Impact du statut de différenciation des cellules promyélocytaires HL-60 sur l’efficacité anticancéreuse et antiinflammatoire de l’EGCG

Vézina, Amélie

05 1900

L’altération de la barrière hématoencéphalique (BHE) par les cellules tumorales et les cellules immunes circulantes peut mener à la neuroinflammation. Les cellules leucémiques promyélocytaires HL-60 sont un excellent modèle pour étudier et comprendre les mécanismes de signalisation moléculaires qui caractérisent le développement tumoral et métastatique. La cancérogenèse peut s’accompagner de modulations de l’expression de biomarqueurs tels que la cyclooxygénase-2 et la métalloprotéase-9. Les recherches décrites dans ce mémoire relatent l’analyse des biomarqueurs inflammatoires et invasifs régulés lors de la différenciation induite par le PMA des cellules HL-60 en macrophages. Le statut de différenciation cellulaire pourrait avoir un impact sur les gènes cibles de la voie NF-κB. Nous émettons l’hypothèse que le PMA active la voie NF-κB et que cette signalisation peut être renversée par l’(-)-épigallocatéchine-gallate (EGCG). En effet, une régulation à la hausse de l’expression de plusieurs gènes combinée à la diminution de l’expression d’IκB mettent en évidence l’implication de la voie NF-κB dans l’activation des mécanismes pro-inflammatoires et pro-invasifs. Les mêmes observations sont faites dans les cellules différenciées appelées «macrophages-like». L’EGCG, un polyphénol dérivé du thé vert, a un potentiel chimiopréventif. Il est capable d’inhiber la signalisation moléculaire passant par la voie NF-κB dans les cellules HL-60 traitées simultanément par l’EGCG et le PMA, mais pas dans les cellules «macrophages-like». Cette différence peut s’expliquer par une modulation de l’expression du récepteur de surface cellulaire de l’EGCG, le récepteur à la laminine de 67 kDa, et de son précurseur de 37 kDa. Collectivement, nos résultats montrent que le statut de différenciation des cellules promyélocytaires HL-60 concorde avec l’activation des mécanismes favorisant le développement d’un cancer et des métastases. Cet effet peut être prévenu par l’utilisation d’agents naturels tel l’EGCG. Le ciblage de biomarqueurs liés au statut de différenciation des cellules tumorales impliquées dans la perturbation de la barrière hématoencéphalique qui cause la neuroinflammation permettrait l’avancement des connaissances dans la prévention de la cancérogenèse. / Blood-brain barrier (BBB) disruption by circulating tumor and immune cells leads to secondary inflammatory infections. Promyelocytic HL-60 cells represent an excellent model to study and to get a better understanding of the molecular signaling mechanisms involved in carcinogenesis and metastasis. The research described in this thesis shows the analysis of several inflammatory and invasive biomarkers regulated during PMA-induced differentiation of promyelocytic HL-60 cells into macrophages. Carcinogenesis involves some modifications in the expression of biomarkers such as cyclooxygenase-2 and matrix metalloprotease-9. The differentiation status could have an impact on the NF-κB signaling pathway that regulates the target genes, given that these target genes expression varies during cell differentiation. We hypothesize that the activation of the NF-κB pathway by PMA can be reverse by (-)-epigallocatechin-gallate (EGCG). Indeed, the up-regulation of downstream genes combined with the down-regulation of IκB expression showed the significant implication of the NF-κB signaling pathway to activate pro-inflammatory and pro-invasive mechanisms linked to carcinogenesis. The same evidence exhibits in the differentiated cells called «macrophages-like». Moreover, the green tea polyphenol, EGCG, shows chemopreventive property since it better inhibited NF-κB signaling in cells treated simultaneously with EGCG and PMA compared to the «macrophages-like». This difference could be due, in part, to the down-regulation of the 67 kDa laminin receptor, known to be the non-integrin membrane receptor for EGCG. All together, our results suggest that the differentiation status of promyelocytic cells is linked to the activation of mechanisms involved in carcinogenesis and metastasis. These phenomena can be prevented by using natural agents such as EGCG. Targeting the specific biomarkers linked to the differentiation status of tumor cells and involved in the disruption of the BBB may help reduce secondary neuroinflammation and enable the advancement of knowledge towards carcinogenesis prevention.

cellules HL-60

inflammation

cyclooxygénase-2

métalloprotéase matricielle (MMP-9)

NF-kB

(-)-épigallocatéchine-3-gallate

HL-60 cells

cyclooxygenase-2

matrix metalloprotease

(-)-epigallocatechin-3-gallate

Papel de metaloproteases de Estreptococos do grupo B na interação,viabilidade celular e indução de apoptose e necrose em células endoteliais e epiteliais humanas / The role of group B Streptococcus metalloproteases on interaction, cellular viability and apoptosis/necrosis induction on human endothelial and epithelial cells

Michelle Hanthequeste Bittencourt dos Santos

30 October 2013

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Estreptococos do grupo B (EGB) é a principal causa de sepse e meningite neonatal e tem sido recentemente reconhecido como patógeno responsável por infecções invasivas em adultos imunocomprometidos (idosos ou portadores de doenças crônicas). Os EGB produzem inúmeras enzimas extracelulares, várias das quais interagem com o sistema imune do hospedeiro e são importantes durante a interação EGB-hospedeiro, bem como para o desenvolvimento da doença. Estudos anteriores mostraram que metaloproteases estão envolvidas em várias vias metabólicas em diferentes tipos celulares. Por esta razão, nós decidimos investigar o possível envolvimento de metaloproteases de EGB durante a interação celular e apoptose/necrose induzida pelo micro-organismo em células endoteliais da veia umbilical humana (HUVEC) e da linhagem de epitélio respiratório (A549). Tratamento de EGB com inibidores de metaloproteases (EDTA, EGTA e FEN) não induziu alterações no crescimento bacteriano, mas promoveu alterações na expressão de proteínas de superfície, capacidade adesiva e perfil de sobrevivência intracelular do patógeno. O EGB e o sobrenadante do crescimento bacteriano (meio condicionado; MC) promoveram a morte das células HUVEC e A549. Contudo, o tratamento com inibidores de metaloproteases restauraram a viabilidade celular induzida pelos EGB e o MC, sugerindo que metaloproteases bacteriana estão envolvidas no rompimento da barreira celular, promovendo a disseminação bacteriana. Este trabalho descreve pela primeira vez apoptose e necrose induzidas pelo EGB e MC em HUVEC e células A549 após 24h de incubação, respectivamente. Nós também observamos redução da pró-caspase-3 após infecção das HUVEC com EGB e MC, sugerindo ativação da caspase-3. Além disso, o aumento da expressão da proteína pró-apoptótica Bax e diminuição dos níveis da proteína anti-apoptótica Bcl-2 em HUVEC, demonstram o envolvimento do mecanismo apoptótico mitocondrial (via intrínseca). A melhor compreensão das bases moleculares da patogênese do EGB contribui para identificar novas moléculas bacterianas e hospedeiras que podem representar novos alvos terapêuticos ou imunoprofiláticos contra a doença causada por esse patógeno neonatal. / Group B streptococcus (GBS) is the leading cause of neonatal sepsis and meningitis and has recently been recognized as an increasingly common cause of invasive disease in immunocompromised adults (elderly or chronic diseases). GBS produces a number of extracellular enzymes, several of which interact with the host immune system and are important for the GBS- host interaction and for the development of disease. Previous studies showed that metalloproteases are involved in several metabolic pathways in different cellular types. For this reason, we decided to investigate the possible involvement of GBS metalloproteases during cell interaction and apoptosis/necrosis induced by microorganism in human umbilical vein endothelial cells (HUVEC) and epithelial respiratory cells line (A549). Treatment of GBS with metalloproteases inhibitors (EDTA, EGTA and PHEN) did not induce alteration on bacterial growth, but promoted changes in the expression of surface proteins, adhesive capacity and profile of intracellular survival of the pathogen. The GBS and supernatant of bacterial growth medium (conditioned medium; MC) promoted the death of HUVEC and A549 cells. However, the metalloproteases inhibitors treatment restored the cellular viability induced by GBS and MC, suggesting that GBS metalloproteases are involved in the disruption of cell barrier, promoting bacterial dissemination. This study describes for the first time apoptosis and necrosis induced by GBS and MC in HUVEC and A549 cells after 24h incubation, respectively. We also observe reduction of pro-caspase-3 after infection of HUVEC with GBS and MC, suggesting activation of caspase-3. Moreover, the over-expression of pro -apoptotic protein Bax and decrease of anti-apoptotic protein Bcl-2 levels in HUVEC show the involvement of mitochondrial apoptotic mechanism (intrinsic via). Enhanced understanding of the molecular basis of GBS pathogenesis may pinpoint novel bacterial and host molecules that can represent novel therapeutic or immunoprophylactic targets against disease caused by this foremost of neonatal pathogens.

Apoptose Teses

Células endoteliais - Teses

Virulência (Microbiologia) - Teses

Estreptococos -Teses

Necrose

Apoptose

Metaloprotease

Estreptococos do grupo B

EGB

Necrosis

Apoptosis

Metalloprotease

Group B Streptococci

GBS

HUVEC

A549

Streptococci-theses

Virulence (Microbiology) - Theses

Endothelial cells - Theses

Apoptosis - Theses

MICROBIOLOGIA

Papel de metaloproteases de Estreptococos do grupo B na interação,viabilidade celular e indução de apoptose e necrose em células endoteliais e epiteliais humanas / The role of group B Streptococcus metalloproteases on interaction, cellular viability and apoptosis/necrosis induction on human endothelial and epithelial cells

Michelle Hanthequeste Bittencourt dos Santos

30 October 2013

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Estreptococos do grupo B (EGB) é a principal causa de sepse e meningite neonatal e tem sido recentemente reconhecido como patógeno responsável por infecções invasivas em adultos imunocomprometidos (idosos ou portadores de doenças crônicas). Os EGB produzem inúmeras enzimas extracelulares, várias das quais interagem com o sistema imune do hospedeiro e são importantes durante a interação EGB-hospedeiro, bem como para o desenvolvimento da doença. Estudos anteriores mostraram que metaloproteases estão envolvidas em várias vias metabólicas em diferentes tipos celulares. Por esta razão, nós decidimos investigar o possível envolvimento de metaloproteases de EGB durante a interação celular e apoptose/necrose induzida pelo micro-organismo em células endoteliais da veia umbilical humana (HUVEC) e da linhagem de epitélio respiratório (A549). Tratamento de EGB com inibidores de metaloproteases (EDTA, EGTA e FEN) não induziu alterações no crescimento bacteriano, mas promoveu alterações na expressão de proteínas de superfície, capacidade adesiva e perfil de sobrevivência intracelular do patógeno. O EGB e o sobrenadante do crescimento bacteriano (meio condicionado; MC) promoveram a morte das células HUVEC e A549. Contudo, o tratamento com inibidores de metaloproteases restauraram a viabilidade celular induzida pelos EGB e o MC, sugerindo que metaloproteases bacteriana estão envolvidas no rompimento da barreira celular, promovendo a disseminação bacteriana. Este trabalho descreve pela primeira vez apoptose e necrose induzidas pelo EGB e MC em HUVEC e células A549 após 24h de incubação, respectivamente. Nós também observamos redução da pró-caspase-3 após infecção das HUVEC com EGB e MC, sugerindo ativação da caspase-3. Além disso, o aumento da expressão da proteína pró-apoptótica Bax e diminuição dos níveis da proteína anti-apoptótica Bcl-2 em HUVEC, demonstram o envolvimento do mecanismo apoptótico mitocondrial (via intrínseca). A melhor compreensão das bases moleculares da patogênese do EGB contribui para identificar novas moléculas bacterianas e hospedeiras que podem representar novos alvos terapêuticos ou imunoprofiláticos contra a doença causada por esse patógeno neonatal. / Group B streptococcus (GBS) is the leading cause of neonatal sepsis and meningitis and has recently been recognized as an increasingly common cause of invasive disease in immunocompromised adults (elderly or chronic diseases). GBS produces a number of extracellular enzymes, several of which interact with the host immune system and are important for the GBS- host interaction and for the development of disease. Previous studies showed that metalloproteases are involved in several metabolic pathways in different cellular types. For this reason, we decided to investigate the possible involvement of GBS metalloproteases during cell interaction and apoptosis/necrosis induced by microorganism in human umbilical vein endothelial cells (HUVEC) and epithelial respiratory cells line (A549). Treatment of GBS with metalloproteases inhibitors (EDTA, EGTA and PHEN) did not induce alteration on bacterial growth, but promoted changes in the expression of surface proteins, adhesive capacity and profile of intracellular survival of the pathogen. The GBS and supernatant of bacterial growth medium (conditioned medium; MC) promoted the death of HUVEC and A549 cells. However, the metalloproteases inhibitors treatment restored the cellular viability induced by GBS and MC, suggesting that GBS metalloproteases are involved in the disruption of cell barrier, promoting bacterial dissemination. This study describes for the first time apoptosis and necrosis induced by GBS and MC in HUVEC and A549 cells after 24h incubation, respectively. We also observe reduction of pro-caspase-3 after infection of HUVEC with GBS and MC, suggesting activation of caspase-3. Moreover, the over-expression of pro -apoptotic protein Bax and decrease of anti-apoptotic protein Bcl-2 levels in HUVEC show the involvement of mitochondrial apoptotic mechanism (intrinsic via). Enhanced understanding of the molecular basis of GBS pathogenesis may pinpoint novel bacterial and host molecules that can represent novel therapeutic or immunoprophylactic targets against disease caused by this foremost of neonatal pathogens.

Apoptose Teses

Células endoteliais - Teses

Virulência (Microbiologia) - Teses

Estreptococos -Teses

Necrose

Apoptose

Metaloprotease

Estreptococos do grupo B

EGB

Necrosis

Apoptosis

Metalloprotease

Group B Streptococci

GBS

HUVEC

A549

Streptococci-theses

Virulence (Microbiology) - Theses

Endothelial cells - Theses

Apoptosis - Theses

MICROBIOLOGIA

Évaluation de ligands pour l’imagerie moléculaire de la néoangiogenèse tumorale / Evaluation of tracers for molecular imaging of tumor neoangiogenesis

Debordeaux, Frédéric

15 December 2015

La néoangiogenèse tumorale est un élément pronostique de l’évolution de nombreux cancers. L’intégrine alphaVbeta3 ainsi que la métalloprotéase matricielle 9 (MMP-9), sont des marqueurs de ce processus. Leur ciblage offre la perspective d’une information diagnostique pour la détection précoce, l’évaluation de l’agressivité de pathologies et la sélection de patients répondeurs aux nouvelles thérapies anti-angiogéniques. Dans ce contexte, notre travail s’attèle à mettre au point les techniques nécessaires à la caractérisation de radiotraceurs. Des modèles de tumeurs richement néovascularisées ont été sélectionnés : le mélanome malin et le gliome malin. Nous nous sommes dans un premier temps intéressés à la détection de l’intégrine alphaVbeta3. Un traceur technétié, le 99mTc-DTPA-bis-c(RGDfK) a servi de support à la validation de nos techniques d’analyse. Cette méthodologie d’évaluation a ensuite été adaptée à des projets collaboratifs. L’étude du 18F-ribofuranose-RGD est réalisée avec le Centre de Recherche en Cancérologie de Toulouse (INSERM UMR 1037) et l’Institut des Sciences Moléculaires (CNRS UMR 5255). Un radioligand de la MMP-9, l’111In- DOTA-F3B, fait l’objet d’un partenariat avec l’ARNA (ARN : Régulations Naturelle et Artificielle, INSERM UMR 869) et l’Institut Lumière Matière (CNRS UMR 5306). Le composé technétié a démontré une bonne affinité et spécificité pour alphaVbeta3. In vivo, chez l’animal, les radioligands technétiés et fluorés ont permis l’identification de tumeurs alphaVbeta3 positives. L’111In-DOTA-F3B a, quant à lui, permis la visualisation de tumeurs chez l’animal et sur coupes tissulaires. Ces traceurs constituent une piste intéressante pour l’imagerie de la néoangiogenèse tumorale. / Tumor neoangiogenesis is a predictive element of the evolution of numerous cancers. AlphaVbeta3 integrin and matrix metalloprotease 9 (MMP-9) are markers of tumor neoangiogenesis. Their targeting appears of great interest either for early detection, aggressiveness staging of the disease or for selection of responders to new-targeted therapies. In this context, our objective is to develop methodologies needed for radiotracers characterization. Tracers have been investigated in different tumor models for which vascularization is very important: melanoma and glioma. First of all 99mTc-DTPA-bis-c(RGDfK) has been assessed in our laboratory and helped us to develop analytical methods. These methodologies were used in different partnership, the evaluation of 18F-ribofuranose-RGD targeting alphaVbeta3 with INSERM UMR 1037 and CNRS UMR 5255, and 111In-DOTA-F3B for molecular imaging of MMP-9 with INSERM UMR 869 and CNRS UMR 5306.The technetium peptide has demonstrated good affinity and specificity for alphaVbeta3. In vivo analysis in mice showed that both tracers were able to identify some alphaVbeta3-positive tumors. 111In-DOTA-F3B allowed us to detect hMMP-9 positive tumors in mice and in tumor tissue sections. In conclusion, these tracers still require to be investigated but represent promising tracers for tumor neoangiogenesis.

Tomographie par émission de positons

Tomographie par émission monophotonique

Néoangiogenèse

Intégrine alphaVbeta3

Métalloprotéase matricielle 9

Gliome

Mélanome

Positron emission tomography

Neoangiogenesis

Integrin alphaVbeta3

Matrix metalloprotease 9

Glioma

Melanoma