl xL en intégrant la composante supplémentaire de ses fonctions pro-autophagiques, et ouvre ainsi des perspectives pour l'élaboration de nouvelles stratégies thérapeutiques anti-cancéreuses notamment. / Bcl xL, a member of the Bcl-2 family, is mainly described for its role in the inhibition of cell death. Recently, Bcl xL was attributed a new role in the regulation of macro-autophagy, a process described mainly for its contribution to cell survival. Hence, Bcl xL wields its survival functions through the regulation of at least two different processes. If the anti-apoptotic functions of Bcl xL are now well established, its role in the regulation of autophagy is more debated. Therefore we focused this work on the characterization of Bcl xL pro-autophagic functions in order to get a better understanding of its survival functions. Our results suggest that Bcl xL undergoes in vivo and in cultured cells a modification called deamidation. We show that this modification enhances its pro-autophagic functions without affecting its anti-apoptotic functions. In addition, we characterized an interaction between Bcl xL and the small GTPase Rab7 which is essential for autophagy and endocytosis. We generated mutants of Bcl xL either gaining or loosing interaction with Rab7. The functional analysis of these mutants suggested that Bcl xL stimulates the vesicle trafficking mediated by Rab7, and prompts us to hypothesize that Bcl xL pro-autophagic functions are mainly dependent on its interaction with Rab7. This study helps to better define the pro-autophagic functions of Bcl xL and the processes regulating them. It provides further insights in the oncogenic functions of Bcl xL by implementing additional component of its pro-autophagic functions, and opens perspectives for the development of new therapeutic strategies against cancer progression.

Autophagie

Apoptose

Endocytose

Cancer

Deamidation

Bcl xL

Rab7

Famille de Bcl-2

Autophagy

Apoptosis

Endocytosis

Cancer

Deamidation

Bcl xL

Rab7

Bcl 2 family

Inibição simultânea dos genes antiapoptóticos Bcl-2 e Bcl-XL em células de leucemia  linfoide aguda e células de linfoma do manto mediante RNA de interferência / Simultaneous inhibition of antiapoptóticosBcl-2 and Bcl-XL genes acute lymphocytic leukemia and mantle cell lymphoma by RNA interference

Faustino, Viviane Dias

06 November 2012

As estatísticas relacionadas aos cânceres hematológicos indicam que a incidência e mortalidade dessas doenças têm aumentado ao longo dos anos. Embora a maioria dos casos de linfomas e leucemias não possua etiologia definida, sugere-se que fatores genéticos possam estar envolvidos. Nesse contexto, destaca-se a família de proteínas Bcl-2, divididas em anti e pró-apoptóticas. Os genes Bcl-2 e Bcl-XL, membros de uma nova classe de oncogenes, que atuam no mecanismo de morte celular das células cancerígenas, sobretudo apoptose, a qual é controlada por numerosos sinais intra e extracelulares. Uma nova estratégia para o tratamento desta doença inclui a terapia gênica mediada por RNA de interferência, que silencia importantes genes, a exemplo dos genes da família Bcl-2. Visto que o silenciamento isolado de um único gene pode não ter resultados expressivos, o presente trabalho teve por objetivo desenhar um RNA de interferência (RNAi) homólogo a dois tipos distintos de RNA mensageiro (RNAm) e inibir simultaneamente os genes Bcl-2 e Bcl-XL,assim como testar a inibição isolada dos mesmos. Amostras de linhagem tumoral Jurkat e Granta-519 foram avaliadas após transfecção com os seguintes RNA:i Bcl-2,Bcl-XL, Bcl-2/Bcl-XL,Bcl-2+Bcl-XL e scramble. Os nossos achados evidenciam que, na linhagem Granta-519, a sequência do RNAi Bcl-2 inibe, isoladamente ou conjugado ao Bcl-XL, o gene Bcl-2. Deste modo, o RNAi Bcl-2 apresenta-se mais eficiente no mecanismo de silenciamento gênico, uma vez que propicia a morte celular frente a toxicidade do quimioterápico etoposide. / The hematological cancer statistics indicates that its incidence and mortality have increased over the years. Although most cases of lymphomas and leukemias has no definite etiology however is suggested that genetic factors may be involved. In this context there is the Bcl-2 proteins family divided into anti-apoptotic and pro-apoptotic which Bcl-2 and Bcl-XL genes are members of a new class of oncogenes that act in cancer cells death mechanisms, especially apoptosis, that is controlled by numerous intra-and extracellular signals. Among new strategies to treat hematological cancer includes gene therapy mediated by RNA interference, which can decrease expression of genes like Bcl-2 family components. Studies of single gene silencing have not shown significant results so this study aimed to design an RNA interference (iRNA) homologous to two distinct types of messenger RNA (mRNA) and inhibit both genes Bcl-2 and Bcl-XL -XL as well as test the inhibition. Commercial cells Jurkat and Granta-519 were evaluated after transfection with iRNA as follows: Bcl-2, Bcl-XL, Bcl-2/Bcl-XL, Bcl-2+Bcl-XL and scramble. Our findings show that in Granta-519 cell line Bcl-2 RNAi sequence inhibits, alone or conjugated to Bcl-XL, Bcl-2 gene. Thus RNAi Bcl-2 appears more effective in gene silencing mechanism as it promotes cell death due chemotherapeutic agent etoposide toxicity.

Apoptose

Apoptosis

Bcl-2 gene

Gene therapy

Genes Bcl-2

Inibição simultânea

Interferência de RNA

Neoplasias

Neoplasms

Protein Bcl-XL

Proteína Bcl-XL

RNA interference

Simultaneous inhibition

Terapia de genes

Regulation des mitochondrialen Apoptosesignalwegs durch BH3-only Proteine und Bcl-2 Inhibitoren

Gebhardt, Nina

27 November 2009

In Tumoren führt die Deregulation von Proteinen der Bcl-2 Familie zur Apoptoseresistenz. Diese kann aus einem Verlust der pro-apoptotischen Proteine Bax bzw. Bak, einer Hochregulation von anti-apoptotischen Bcl-2 Proteinen oder aus einer Inaktivierung von BH3-only Proteinen heraus erfolgen. BH3-only Proteine sequestrieren anti-apoptotische Bcl-2 Proteine und induzieren dadurch die Aktivierung von Bax bzw. Bak. Ziel der vorliegenden Arbeit war daher, die Regulation von Apoptose durch das pro-apoptotische BH3-only-Protein Noxa zu untersuchen. Zusätzlich sollte der Mechanismus der Apoptoseinduktion durch niedermolekulare Bcl-2 Inhibitoren in Tumorzellen untersucht werden. Hier wird gezeigt, dass die putativen Bcl-2 Inhibitoren Gossypol, HA14-1 und zum Teil BH3I-2 unabhängig von Bax und Bak Zelltod induzierten. Dies weist darauf hin, dass die Apoptoseinduktion durch diese niedermolekularen Substanzen zumindest teilweise "off-target" ist, d.h. unabhängig von den Zielstrukturen der Bcl-2 Familie erfolgt. Eine andere Strategie zur Aktivierung des mitochondrialen Apoptosewegs ist die Expression von BH3-only Proteinen. Zunächst wurde die Expression putativer Spleißvarianten des Noxa-Gens auf mRNA- und Proteinebene durchgeführt. Hierbei wurde das bekannte BH3-only Protein Noxa als kurze Spleißvariante (NoxaS) und eine bisher unbekannte, lange Spleißvariante (NoxaL) gefunden. Zur funktionellen Analyse wurden konditionale Expressionsvektoren für beide Noxa-Varianten hergestellt. Die Expression von NoxaS führte zu einer differenziellen Aktivierung von Bak und/oder Bax. NoxaL hingegen verfügt über keine BH3-Domäne, induzierte aber dennoch Apoptose in einem Prostatakarzinom-Zelllinienmodell. Weitergehende Untersuchungen zeigten, dass es hier zu einer BH3-unabhängigen Aktivierung eines Bak-vermittelten Zelltod-Signalwegs kommt. Die vorliegende Arbeit liefert somit neue Erkenntnisse zur Zelltodregulation und experimentellen Apoptoseinduktion über BH3-unabhängige Signalmechanismen. / In many tumors deregulation of Bcl-2 family proteins lead to apoptosis resistance. This deregulation can occur through the loss of pro-apoptotic proteins Bax respectively Bak, through upregulation of anti-apoptotic Bcl-2 proteins or from the inactivation of BH3-only proteins. BH3-only proteins sequester anti-apoptotic Bcl-2 proteins and hereby activate Bax and Bak. Therefore aim of the present work was to study the regulation of apoptosis by the pro-apoptotic BH3-only protein Noxa. In addition the mechanism of apoptosis induction in different tumor cells by small molecular substances mimicking the function of BH3-only proteins ought to be investigated. Here we show that the putative Bcl-2 inhibitors Gossypol, HA14-1 and partly BH3I-2 induce cell death independent from Bax and Bak. This shows that the induction of apoptosis by these substances is at least partly off target, i.e. occurs independent of the target structures of the Bcl-2 family. Another strategy to activate the mitochondrial signaling pathway is the expression of BH3-only proteins. Initially the expression of putative splicing variants of the noxa gene was carried out on mRNA and protein level. Here the known NoxaS as short splicing variant (NoxaS) and an up to that point unknown long splicing variant (NoxaL) have been found. For functional analysis of the two splicing variants conditional expression vectors have been generated. The overexpression of NoxaS led to a differential activation of Bax and/or Bak. However NoxaL does not contain a BH3 domain but still induced apoptosis in a prostate carcinoma cell system. Advanced studies showed a BH3 independent activation of a Bak mediated cell death signaling pathway. The present work therefore provides new insights into cell death regulation and experimental apoptosis induction via BH3 independent signaling mechanisms.

Apoptose

Bcl-2 Familie

Noxa

Bcl-2 Inhibitoren

apoptosis

Bcl-2 family

Noxa

Bcl-2 inhibitors

570 Biowissenschaften, Biologie

32 Biologie

XH 2550

ddc:570

Inibição simultânea dos genes antiapoptóticos Bcl-2 e Bcl-XL em células de leucemia  linfoide aguda e células de linfoma do manto mediante RNA de interferência / Simultaneous inhibition of antiapoptóticosBcl-2 and Bcl-XL genes acute lymphocytic leukemia and mantle cell lymphoma by RNA interference

Viviane Dias Faustino

06 November 2012

As estatísticas relacionadas aos cânceres hematológicos indicam que a incidência e mortalidade dessas doenças têm aumentado ao longo dos anos. Embora a maioria dos casos de linfomas e leucemias não possua etiologia definida, sugere-se que fatores genéticos possam estar envolvidos. Nesse contexto, destaca-se a família de proteínas Bcl-2, divididas em anti e pró-apoptóticas. Os genes Bcl-2 e Bcl-XL, membros de uma nova classe de oncogenes, que atuam no mecanismo de morte celular das células cancerígenas, sobretudo apoptose, a qual é controlada por numerosos sinais intra e extracelulares. Uma nova estratégia para o tratamento desta doença inclui a terapia gênica mediada por RNA de interferência, que silencia importantes genes, a exemplo dos genes da família Bcl-2. Visto que o silenciamento isolado de um único gene pode não ter resultados expressivos, o presente trabalho teve por objetivo desenhar um RNA de interferência (RNAi) homólogo a dois tipos distintos de RNA mensageiro (RNAm) e inibir simultaneamente os genes Bcl-2 e Bcl-XL,assim como testar a inibição isolada dos mesmos. Amostras de linhagem tumoral Jurkat e Granta-519 foram avaliadas após transfecção com os seguintes RNA:i Bcl-2,Bcl-XL, Bcl-2/Bcl-XL,Bcl-2+Bcl-XL e scramble. Os nossos achados evidenciam que, na linhagem Granta-519, a sequência do RNAi Bcl-2 inibe, isoladamente ou conjugado ao Bcl-XL, o gene Bcl-2. Deste modo, o RNAi Bcl-2 apresenta-se mais eficiente no mecanismo de silenciamento gênico, uma vez que propicia a morte celular frente a toxicidade do quimioterápico etoposide. / The hematological cancer statistics indicates that its incidence and mortality have increased over the years. Although most cases of lymphomas and leukemias has no definite etiology however is suggested that genetic factors may be involved. In this context there is the Bcl-2 proteins family divided into anti-apoptotic and pro-apoptotic which Bcl-2 and Bcl-XL genes are members of a new class of oncogenes that act in cancer cells death mechanisms, especially apoptosis, that is controlled by numerous intra-and extracellular signals. Among new strategies to treat hematological cancer includes gene therapy mediated by RNA interference, which can decrease expression of genes like Bcl-2 family components. Studies of single gene silencing have not shown significant results so this study aimed to design an RNA interference (iRNA) homologous to two distinct types of messenger RNA (mRNA) and inhibit both genes Bcl-2 and Bcl-XL -XL as well as test the inhibition. Commercial cells Jurkat and Granta-519 were evaluated after transfection with iRNA as follows: Bcl-2, Bcl-XL, Bcl-2/Bcl-XL, Bcl-2+Bcl-XL and scramble. Our findings show that in Granta-519 cell line Bcl-2 RNAi sequence inhibits, alone or conjugated to Bcl-XL, Bcl-2 gene. Thus RNAi Bcl-2 appears more effective in gene silencing mechanism as it promotes cell death due chemotherapeutic agent etoposide toxicity.

Apoptose

Genes Bcl-2

Inibição simultânea

Interferência de RNA

Neoplasias

Proteína Bcl-XL

Terapia de genes

Apoptosis

Bcl-2 gene

Gene therapy

Neoplasms

Protein Bcl-XL

RNA interference

Simultaneous inhibition

Análise imuno-histoquímica da Bcl-2, Bcl-6, c-Myc e ciclina D1 em linfomas de células B da região oral / Immunohistochemical analysis of Bcl-2, Bcl-6, c-Myc and Cyclin D in B cell lymphomas of the oral region

Saturno, Juvaní Lago

14 February 2014

Neste trabalho foram analisados 30 casos de linfomas de células B da região oral, fixados em solução de formaldeído e incluídos em parafina, através da técnica de imuno-histoquímica para as proteínas c-Myc, Bcl-2, Bcl-6 e ciclina D1. Dos casos analisados 40% foram positivos para a marcação para c-Myc, 33,3% para a marcação para ciclina D1, 83,3% para a marcação para Bcl-2 e 53,3% para a marcação para Bcl-6. Todos os casos foram diagnosticados como linfomas difusos de grandes células B, o subtipo de linfoma com a maior casuística. A análise destas proteínas é de fundamental importância para o diagnóstico e direcionamento do tratamento de doenças hematopoiéticas, pois estão envolvidas em vários processos de controle da transcrição gênica, do ciclo celular e dos processos apoptóticos e o aumento do conhecimento sobre sua ação em diferentes subtipos de linfomas pode corroborar outros estudos. / In this study, 30 cases of formalin-fixed and paraffin-embedded B-cell lymphomas of the oral region were submitted to immunohistochemistry for the detection of proteins c-Myc, Bcl-2, Bcl-6 and cyclin D1. Fourty percent (40%) of the studied cases were positive for c-Myc, 10% for cyclin D1, 83.3% for Bcl-2 and 53.3% for Bcl-6. The analysis of these proteins has fundamental importance for the diagnosis and treatment course of hematopoietic diseases, because they are involved in various processes controlling gene transcription and cell cycle. All cases were diffuse large B-cell lymphomas, the subtype with the highest incidence. The analysis of these proteins is very important for the diagnosis and treatment course of hematopoietic diseases, because they are involved in various processes controlling gene transcription, cell cycle and apoptotic processes and an increase in the knowledge of their action in different subtypes of lymphomas can corroborate to other studies.

B cells

Bcl-2

Bcl-2

Bcl-6

Bcl-6

c-Myc

c-Myc

Células B

Ciclina D

Cyclin D1

Linfomas

Lymphoma