Mechanisms of IKBKE Activation in Cancer

Challa, Sridevi

29 January 2017

Cancer is the second leading cause of death in the USA and it is expected to surpass heart diseases making it important to understand the underlying mechanisms of cancer. The efforts to target single signaling molecule showed little success in increasing the patient survival and it can be due to increased compensation for cell survival by alternative pathway activations. Hence comprehensive understanding of the alternative signaling pathways may help us treat cancer better. Chronic inflammation is attributed to increased risk of cancer and emerging studies show the growing importance of both canonical and non-canonical IκB kinases such as IKKα, IKKβ, IKBKE and TBK1 in human cancer pathogenesis. Initially identified as activator of NFκB pathway, IKBKE was shown to play an important oncogenic role by regulating multiple pathways downstream. Although IKBKE is implicated in tumorigenesis for over a decade, therapeutic targeting of this pathway has been a challenge. Recently, amlexanox and CYT387, which are in clinical trials for Type II diabetes and myeloproliferative disorders respectively, were identified as potential IKBKE inhibitors. In this study, we uncovered specific novel mechanisms of activation of IKBKE in tumor cells and the outcomes of targeting IKBKE pathway. Oncogenic mutations are a cause of several human malignancies. Mutations in EGFR are observed in 15% of non-small cell lung cancer patients. While cells expressing these mutations respond better to the first generation TKIs, patients become resistant to these inhibitors due to secondary mutations in EGFR. These mutations were shown to make EGFR constitutively active even in the absence of ligands. Direct targeting of EGFR with secondary mutations has been challenging as EGFR acquires novel mutations upon inhibitor treatment, which confer resistance to the EGFR-TKIs. Hence, it is important to improve our knowledge of the downstream signaling pathways of EGFR. Although PI3K, MEK signaling are well established, mutant EGFR was shown to activate several novel signaling pathways such as miRNA processing and autophagy that are implicated in resistance to EGFR-TKIs. Here, we show that IKBKE acts downstream of mutant EGFR to activate the NFκB and AKT pathways. In addition, we show that mutant EGFR but not wildtype EGFR can directly phosphorylate IKBKE at Tyrosine 153 and Tyrosine 179 residues that are important for activation of IKBKE kinase. We also found that the IKBKE/TBK1 inhibitor Amlexanox exhibits increased efficacy in inhibiting cell viability in NSCLC cells with activating EGFR mutations. Furthermore, we also found that IKBKE inhibitors activate the MAPK pathway, and EGFR-TKI resistant NSCLCs exhibit enhanced response to co-treatment with IKBKE inhibitors and MEK inhibitors. Similar to lung cancer, pancreatic cancer is a challenging disease due to lack of direct inhibitors of the KRas mutations that are observed in more than 95% of pancreatic cancer patients. IKBKE/TBK1 pathway is important for KRas signaling, but the efficacy of IKBKE inhibitors in pancreatic cancers is not well studied. Here, we show that IKBKE is an important target in pancreatic cancers that regulates pancreatic cell viability, cell migration and cancer stem cells. Importantly, we provide mechanistic insights into the effects of IKBKE inhibitors on specific signaling pathways. We found that IKBKE inhibition results in significantly increased expression of RTKs, such as ErbB3 and IGF1-R, which increases ERK1/2 activation. Our findings provide support for novel combination strategies for pancreatic cancer. Metastasis is a poor prognostic factor for ovarian cancer. Although patients with early stage ovarian cancer with no distal metastasis exhibit a 70% 5-year survival rate, Stage IV patients with distal metastasis exhibit only 20% 5-year survival rate. Hence, ongoing efforts are aimed at targeting the pathways that regulate metastasis in ovarian cancers. IKBKE is upregulated in ovarian cancer patients, and IKBKE expression is known to regulate the expression of several genes important for cell motility in ovarian cancers. IKBKE is also implicated in chemo-resistance in ovarian cancer, and siRNA knockdown of IKBKE increases sensitivity towards chemotherapy. However, the mechanistic role of IKBKE in chemo-resistance in ovarian cancer is not known. EphA2 is another well studied oncogene in ovarian cancer as 70% of ovarian cancer patients exhibit elevated levels of EphA2. By activating Focal Adhesion Kinases (FAK), EphA2 can induce metastasis in ovarian cancers. In this study, we show that the clinical PARP inhibitor Olaparib (AZD2281) activates IKBKE by EphA2-mediated tyrosine phosphorylation. We also found that phosphorylation of EphA2 or IKBKE expression can be used as a biomarker for olaparib resistance. Together, these studies have shed light on novel mechanisms of regulation of IKBKE and their importance in therapy resistance. These observations form a strong pre-clinical proof-of-concept to study the inhibitors further in the clinic.

EGFR

Olaparib

resistance

Biochemistry

Biology

Cell Biology

Mutations in BRCA1 and BRCA2 Generate Distinct Ovarian Tumour Microenvironments and Differential Responses to Therapy

Farokhi Boroujeni, Salar

12 June 2023

Clinical trials are currently exploring the combinations of P ARP inhibitors and immunotherapies in the treatment of ovarian cancer, but their effects on the ovarian tumour microenvironment (TME) remain unclear. Here, we investigate how olaparib, PD-L1 monoclonal antibodies and their combination can influence TME composition and survival of tumour-bearing mice. We further explored how BRCA mutations can influence the response to therapy. Olaparib and combination therapies similarly improved the median survival of Brca1- and Brca2-deficient tumour-bearing mice. Anti-PD-L1 monotherapy improved the survival of mice with Brca1-null tumours, but not Brca2-null tumours. A detailed analysis of the TME revealed that the olaparib monotherapy resulted in a large number of immunosuppressive and immunomodulatory effects in the more inflamed Brca1-deficient TME but not Brca2-deficient tumours. Anti-PD-L1 treatment was mostly immunosuppressive, resulting in a systemic reduction of cytokines and a compensatory increase of PD-L1. The results of the combination therapy generally resembled the effects of one or both of the monotherapies, along with unique changes observed in certain immune populations. In-silico analysis of RNA-seq also revealed numerous differences between Brca-mutated tumour models. In summary, these findings shed light on the influence of novel therapeutics and BRCA mutations on the ovarian TME.

PARP

TME

BRCA1

BRCA2

Olaparib

PD-L1

PARP1 expression in breast cancer and effects of its inhibition in preclinical models

García Parra, Jetzabel, 1983-

21 June 2012

Breast cancer is the main cause of cancer death in women. Improved treatments, prevention programs and earlier detection are reducing the rate of death; however, there is still a high percentage of mortality by this cancer. Identification of novel targets to predict response to specific treatments is a key goal for personalizing breast cancer therapy and to improve survival. Few years ago, PARP inhibitors appeared as a promising therapy, particularly in BRCA-mutated cancers. However, there was a clear need to conduct further preclinical and translational work to improve the rational development of PARP inhibition in breast cancer. In this work we described PARP1 expression in breast tumour samples and characterized the effects of its inhibition in preclinical models. We found that nuclear PARP1 protein overexpression was associated with malignant transformation and poor prognosis in breast cancer. PARP1 overexpression was more common in triple negative subtype, but was also detectable in small subsets of estrogen receptor positive and HER2 positive breast cancers. In preclinical models, PARP1 played distinct roles in different molecular subtypes of breast cancer. Moreover, we described that olaparib (novel PARP inhibitor) had antitumour effects in different breast cancer subtypes, and its combination with trastuzumab (anti-HER2 antibody) enhanced the antitumour effects of this therapy. / El càncer de mama és la principal causa de mort per càncer en dones. La millora dels tractaments i la detecció precoç estan reduint la taxa de mort, però segueix sent elevada. Identificar noves dianes per predir la resposta a tractaments és clau per millorar les teràpies contra aquest càncer i la supervivència. Els inhibidors de PARP van aparèixer com una teràpia prometedora, particularment en càncers BRCA-mutants, però, cal dur a terme més estudis preclínics i translacionals per fomentar un desenvolupament racional d’aquesta teràpia en càncer de mama. Aquest treball descriu l’expressió de PARP1 en mostres de tumors mamaris i caracteritza els efectes de la seva inhibició a models preclínics. Vam observar que la sobreexpressió nuclear de la proteïna PARP1 fou associada amb: la transformació maligna; mal pronòstic en càncer de mama; i fou més freqüent al subtipus triple-negatiu, però també es va detectar en un subgrup de càncers de mama receptors d’estrogen positius i HER2 positius. En models preclínics, PARP1 va exercir rols diferents als diferents subtipus de càncer de mama. Per altra banda, vam descriure que olaparib (inhibidor de PARP) té efectes antitumorals en els diversos subtipus, i combinat amb trastuzumab (anticòs anti-HER2) potencia els efectes antitumorals d’aquesta teràpia.

PARP

Mama

Càncer

Triple-negatiu

Inhibidor

Olaparib

Trastuzumab

Biomarcador

Biomarker

Triple-negative

Cancer

616

Efeito citotóxico do Olaparib em células de câncer colorretal : estudo da influência de defeitos genéticos

Sousa, Fabrício Garmus

January 2012

O câncer é a principal causa de morte nos paises economicamente desenvolvidos e a segunda em paises em desenvolvimento, resultado, em parte, da grande falta de especificidade dos tratamentos atualmente disponíveis. Por outro lado, uma aplicação clínica muito específica, denominada letalidade sintética, foi recentemente proposta. Nesta abordagem terapêutica os inibidores de poli(ADP-ribose) polimerases (PARP), também conhecidos como PARPis, mostraram-se capazes de induzir a morte celular seletiva em células tumorais com defeitos em BRCA1 e BRCA2 (ambas envolvidas no reparo de quebras duplas - DSBR). Assim, a excitante possibilidade de eliminar as células cancerígenas de maneira seletiva fez com que os PARPis passassem de interessantes ferramentas moleculares às mais promissoras drogas anticâncer da atualidade. Contudo, os mecanismos básicos envolvidos na citotoxicidade dos PARPis continuam pouco conhecidos e suas aplicações restritas a um pequeno grupo de cânceres. Por este motivo, neste trabalho, a citotoxicidade do Olaparib (um inibidor de PARP) foi investigada em um painel de linhagens de câncer colorretal (CRC). Os resultados demonstraram que o Olaparib é uma droga de ação lenta, cuja citotoxicidade pode ser modulada por defeitos genéticos em MLH1 (envolvido no reparo de bases mal-emparelhadas) e no supressor tumoral PTEN. Por outro lado, observou-se que o fenótipo MSI (Instabilidade de microssatélites) e os defeitos genéticos em p53 não influenciaram a citotoxicidade do Olaparib. Além disso, linhagens com resistência adquirida a Oxaliplatina (Oxp) e a 5-Fluorouracil (5- Fu) não apresentaram efeito refratário ao Olaparib, enquanto que linhagens com resistência adquirida a SN-38 (metabólito ativo do Irinotecano) apresentaram um forte efeito refratário. Finalmente, as associações de Oxp ou 5-Fu com Olaparib foram capazes de sensibilizar células com resistência relativa e adquirida. Juntos, estes resultados sugerem uma série de novas possibilidades para o emprego de inibidores de PARP no tratamento de CRC. / Cancer is the main cause of death in developed countries and the second in lessdeveloped countries, that results in part from the low specific treatments available. However, a very specific therapeutic approach, called synthetic lethality, was recently proposed. The best documented synthetic lethal interaction was reported between poly(ADP-ribose) polymerases inhibitors (PARPis) and defects in BRCA1 and BRCA2 (both involved in double-strand break repair - DSBR), which may induce selective cancer cells death. Therefore, the exciting possibility to selectively kill cancer cells has been moving PARPis from interesting molecular tools to the forefront of cancer therapy research. However, the basic mechanisms involved in PARPis cytotoxicity are still poorly studied and its clinical applications are restricted to a small number of malignances. Herein, the Olaparib (PARPi) cytotoxicity was investigated in a colorectal cancer (CRC) cell line panel. The results demonstrated that Olaparib is a slow action drug, which may have its effects increased in cells with MLH1 (involved in mismatch repair) and PTEN (tumor supressor) defects. On the other hand, neither the MSI (microsatellite instability) phenotype nor the p53 defects were observed to influence on Olaparib cytotoxicity. Further, neither Oxp nor 5-Fu resistant cell lines presented cross-resistance to Olaparib, whereas a pronounced cross-resistance was observed for SN-38 (Irinotecan metabolite) resistant cell line. Finally, Olaparib associations with Oxaliplatin or 5-Fluorouracil were shown to sensitize cells with both relative and acquired resistances. Together, these results suggest a series of new possible uses for PARP inhibitors in CRC treatment.

Reparação do DNA

Neoplasias colorretais

Citotoxicidade

Antineoplásicos

Olaparib

Colorectal cancer

PARP

PTEN

MLH1

Efeito citotóxico do Olaparib em células de câncer colorretal : estudo da influência de defeitos genéticos

Sousa, Fabrício Garmus

January 2012

O câncer é a principal causa de morte nos paises economicamente desenvolvidos e a segunda em paises em desenvolvimento, resultado, em parte, da grande falta de especificidade dos tratamentos atualmente disponíveis. Por outro lado, uma aplicação clínica muito específica, denominada letalidade sintética, foi recentemente proposta. Nesta abordagem terapêutica os inibidores de poli(ADP-ribose) polimerases (PARP), também conhecidos como PARPis, mostraram-se capazes de induzir a morte celular seletiva em células tumorais com defeitos em BRCA1 e BRCA2 (ambas envolvidas no reparo de quebras duplas - DSBR). Assim, a excitante possibilidade de eliminar as células cancerígenas de maneira seletiva fez com que os PARPis passassem de interessantes ferramentas moleculares às mais promissoras drogas anticâncer da atualidade. Contudo, os mecanismos básicos envolvidos na citotoxicidade dos PARPis continuam pouco conhecidos e suas aplicações restritas a um pequeno grupo de cânceres. Por este motivo, neste trabalho, a citotoxicidade do Olaparib (um inibidor de PARP) foi investigada em um painel de linhagens de câncer colorretal (CRC). Os resultados demonstraram que o Olaparib é uma droga de ação lenta, cuja citotoxicidade pode ser modulada por defeitos genéticos em MLH1 (envolvido no reparo de bases mal-emparelhadas) e no supressor tumoral PTEN. Por outro lado, observou-se que o fenótipo MSI (Instabilidade de microssatélites) e os defeitos genéticos em p53 não influenciaram a citotoxicidade do Olaparib. Além disso, linhagens com resistência adquirida a Oxaliplatina (Oxp) e a 5-Fluorouracil (5- Fu) não apresentaram efeito refratário ao Olaparib, enquanto que linhagens com resistência adquirida a SN-38 (metabólito ativo do Irinotecano) apresentaram um forte efeito refratário. Finalmente, as associações de Oxp ou 5-Fu com Olaparib foram capazes de sensibilizar células com resistência relativa e adquirida. Juntos, estes resultados sugerem uma série de novas possibilidades para o emprego de inibidores de PARP no tratamento de CRC. / Cancer is the main cause of death in developed countries and the second in lessdeveloped countries, that results in part from the low specific treatments available. However, a very specific therapeutic approach, called synthetic lethality, was recently proposed. The best documented synthetic lethal interaction was reported between poly(ADP-ribose) polymerases inhibitors (PARPis) and defects in BRCA1 and BRCA2 (both involved in double-strand break repair - DSBR), which may induce selective cancer cells death. Therefore, the exciting possibility to selectively kill cancer cells has been moving PARPis from interesting molecular tools to the forefront of cancer therapy research. However, the basic mechanisms involved in PARPis cytotoxicity are still poorly studied and its clinical applications are restricted to a small number of malignances. Herein, the Olaparib (PARPi) cytotoxicity was investigated in a colorectal cancer (CRC) cell line panel. The results demonstrated that Olaparib is a slow action drug, which may have its effects increased in cells with MLH1 (involved in mismatch repair) and PTEN (tumor supressor) defects. On the other hand, neither the MSI (microsatellite instability) phenotype nor the p53 defects were observed to influence on Olaparib cytotoxicity. Further, neither Oxp nor 5-Fu resistant cell lines presented cross-resistance to Olaparib, whereas a pronounced cross-resistance was observed for SN-38 (Irinotecan metabolite) resistant cell line. Finally, Olaparib associations with Oxaliplatin or 5-Fluorouracil were shown to sensitize cells with both relative and acquired resistances. Together, these results suggest a series of new possible uses for PARP inhibitors in CRC treatment.

Reparação do DNA

Neoplasias colorretais

Citotoxicidade

Antineoplásicos

Olaparib

Colorectal cancer

PARP

PTEN

MLH1

Efeito citotóxico do Olaparib em células de câncer colorretal : estudo da influência de defeitos genéticos

Sousa, Fabrício Garmus

January 2012

O câncer é a principal causa de morte nos paises economicamente desenvolvidos e a segunda em paises em desenvolvimento, resultado, em parte, da grande falta de especificidade dos tratamentos atualmente disponíveis. Por outro lado, uma aplicação clínica muito específica, denominada letalidade sintética, foi recentemente proposta. Nesta abordagem terapêutica os inibidores de poli(ADP-ribose) polimerases (PARP), também conhecidos como PARPis, mostraram-se capazes de induzir a morte celular seletiva em células tumorais com defeitos em BRCA1 e BRCA2 (ambas envolvidas no reparo de quebras duplas - DSBR). Assim, a excitante possibilidade de eliminar as células cancerígenas de maneira seletiva fez com que os PARPis passassem de interessantes ferramentas moleculares às mais promissoras drogas anticâncer da atualidade. Contudo, os mecanismos básicos envolvidos na citotoxicidade dos PARPis continuam pouco conhecidos e suas aplicações restritas a um pequeno grupo de cânceres. Por este motivo, neste trabalho, a citotoxicidade do Olaparib (um inibidor de PARP) foi investigada em um painel de linhagens de câncer colorretal (CRC). Os resultados demonstraram que o Olaparib é uma droga de ação lenta, cuja citotoxicidade pode ser modulada por defeitos genéticos em MLH1 (envolvido no reparo de bases mal-emparelhadas) e no supressor tumoral PTEN. Por outro lado, observou-se que o fenótipo MSI (Instabilidade de microssatélites) e os defeitos genéticos em p53 não influenciaram a citotoxicidade do Olaparib. Além disso, linhagens com resistência adquirida a Oxaliplatina (Oxp) e a 5-Fluorouracil (5- Fu) não apresentaram efeito refratário ao Olaparib, enquanto que linhagens com resistência adquirida a SN-38 (metabólito ativo do Irinotecano) apresentaram um forte efeito refratário. Finalmente, as associações de Oxp ou 5-Fu com Olaparib foram capazes de sensibilizar células com resistência relativa e adquirida. Juntos, estes resultados sugerem uma série de novas possibilidades para o emprego de inibidores de PARP no tratamento de CRC. / Cancer is the main cause of death in developed countries and the second in lessdeveloped countries, that results in part from the low specific treatments available. However, a very specific therapeutic approach, called synthetic lethality, was recently proposed. The best documented synthetic lethal interaction was reported between poly(ADP-ribose) polymerases inhibitors (PARPis) and defects in BRCA1 and BRCA2 (both involved in double-strand break repair - DSBR), which may induce selective cancer cells death. Therefore, the exciting possibility to selectively kill cancer cells has been moving PARPis from interesting molecular tools to the forefront of cancer therapy research. However, the basic mechanisms involved in PARPis cytotoxicity are still poorly studied and its clinical applications are restricted to a small number of malignances. Herein, the Olaparib (PARPi) cytotoxicity was investigated in a colorectal cancer (CRC) cell line panel. The results demonstrated that Olaparib is a slow action drug, which may have its effects increased in cells with MLH1 (involved in mismatch repair) and PTEN (tumor supressor) defects. On the other hand, neither the MSI (microsatellite instability) phenotype nor the p53 defects were observed to influence on Olaparib cytotoxicity. Further, neither Oxp nor 5-Fu resistant cell lines presented cross-resistance to Olaparib, whereas a pronounced cross-resistance was observed for SN-38 (Irinotecan metabolite) resistant cell line. Finally, Olaparib associations with Oxaliplatin or 5-Fluorouracil were shown to sensitize cells with both relative and acquired resistances. Together, these results suggest a series of new possible uses for PARP inhibitors in CRC treatment.

Reparação do DNA

Neoplasias colorretais

Citotoxicidade

Antineoplásicos

Olaparib

Colorectal cancer

PARP

PTEN

MLH1

Patient derived xenograft models of small-cell lung cancer provide molecular insights into mechanisms of chemotherapy cross-resistance

Myers, David Thomas

24 July 2018

Small Cell Lung Cancer (SCLC) is a highly aggressive neuroendocrine tumor with a 5% survival rate over 5 years. Though SCLC comprises 13% of all cases of lung cancer the median survival time of 14.5 months has seen little improvement over the last four decades. Standard treatment relies on DNA damaging agents such as Cisplatin/Etoposide (EP) which induce a high response rate of 60-70%. Despite this initial response, nearly all patients will relapse rendering first-line therapies ineffective. Furthermore, SCLC has been shown to develop chemotherapy cross-resistance in which resistance to first-line chemotherapies will confer resistance to additional DNA damaging agents thereby reducing treatment efficacy and duration of response. Cross-Resistance constitutes a major clinical issue whose underlying mechanisms remain a mystery. The modest improvements in SCLC patient outcomes over the decades may be partially explained by the existing systems of study. Current methodologies of SCLC study rely on cell lines, patient samples, and Genetically Engineered Mouse Models which have little functional correlation to clinical outcomes. While few sources have proposed Patient Derived Xenograft (PDX) systems as an improved alternative, significant data remains sparse. Without a robust model system which accurately recapitulates patient outcomes, molecular pathways driving resistance cannot be uncovered. Here we present the generation of 34 SCLC PDX models which maintain both genomic and functional fidelity. Furthermore, treatment of a 30-model subset with first-line chemotherapy EP and a novel chemotherapy Olaparib/Temozolomide (OT) allowed for functional and molecular comparison between groups. Our findings demonstrate incomplete independent resistance mechanisms between EP and OT treatment with a small overlap of 31 genes involved in glycolysis and xenobiotic metabolism.

Oncology

Chemotherapy

Cisplatin

Cross resistance

Olaparib

Patient derived xenograft

Small cell lung cancer

Caractérisation et manipulation des destins cellulaires induits par les traitements du cancer de la prostate

Vancayseele, Arthur

05 1900

La sénescence cellulaire est un mécanisme naturel de suppression tumorale défini par un arrêt stable de la prolifération. Bien que presque toujours mutées dans au moins une des voies déclenchant la sénescence (ex : p53/p21 ou p16/Rb), les cellules cancéreuses conservent souvent la capacité d’y entrer en réponse au traitement. Cette sénescence induite par la thérapie (SIT) peut être ciblée pharmacologiquement pour en renforcer les effets positifs. Une approche émergente consiste à combiner un traitement anticancéreux induisant la sénescence à un sénolytique, agent éliminant spécifiquement les cellules sénescentes. Dans le contexte du cancer de la prostate (CP), différents types de SIT ont déjà été observées dans de multiples modèles exposés à différents traitements. Cependant, le manque de données comparant ces phénotypes souligne le besoin d’analyses plus systématiques. De plus, la sensibilité aux sénolytiques des cellules du CP en état de SIT n’a pas encore été évaluée dans ces contextes. Dans cette étude, nous avons évalué les destins cellulaires des lignées du CP après exposition à trois traitements pertinents au niveau clinique : l’irradiation et l’olaparib, deux inducteurs de dommages à l’ADN et l’enzalutamide, un anti-androgène. Dépendamment de la lignée, les traitements par irradiation et olaparib ont mené à une réponse dirigée principalement vers la sénescence ou vers une réponse mixte de mort cellulaire, de catastrophe mitotique et de sénescence. Dans tous les cas, ceux-ci ont déclenché un phénotype sénescent classique et convertible en mort cellulaire par des sénolytiques inhibiteurs des antiapoptotiques de la famille Bcl-2. D’autre part, le traitement à l’enzalutamide a déclenché un phénotype semblable à la sénescence se distinguant par sa réversibilité, son absence de dommages à l’ADN et son insensibilité à ces mêmes sénolytiques. Globalement, nos résultats soulignent l’importance du contexte thérapeutique dans l’élaboration des stratégies de manipulation de la SIT du CP. Ils constituent également une justification robuste à l’étude préclinique des traitements combinant la radiothérapie ou l’olaparib à des inhibiteurs des antiapoptotiques de la famille Bcl-2 dans le contexte du CP. / Cellular senescence is a natural tumor suppression mechanism defined by a stable proliferation arrest. Although almost always mutated in at least one of the senescence pathways genes (e.g., p53/p21 or p16/Rb), cancer cells often retain the ability to become senescent in response to treatment. This therapy-induced senescence (TIS) can be pharmacologically targeted to enhance its positive effects. An emerging approach is to combine senescence-inducing cancer treatment with senolytics, compounds that specifically eliminate senescent cells. In the context of prostate cancer (PCa), different types of TIS have already been observed in multiple models exposed to different treatments. However, the lack of data comparing these phenotypes highlights the need for more systematic analyses. In addition, the senolytic sensitivity of TIS PCa cells has not yet been evaluated in these settings. In this study, we evaluated the cell fates of PCa cell lines after exposure to three clinically relevant treatments: irradiation and olaparib, two DNA damage inducers, and enzalutamide, an anti-androgen. Depending on the cell line, irradiation and olaparib treatments led to a response mainly directed towards senescence or toward a mixed response of cell death, mitotic catastrophe and senescence. In all cases, these treatments triggered a classic senescent phenotype that was convertible to cell death by senolytic inhibitors of the Bcl-2 family antiapoptotics. On the other hand, treatment with enzalutamide triggered a senescence-like phenotype, distinguishable by its reversibility, absence of DNA damage and insensitivity to these same senolytics. Overall, our results underscore the importance of the therapeutic context in the development of PCa-TIS manipulation strategies. They also provide a robust rationale for the preclinical study of treatments that combine radiotherapy or olaparib with Bcl-2 family antiapoptotic inhibitors in the PCa context.

sénescence

cancer de la prostate

olaparib

radiothérapie

enzalutamide

sénolytiques

Prostate cancer

Radiotherapy

Senolytics

Efeito do inibidor de PARP em linf ´ocitos Th17 e Treg em modelo experimental de sepse / Effect of PARP inhibitor in Th17 andTreg lymphocytes in experimental model of sepsis

Vieira, Juliana de Camargo

22 April 2019

Introdução: A sepse é causada por uma resposta desregulada a uma infecção cujo tratamento é de suporte, inexistindo alternativas imunomoduladoras. Linfócitos T reguladores são responsáveis por limitar a inflamação, mas podem causar imunossupressão e os Th17 são pró-inflamatórios e responsáveis pela imunidade de mucosas; ambos apresentam-se elevados nos pacientes com sepse. A PARP é uma enzima sensor de dano ao DNA que é continuamente ativada na sepse, sendo importante também na diferenciação¸ dos linfócitos T reguladores e como coativador de NF-kB. Neste estudo, avaliamos se o tratamento com inibidor de PARP é capaz de manter os linfócitos Th17 e T reguladores próximos aos valores basais, impedindo que ocorra a resposta exacerbada causada por estas células e servindo, portanto, como opção de tratamento imunomodulador. Métodos: Camundongos machos da linhagem C57Bl/6 com 7 semanas de idade e pesando entre 20-25 gramas foram submetidos à ligadura e punção cecal e receberam tratamento com olaparibe (10mg/Kg) após 30 minutos e após 8 horas da cirurgia. Baço, timo e sangue foram coletados e utilizados para análise das populações de linfócitos T reguladores e Th17, citocinas e miRNAs. Resultados: O modelo de ligadura e punção cecal foi capaz de mimetizar a linfopenia encontrada em pacientes e o aumento de linfócitos T reguladores e Th17. O tratamento com olaparibe reduziu os linfócitos T reguladores no baço tanto em porcentagem quanto em quantidade de células. Tanto o nível de IL-10 quanto a expressão do miRNA 146a-5p caíram em ambos os grupos CLP, sugerindo menor atividade supressora destes linfócitos. No sangue houve aumento dos linfócitos T reguladores, mas apenas o grupo não tratado apresentou alta de IL-10, sugerindo que o tratamento conteve o perfil supressor. No timo o tratamento parece agir por uma forma diferente; embora ocorra aumento dos linfócitos T reguladores, o grupo tratado teve aumento da expressão do miRNA 17a-5p, que reduz a atividade supressora desses linfócitos, mostrando que as células produzidas tem sua atividade supressora alterada, o que é corroborado pelo não aumento de IL-10 nesse grupo. Os linfócitos Th17, que são pró-inflamatórios, foram controlados com o tratamento no baço e no sangue. Isso possivelmente ocorreu pela ação da PARP que impediu o aumento de citocinas como IL-1beta, IL-6, TNF-alfa, IL-17A, INF-y, que estavam elevadas apenas no grupo não tratado. Além disso, a relação entre linfócitos Th17 e T reguladores foi controlada, sugerindo melhora no desfecho clínico. Conclusões: O tratamento com olaparibe se mostrou eficiente em reduzir as respostas inflamatória (causada pelo Th17) e supressora (causada pelo Treg) neste modelo, talvez pela alteração de citocinas e da expressão dos miRNA 17a-5p e 146a-5p / Introduction: Sepsis is caused by a dysregulated response to an infection whose treatment is supportive, and there are no immunomodulatory alternatives. Regulatory T lymphocytes are responsible for limiting inflammation but may cause immunosuppression and Th17 are proinflammatory and responsible for mucosal immunity; both are elevated in patients with sepsis. PARP is a DNAdamaging enzyme that is continuously activated in sepsis, also important in the di_erentiation of regulatory T lymphocytes and as a cofactor of NF-kB. In this study, we evaluated whether treatment with PARP inhibitor is able to keep the T regulatory and Th17 lymphocytes close to the baseline values, preventing the exacerbated response caused by these cells and therefore serving as an option for immunomodulatory treatment. Methods: C57Bl male mice at 7 weeks of age weighing between 20-25 grams were submited at cecal binding and puncture and received treatment with olaparib (10mg/kg) after 30 minutes and after 8 hours of the surgery. Spleen, thymus and blood cells have been used for analysis of T regulatory and Th17 lymphocytes populations, cytokines and miRNA. Results: The cecal ligation and puncture model was able to mimic the lymphopenia found in patients and the increase of T regulatory and Th17 lymphocytes. Treatment with olaparib reduced the T regulatory lymphocytes in the spleen in both percentage and number of cells. Both the IL-10 level and the 146a-5p miRNA expression fell in both CLP groups, suggesting lower suppressor activity of these lymphocytes. In the blood there was an increase in the T regulatory lymphocytes, but only the untreated group showed high IL-10, suggesting that the treatment contained the suppressor profile. In the thymus the treatment seems to act in a di_erent way; although there is an increase in the T regulatory lymphocytes, the treated group had increased expression of 17a-5p miRNA, which reduces the suppressive activity of these lymphocytes, showing that the cells produced have their supressor activity altered, which is corroborated by the non-increase of IL- 10 in this group. Th17 lymphocytes, which are proinflammatory, were controlled with treatment in the spleen and blood. This was possibly due to the action of PARP which prevented the increase of cytokines such as IL-1beta, IL-6, TNF-alpha, IL-17A, INF-y which were raised only in the group not treated. In addition, the ratio between Th17 and T regulatory lymphocytes was controlled, suggesting improvement in clinical outcome. Conclusions: The treatment with olaparib was e_cient in reducing inflammatory responses (caused by Th17) and suppressor (caused by Treg) in this model, perhaps due to the alteration of cytokines and the expression of miRNAs 17a-5p and 146a-5p

Células Th17

Inflamação

Inflammation

Linfócitos

Linfócitos T reguladores

Lymphocytes

Olaparib

Olaparibe

Poli(ADP-ribose) polimerase-1

Poly(ADP-ribose) polymerase-1

Sepse

Sepsis

T-lymphocytes regulatory

Th17 cells

Optimisation du traitement du cancer du sein Triple-Négatif : développement des modèles de culture cellulaire en trois dimensions, efficacité de l'Olaparib (anti-PARP1) en combinaison avec la radiothérapie et chimiorésistance instaurée par les protéines Multi Drug Résistance / Optimization of triple-negative breast cancer treatment : development of three-dimensional cell culture models, efficacy of Olaparib (anti-PARP1) in combination with radiotherapy and chemoresistance introduced by "Multi Drug Resistance" proteins

Dubois, Clémence

21 December 2018

Le cancer du sein est une maladie complexe et difficile à caractériser. Parmi les différents sous-types moléculaires, les tumeurs du sein Triple-Négatives (TN) sont particulièrement agressives et de mauvais pronostic. Elles sont caractérisées par une absence d’expression des récepteurs aux œstrogènes (ER), à la progestérone (PR), l’absence de surexpression du récepteur Human Epidermal growth factor 2 (HER2) et de fréquentes mutations sur les gènes BRCA1/2 (profil « BRCAness »). En absence de thérapies ciblées efficaces, de nombreux traitements ciblés notamment les inhibiteurs de poly-ADP-ribose polymérases (anti-PARPs) sont actuellement en cours de développement, en recherche préclinique et clinique. Basés sur le principe de létalité synthétique, les anti-PARPs ciblent les propriétés BRCAness des tumeurs TN. Dans ce contexte, ces travaux de recherche ont été orientés sur le développement d’outils diagnostics afin d’optimiser l’efficacité des anti-PARPs sur des tumeurs TN. Pour ce faire, dans un premier temps, des cultures cellulaires en 3D via la technique Liquid Overlay ainsi que des tests de cytotoxicités associés ont été développés, à partir des lignées cellulaires MDA-MB-231 et SUM1315 de phénotype TN. Ces deux modèles de sphéroïdes ont ensuite été optimisés/normalisés dans un milieu de culture synthétique intitulé OPTIPASS (BIOPASS). Dans un deuxième temps, l’efficacité d’un co-traitement combinant l’anti-PARP1 Olaparib à faibles et à fortes doses et la radiothérapie fractionnée (5x2 Gy) a été modélisée sur les deux lignées MDA-MB-231 et SUM1315, en conditions 2D et 3D. Ces expériences ont clairement mis en évidence un effet potentialisateur de l’Olaparib sur la radiothérapie (i) en présence de faibles doses de cet anti-PARP (5 µM ou inférieur) (ii) à long terme et (iii) en présence d’un fractionnement maximum (5x2 Gy). De plus, les lignées tumorales TN étudiées présentaient des différences de sensibilité vis-à-vis du co-traitement. Ainsi, une analyse transcriptomique in silico a mis en évidence des profils très différents de ces lignées hautement métastatiques et très agressives. Notamment, la lignée SUM1315 semblait présenter un engagement neuronal, suggérant son origine métastatique cérébrale. Ces résultats encourageants pourraient ouvrir de nouvelles perspectives pour le traitement des métastases cérébrales de tumeurs mammaires TN, très fréquentes chez ce sous-type. Dans un troisième temps, afin de mieux caractériser le mode d’action de l’Olaparib sur ces modèles de sphéroïdes, un dérivé fluorescent de l’Olaparib, l’Ola-FL, a été synthétisé et caractérisé. L’analyse de la pénétration et de la distribution de l’Ola-FL au sein des sphéroïdes MDA-MB-231 et SUM1315 a mis en évidence une distribution rapide et homogène du composé ainsi que sa persistance après 3h d’incubation, dans toute la profondeur des sphéroïdes et notamment dans les zones hypoxiques centrales. Enfin, l’analyse de la co-expression de deux pompes Multidrug Resistance (MDR) majeures, la MRP7 et la P-gp après le traitement des deux lignées TN avec l’Olaparib, a mis en évidence sur les cultures 2D, une expression de type relai de la MRP7 et la P-gp. Sur les sphéroïdes traités avec une faible dose d’Olaparib à long terme, une expression basale de la MRP7 et une surexpression de la P-gp ont été détectées, au sein des cellules résiduelles périphériques des sphéroïdes. Ces résultats mettent clairement en évidence l’implication des pompes d’efflux dans les mécanismes de résistances à l’Olaparib, dans ces tumeurs agressives. L’ensemble des résultats issus de la modélisation de l’action de l’Olaparib sur des sphéroïdes MDA-MB-231 et SUM1315 laissent supposer sa plus grande efficacité à faible dose et à long-terme, notamment dans les zones hypoxiques des sphéroïdes, probablement aussi à l’origine de son effet potentialisateur avec la radiothérapie. / Breast cancer is a very complex and heterogeneous disease. Among the different molecular subtypes, Triple-Negative (TN) breast cancers are particularly aggressive and of poor prognosis. TN tumours are characterized by a lack of estrogen receptors expression (ER), progesterone receptors expression (PR), the absence of Human Epidermal growth factor receptor 2 overexpression (HER2) of the frequent mutations on BRCA1 / 2 genes ("BRCAness" phenotype). In the absence of effective targeted therapies, many targeted therapies including poly-ADP-ribose polymerase inhibitors (anti-PARPs) are currently under development in preclinical and clinical studies. Based on the synthetic lethality concept, the anti-PARPs specifically target the BRCAness properties of TN tumors. In this context, these works were focused on the development of diagnostic tools for the optimization of TN tumours treatment with anti-PARPs. For this, firstly, 3D cell cultures formed with the Liquid Overlay technique as well as associated cytotoxicity tests were developed, from the TN breast cancer cell lines MDA-MB-231 and SUM1315. These two spheroid models were then optimized and standardized in a synthetic culture medium called OPTIPASS (BIOPASS). Secondly, the efficacy of a co-treatment combining anti-PARP1 Olaparib at low and high doses and fractioned radiotherapy (5x2 Gy) was analyzed on the two cell lines MDA-MB-231 and SUM1315 cultured in 2D and 3D conditions. These experiments clearly demonstrated a potentiating effect of Olaparib on radiotherapy (i) in presence of low doses of this anti-PARP (5 μM or inferior) (ii) at long term and (iii) in presence of the maximum fractionation (5x2 Gy). In addition, these two TN cell lines showed a heterogeneous sensitivity to the co-treatment. Thus, an in silico transcriptomic analysis revealed very different profiles of these highly metastatic and highly aggressive cell lines. Notably, the SUM1315 cell line presented a neuronal commitment, suggesting its cerebral metastatic origin. These promising results could open up new perspectives for the treatment of TN tumours brain metastases, which are very common in this subtype. Thirdly, in order to better characterize the mode of action of Olaparib on these spheroid models, a fluorescent derivative of Olaparib, Ola-FL, was synthesized and characterized. The analysis of Ola-FL penetration and distribution in MDA-MB-231 and SUM1315 spheroids showed a rapid and homogeneous distribution of the compound as well as its persistence after 3h of incubation, in all the depth of the spheroids and especially in the central hypoxic zones. Finally, the analysis of the co-expression of two major Multidrug Resistance (MDR) pumps, MRP7 and P-gp after the treatment of the two TN lines with Olaparib, revealed on 2D cultures, a relay type expression of the MRP7 and the P-gp. On spheroids treated with a low dose of Olaparib art long term (10 days), a basal expression of MRP7 and an overexpression of P-gp were detected in the peripheral residual cells of the spheroids. These results clearly highlighted the involvement of these efflux pumps in Olaparib resistance mechanisms, in these aggressive tumors. All the results resulting from the modeling of the action of Olaparib on MDA-MB-231 and SUM1315 spheroids suggest its greater efficacy at low dose and at long-term, especially in the hypoxic zones of the spheroids. This parameter might be probably at the origin of its potentiating effect with radiotherapy.

Cancer du sein Triple-Négatif CSTN

Culture 3D sphéroïdes

Milieu de culture sans sérum

Anti-PARP1 Olaparib

Radiothérapie fractionnée combinée

MultiDrug Resistance

MRP7

P-gp

Ola-FL

Triple-Negative Breast Cancer TNBC

3D cell culture, spheroids

Serum-free culture medium

Anti-PARP1 Olaparib

Combined fractioned radiotherapy

Multidrug Resistance

MRP7

P-gp

Ola-FL