Caracterização in vitro de células de cultura primária de tumores de glândula salivar : avaliação da auto-renovação e dos efeitos da IL-6 secretada por células endoteliais na fosforilação de STAT3, Akt e ERK / In vitro characterization of primary cell cultures from salivary gland tumors : analysis of self-renew and effect of IL-6 secreted by endothelial cells in the phosphorylation of STAT3, Akt and ERK

Bernardi, Lisiane

January 2013

O câncer é um problema de saúde pública mundial, apresentando acréscimo na sua incidência a cada ano. O seu processo de evolução ainda não foi completamente desvendado, dificultando a elaboração de terapias adequadas. Na busca por um melhor prognóstico, pesquisas recentes têm discutido o papel das citocinas inflamatórias, do nicho perivascular e das células-tronco nos mecanismos de desenvolvimento e manutenção dos tumores malignos. Os tumores de glândula salivar representam uma pequena porcentagem das patologias malignas da região de cabeça e pescoço, podendo ocorrer em adultos e em crianças. O diagnóstico dificilmente é precoce e a taxa de sobrevida é extremamente baixa comparada aos demais tumores da região. Assim, este estudo teve como objetivo estudar as células provenientes dos tumores de glândula salivar do tipo adenoide cístico (CAC) e adenocarcinoma NOS (AdNOS) quanto ao seu perfil imunofenotípico, quanto à existência ou não de células-tronco tumorais nessa população, bem como investigar possíveis modificações na ativação de STAT3, Akt e ERK (moléculas envolvidas em vias de sinalização de manutenção do tumor), quando em contato com fatores secretados por células endoteliais. Foram coletados 5 CACs e 4 AdNOS, no Hospital da Universidade de Michigan (Ann Arbor, MI, EUA), durante 2010 e 2012. As células foram isoladas e caracterizadas em citometria de fluxo em P0 e P7, demonstrando um perfil de células CD44+ALDH+Lin- variando de 0,33 a 3,19% e 0,36 a 2,00%, respectivamente, entre 5 linhagens avaliadas. Na avaliação por western blotting, a e-caderina, o Snail e a actina de músculo liso foram ausentes em todos os tipos tumorais, enquanto que a citoqueratina 20 (Ck20) foi presente apenas nos AdNOS. Comparando os tumores com suas metástases, a presença de Ck20, p63 e β-catenina foi semelhante, enquanto que citoqueratina 7, a vimentina e o Bmi-1 foram maiores nas metástases. Tanto os AdNOS quanto CACs apresentaram receptores para IL-6, IL-8 e EGF. Foi observado que mediadores solúveis liberados pelas células endoteliais foram capazes de fosforilar STAT3, Akt e ERK em todas as células salivares estudadas, no entanto, a proteína recombinante humana IL-6, isoladamente, não foi capaz de ativar Akt. Orosferas foram geradas em todos os tipos tumorais, demonstrando o potencial de auto-renovação celular. Um maior número de esferas foi observado nas células metastáticas em relação às primárias. Células CD44+ALDH+, comparadas com CD44-ALDH-, geraram mais esferas, quando plaqueadas em alta densidade (5.000 células). No entanto, o inverso foi encontrado, quando uma única célula foi utilizada para o ensaio (p>0,05). Devido à dificuldade de obtenção e manipulação de células de tumores de glândula salivar, ainda há muito que se investigar mecanisticamente. Considerando a fosforilação de STAT3 na presença de IL-6, semelhante ao verificado em outros tumores, o uso de anticorpos contra IL-6, talvez sejam uma opção no futuro. / Cancer is a public health problem worldwide, with an increase in incidence every year. The process of its evolution is still not completely understood, hindering the development of appropriate therapies. In the search for a better prognosis, recent reports have discussed the role of inflammatory cytokines, perivascular niche and stem cells in the mechanisms of development and maintenance of malignant tumors. The salivary gland tumors represent a small percentage of malignancies of the head and neck and can occur in both adults and children. Early diagnosis is difficult and the survival rate is extremely low compared to other tumors in the same region. Thus, this study aimed to study cells from the adenoid cystic carcinoma (ACC) and adenocarcinoma NOS (AdNOS) tumors of salivary gland regarding its immunophenotypic profile and the existence or absence of tumor stem cells in this population, as well as investigate possible changes in the activation of STAT3, Akt and ERK (molecules involved in signaling pathways of tumor maintenance), when exposed to factors secreted by endothelial cells. ACCs (n=5) and AdNOS (n=4) were collected at the Hospital of the University of Michigan (Ann Arbor, MI, USA), during 2010 to 2012. Cells were isolated and characterized by flow cytometry at P0 and P7, showing a profile of ALDH+CD44+Lin- ranging from 0.33% to 3.19% and 0.36% and 2.00%, respectively, between 5 cell lines evaluated. In the protein profile, e-cadherin, Snail and SMA were absent in all tumor types. Ck20 was present only in AdNOS. Comparing primary tumors and their metastases, the presence of Ck20, and p63 β-catenin was similar, while Ck7, vimentin and Bmi-1 were higher in metastases. Both AdNOS as ACCs had receptors for IL-6, IL-8 and EGF. It was observed that soluble mediators released by endothelial cells were able to activate STAT3, Akt and ERK phosphorylation in all cells studied. However, recombinant human IL-6 alone was not able to activate Akt. Orospheres were generated in all tumor types, indicating the potential for cellular self-renewal. Highest number of spheres was observed in metastatic cells compared to primary. ALDH+CD44+ cells compared to ALDH-CD44- generated more spheres when plated in high density (5,000 cells), however, the opposite was found when one single cell seed was evaluated (p> 0.05). There is doubt if these cell markers would be consider for a stem cell model in salivary tumors. Due to the difficulty of obtaining and manipulating salivary gland tumor cells, there is still much to investigate mechanistically. As the phosphorylation of STAT3, in the presence of IL-6, was similar to that observed in other tumors, the use of antibodies against IL-6, may be an option in the future.

Câncer

Glândulas salivares

Salivary gland tumor

Adenoid cystic carcinoma

Adenocarcinoma

Endothelial cell

STAT3

IL-6

Spheres

The involvement of microglial activation in schizophrenia

van Rees, Geertje Frederique

January 2018

Abnormal activation of brain microglial cells is widely implicated in the pathogenesis of schizophrenia. The disrupted balance of microglia phenotypes has been hypothesized to influence the clinical course of the disease and affect symptom severity. Previously, the pathophysiology of microglial activation was considered to be intrinsic to the central nervous system. We hypothesised that due to their perivascular localization, microglia can also be activated by factors present in circulating blood. We applied a high-content functional screening platform, to characterize alterations in microglial intracellular signalling cascades induced by schizophrenia patient serum relative to control serum. Using automated sample preparation, fluorescent cellular barcoding and flow cytometry, the applied platform is capable of detecting multiple parallel cell signalling responses in microglia. First, we exposed a human microglia cell line to serum isolated from first-onset drug-naïve schizophrenia patients (n=60) and healthy controls (n=79). We were able to show that peripheral blood serum obtained from schizophrenia patients induced differential microglial cell signalling network responses in vitro. We subsequently assessed whether antipsychotic drug-treatment can normalise the abnormal microglial signalling responses previously identified by exposing microglia cells to serum from antipsychotic treated schizophrenia patients (n=15) and controls (n=17). In addition, in order to assess microglia activation in vivo, we obtained positron emission tomography (PET) imaging data from collaborators, who used a radiotracer to assess potential altered microglia activation in patients suffering from schizophrenia. Finally, as a proof of concept study, we attempted to validate these findings by assessing the effect of serum collected from first-onset drug-naïve schizophrenia patients (n=9), controls (n=12) as well as serum isolated from the same patients subjected to six weeks of clinical treatment with the antipsychotic olanzapine (n=9). This study aimed to identify normalisation of previously detected differences in microglia signalling pathways based on successful in vivo treatment. We demonstrate that peripheral blood serum isolated from schizophrenia patients, independent of their treatment status, is sufficient to trigger microglial cell signalling network responses in vitro, which are indicative of altered STAT3 signalling. We further explored the composition of the serum for differential expression of analytes, previously associated with neuropsychiatric disorders, and the utility of the detected microglial cellular phenotype as a target for novel drug discovery.

Oncostatin M receptor overexpression promotes tumour progression in squamous cell carcinoma, via hypoxia signalling and multiple effects on the tumour microenvironment

Tulkki, Valtteri Heikki Juhani

January 2018

Cervical cancer still represents the fourth most common cause of cancer deaths in women worldwide. Human papilloma virus (HPV) infection plays a role in cervical carcinoma initiation, but other genomic changes are needed for pre-malignant abnormalities to fully develop to cancer. This often happens through genomic instability caused by the virus oncoproteins. Several integrative genomic analysis studies have found that one of the most common imbalances in cervical squamous cell carcinoma (SCC) is copy number gain and amplification of chromosome 5p. In this region, copy number gain of the OSMR gene was found to correlate significantly with adverse outcome independent of the tumour stage (p=0.046). Furthermore, this copy number gain correlated with Oncostatin M receptor (OSMR) overexpression and sensitised these cells to Oncostatin M (OSM) leading to increased Signal transducer and activator of transcription 3 (STAT3) phosphorylation, cell migration, invasion and proangiogenic signalling. The aim of this PhD project was to study the role of OSMR overexpression in the SCC tumour microenvironment (TME) and tumour growth in vivo and to study the role of hypoxia inducible factor driven hypoxia signalling in OSMR overexpressing SCC cells and their tumour microenvironment. OSMR overexpression was found to sensitise tumour cells to induce Hypoxia inducible factor 1a and 2a (HIF1a, HIF2a) signalling in normoxic conditions, to promote pro-angiogenic signalling. Furthermore, hypoxic conditions were found to enhance OSM signalling in OSMR overexpressing cells leading to increased expression of markers of epithelial to mesenchymal transition, angiogenesis and migration. In the SCC tumour microenvironment, OSMR overexpression was found to sensitise tumour cells to OSM secreted from macrophages and other immune cells leading to improved tumour growth, angiogenesis and STAT3 activation at the tumour site. Removal of OSMR from either tumour cells or tumour microenvironment led to reduced tumour growth and angiogenesis, along with increased tumour necrosis. I conclude that OSMR overexpression is an important driver of SCC tumour progression and malignancy via STAT3- and HIF-driven signalling and removal of it from either tumour cells or tumour microenvironment drastically hampers tumour growth in vivo. Based on the results of this study, OSMR blockade is a potential novel therapeutic option in advanced SCC.

Caracterização in vitro de células de cultura primária de tumores de glândula salivar : avaliação da auto-renovação e dos efeitos da IL-6 secretada por células endoteliais na fosforilação de STAT3, Akt e ERK / In vitro characterization of primary cell cultures from salivary gland tumors : analysis of self-renew and effect of IL-6 secreted by endothelial cells in the phosphorylation of STAT3, Akt and ERK

Bernardi, Lisiane

January 2013

O câncer é um problema de saúde pública mundial, apresentando acréscimo na sua incidência a cada ano. O seu processo de evolução ainda não foi completamente desvendado, dificultando a elaboração de terapias adequadas. Na busca por um melhor prognóstico, pesquisas recentes têm discutido o papel das citocinas inflamatórias, do nicho perivascular e das células-tronco nos mecanismos de desenvolvimento e manutenção dos tumores malignos. Os tumores de glândula salivar representam uma pequena porcentagem das patologias malignas da região de cabeça e pescoço, podendo ocorrer em adultos e em crianças. O diagnóstico dificilmente é precoce e a taxa de sobrevida é extremamente baixa comparada aos demais tumores da região. Assim, este estudo teve como objetivo estudar as células provenientes dos tumores de glândula salivar do tipo adenoide cístico (CAC) e adenocarcinoma NOS (AdNOS) quanto ao seu perfil imunofenotípico, quanto à existência ou não de células-tronco tumorais nessa população, bem como investigar possíveis modificações na ativação de STAT3, Akt e ERK (moléculas envolvidas em vias de sinalização de manutenção do tumor), quando em contato com fatores secretados por células endoteliais. Foram coletados 5 CACs e 4 AdNOS, no Hospital da Universidade de Michigan (Ann Arbor, MI, EUA), durante 2010 e 2012. As células foram isoladas e caracterizadas em citometria de fluxo em P0 e P7, demonstrando um perfil de células CD44+ALDH+Lin- variando de 0,33 a 3,19% e 0,36 a 2,00%, respectivamente, entre 5 linhagens avaliadas. Na avaliação por western blotting, a e-caderina, o Snail e a actina de músculo liso foram ausentes em todos os tipos tumorais, enquanto que a citoqueratina 20 (Ck20) foi presente apenas nos AdNOS. Comparando os tumores com suas metástases, a presença de Ck20, p63 e β-catenina foi semelhante, enquanto que citoqueratina 7, a vimentina e o Bmi-1 foram maiores nas metástases. Tanto os AdNOS quanto CACs apresentaram receptores para IL-6, IL-8 e EGF. Foi observado que mediadores solúveis liberados pelas células endoteliais foram capazes de fosforilar STAT3, Akt e ERK em todas as células salivares estudadas, no entanto, a proteína recombinante humana IL-6, isoladamente, não foi capaz de ativar Akt. Orosferas foram geradas em todos os tipos tumorais, demonstrando o potencial de auto-renovação celular. Um maior número de esferas foi observado nas células metastáticas em relação às primárias. Células CD44+ALDH+, comparadas com CD44-ALDH-, geraram mais esferas, quando plaqueadas em alta densidade (5.000 células). No entanto, o inverso foi encontrado, quando uma única célula foi utilizada para o ensaio (p>0,05). Devido à dificuldade de obtenção e manipulação de células de tumores de glândula salivar, ainda há muito que se investigar mecanisticamente. Considerando a fosforilação de STAT3 na presença de IL-6, semelhante ao verificado em outros tumores, o uso de anticorpos contra IL-6, talvez sejam uma opção no futuro. / Cancer is a public health problem worldwide, with an increase in incidence every year. The process of its evolution is still not completely understood, hindering the development of appropriate therapies. In the search for a better prognosis, recent reports have discussed the role of inflammatory cytokines, perivascular niche and stem cells in the mechanisms of development and maintenance of malignant tumors. The salivary gland tumors represent a small percentage of malignancies of the head and neck and can occur in both adults and children. Early diagnosis is difficult and the survival rate is extremely low compared to other tumors in the same region. Thus, this study aimed to study cells from the adenoid cystic carcinoma (ACC) and adenocarcinoma NOS (AdNOS) tumors of salivary gland regarding its immunophenotypic profile and the existence or absence of tumor stem cells in this population, as well as investigate possible changes in the activation of STAT3, Akt and ERK (molecules involved in signaling pathways of tumor maintenance), when exposed to factors secreted by endothelial cells. ACCs (n=5) and AdNOS (n=4) were collected at the Hospital of the University of Michigan (Ann Arbor, MI, USA), during 2010 to 2012. Cells were isolated and characterized by flow cytometry at P0 and P7, showing a profile of ALDH+CD44+Lin- ranging from 0.33% to 3.19% and 0.36% and 2.00%, respectively, between 5 cell lines evaluated. In the protein profile, e-cadherin, Snail and SMA were absent in all tumor types. Ck20 was present only in AdNOS. Comparing primary tumors and their metastases, the presence of Ck20, and p63 β-catenin was similar, while Ck7, vimentin and Bmi-1 were higher in metastases. Both AdNOS as ACCs had receptors for IL-6, IL-8 and EGF. It was observed that soluble mediators released by endothelial cells were able to activate STAT3, Akt and ERK phosphorylation in all cells studied. However, recombinant human IL-6 alone was not able to activate Akt. Orospheres were generated in all tumor types, indicating the potential for cellular self-renewal. Highest number of spheres was observed in metastatic cells compared to primary. ALDH+CD44+ cells compared to ALDH-CD44- generated more spheres when plated in high density (5,000 cells), however, the opposite was found when one single cell seed was evaluated (p> 0.05). There is doubt if these cell markers would be consider for a stem cell model in salivary tumors. Due to the difficulty of obtaining and manipulating salivary gland tumor cells, there is still much to investigate mechanistically. As the phosphorylation of STAT3, in the presence of IL-6, was similar to that observed in other tumors, the use of antibodies against IL-6, may be an option in the future.

Câncer

Glândulas salivares

Salivary gland tumor

Adenoid cystic carcinoma

Adenocarcinoma

Endothelial cell

STAT3

IL-6

Spheres

Rôles des cellules myéloïdes suppressives et des lymphocytes Th17 dans le cancer / Roles of myeloïd derived suppressor cells and Th17 lymphocytes in cancer

Chalmin, Fanny

04 July 2012

Le système immunitaire joue un double rôle dans le cancer: il peut non seulement supprimer la croissance tumorale en détruisant les cellules cancéreuses, mais aussi promouvoir la progression de la tumeur en sélectionnant les cellules tumorales ou en créant un microenvironnement tumoral immunosuppresseur. Au cours de ma thèse, je me suis intéressée à deux populations du système immunitaire : les MDSC (Myeloïd Derived Suppressor Cells) et les lymphocytes Th17. Dans ce travail, nous avons exploré les mécanismes impliqués dans l’activation et dans les fonctions suppressives de ces deux populations cellulaires au cours de la croissance tumorale. Tout d’abord, nous avons montré que les cellules tumorales activaient les MDSC en libérant des exosomes exprimant HSP72 à leur surface. HSP72 à la surface des exosomes permet l’activation de STAT3 via la voie de signalisation TLR2/Myd88 dans les MDSC et favorise leur fonction suppressive. Le facteur de transcription STAT3 joue aussi un rôle fondamental dans la différenciation des lymphocytes Th17. Le rôle des lymphocytes Th17 est controversé dans la croissance tumorale. Nous avons découvert que les lymphocytes Th17 exprimaient les ectonucléotidases CD39 et CD73 soutenant ainsi leur fonction suppressive. L'expression des ectonucléotidases est dépendante de l’activation de STAT3 par l’IL-6 et de l’inhibition de Gfi-1 par le TGFβ lors de leur différenciation. / Immune system plays a dual role in cancer: it can not only suppress tumor growth by destroying cancer cells, but also promote tumor progression by selecting immunoresistant tumor cells or by establishing an immunosuppressive microenvironment.During my thesis, I focused on two populations of the immune system: MDSC (myeloid derived suppressor cells) and Th17 lymphocytes. In this work, we explored the mechanisms involved in the activation of suppressive functions of these two cell populations during tumor growth. First, we showed that tumor cells activated MDSC by releasing exosomes that express HSP72 on their surface. HSP72 on exosomes surface induces STAT3 activation via Myd88/TLR2 signaling pathway in MDSC and promotes their suppressive function. The transcription factor STAT3 also plays a fundamental role in Th17 cells differentiation. The role of Th17 cells is controversial in tumor growth. We reported that Th17 cells express CD39 and CD73 ectonucleotidases and thereby supporting their suppressive function. The expression of ectonucleotidases is dependent on the activation of STAT3 by IL-6 and inhibition of Gfi-1 by TGFβ during their differentiation.

Immunosurveillance

MDSC

Th17

Cancer

STAT3

HSP72

Exosome

Ectonucleotidase

No english keywords

616

616.9

571.6

ESTUDIO DE LA RUTA CELULAR JAK2/STAT3 COMO POTENCIAL INHIBIDOR EN EL MODELO DE FIBROSIS PULMONAR

Hernández Ribes, Gracia

16 May 2016

[EN] Idiopathic pulmonary fibrosis (IPF) is the pulmonary disease with higher incidence and worse prognosis. Recent evidence suggests that cucurbitaceae, selective inhibitors of the JAK2/STAT3 pathway, may improve the pathogenesis of IPF, as anti-inflammatory and antioxidative properties have been confirmed in other diseases. However the role in IPF is unknown. Two pharmacological models were investigated in the present study. In the preventive model, Wistar rats were instilled intratracheally with a single dose of bleomycin (BLM)(3.75 U/kg; n=12) to induce lung injury. CuI (20mg/kg/day; n=6) or CuI vehicle (control and IPF group) was administered intraperitoneally daily for 21 days. The therapeutic model was exactly the same starting CuI administration on day 7 until day 21. Animal evolution together with the ventilation-perfusion ratio was controlled through CT/SPECT imaging. Cellular count and characterization was performed in broncoalveolar lavage (BAL) together with the total protein content and the IL-6 and IL-13 concentration in BAL and lung tissue. Hematoxilin-eosin and masson trichrome stains allowed the study of the lung's tissue histology. TGF-ß1, CTGF, COL1A and ET-1 gene and protein expression were both measured by real time PCR and WB as pulmonary vascular remodeling markers. P-STAT3, P-SMAD3 and P-JAK2 proteins were determined by protein and immunohistochemistry quantification. Finally, JAK2 and STAT3 expression and distribution was studied in lung tissue of fibrotic patients with pulmonary hypertension. CT/SPECT quantification showed reduction of the fibrotic areas in the CuI treated group by reestablishing the air space in the lungs back to day 0 levels for the preventive and the therapeutic model. Furthermore, ventilation/perfusion correlation was restored in the therapeutic model after administrating CuI during 14 days. Hematoxilin-eosine stains demonstrated how the group treated pharmacologically presented an improvement in the lung tissue architecture, reversing vascular remodeling and right heart hypertrophy. Masson trichrome stain revealed a reduction of the collagen deposits. Ashcroft score, used to determine the severity of pulmonary fibrosis, was measured and diminished significantly in the CuI treated group. The results showed a gene and protein overexpression of TGF-ß1, CTGF, COL1A and ET-1 in BLM relative to Control rats. This was counteracted with CuI treatment which reduced the expression back to control. In terms of immunohistochemistry, the results demonstrated a decrease in the COL1A deposits in the treated group versus the absence of treatment group. Protein and immunohistochemistry analysis of JAK2, STAT3 and SMAD3 demonstrated an overexpression in bleomycin rats while the protein expression was inhibited in the CuI treated group. In accordance to the results obtained, the immunohistochemistry analysis of the lung parenchyma in patients with pulmonary hypertension related to pulmonary fibrosis showed and overexpression of the phosphorylated forms of JAK2 and STAT3, lacking its expression in healthy lung tissue. The preventive and therapeutic administration of JAK2/STAT3 inhibitor can be a potential treatment for pulmonary fibrosis, as it improves the parameters related to the disease. / [ES] La fibrosis pulmonar idiopática (FPI) es la enfermedad pulmonar con mayor incidencia y peor pronóstico. Estudios recientes sugieren que la familia de las cucurbitaceae, inhibidores selectivos de la ruta JAK2/STAT3, pueden mejorar la patogénesis de la enfermedad, al haberse confirmado sus propiedades antinflamatorias y antioxidantes en otras enfermedades. Sin embargo se desconoce su papel en FPI. En el presente trabajo se estudiaron dos modelos farmacológicos. En el modelo preventivo las ratas Wistar fueron instiladas con una dosis única de bleomicina intratraqueal (BLM)(3.75 U/kg; n=12) para inducir las lesión pulmonar. Durante 21 días se administró CuI (20mg/kg/día; n=6) o vehículo de CuI (control y grupo FPI) por vía intraperitoneal. El modelo curativo se diferencia del preventivo en el comienzo de la administración farmacológica a los 7 días de inducir la enfermedad. El seguimiento de la evolución animal y el ratio de ventilación-perfusión se realizó mediante las técnicas de imagen TC/SPECT. Se realizó el recuento y caracterización de las células totales extravasadas en lavado broncoalveolar (LBA) así como el contenido de proteína total y la concentración de IL- 6 e IL-13 en LBA y tejido pulmonar. Las tinciones de hematoxilina-eosina y masson tricrómico permitieron el estudio de la histología del tejido pulmonar. Se determinó la expresión génica y proteica de TGF-ß1, CTGF, COL1A y ET-1 mediante las técnicas de real time PCR y WB como marcadores de remodelado vascular. Las proteínas P-STAT3, P-SMAD3 y P-JAK2, fueron determinadas mediante cuantificación proteica e inmunohistoquimia. Por último se estudió la expresión y distribución de JAK2 y STAT3 en tejido de pacientes con fibrosis pulmonar e hipertensión pulmonar. La cuantificación de las imágenes TC/SPECT mostraron una reducción de las áreas fibróticas en el grupo tratado con CuI. El tratamiento farmacológico permitió el restablecimiento del espacio aéreo pulmonar hasta valores control en ambos modelos estudiados. El grupo con tratamiento farmacológico restauró el ratio de ventilación/perfusión tras administrar CuI durante 14 días. Las tinciones de hematoxilina eosina revelaron como el grupo animal tratado farmacológicamente presenta una mejora de la histología pulmonar, revirtiendo el remodelado vascular y la hipertrofia del ventrículo derecho. La tinción de masson tricrómico mostró una disminución de los depósitos de colágeno. Se determinó el valor de Ashcroft, evaluador del grado de fibrosis pulmonar, que descendió significativamente en el grupo tratado con CuI. Los resultados presentan una sobrexpresión génica y proteica de TGF-ß1, CTGF, COL1A y ET-1 en los grupos de bleomicina frente a las ratas control. Dicha condición fue revertida mediante el tratamiento con CuI que restableció los valores a niveles control. Los análisis proteicos e inmunohistoquíimicos de JAK2, STAT3 y SMAD3 revelaron una sobreexpresión en las ratas con bleomicina mientras que la expresión proteica fue inhibida en el grupo tratado con CuI. En consonancia con los resultados obtenidos, el análisis inmunohistoquímico del parénquima pulmonar de pacientes con FPI e HP asociada muestran una sobreeexpresión de las formas fosforiladas de JAK2 y STAT3 frente a la ausencia de expresión en tejido pulmonar sano. La administración curativa y preventiva de un inhibidor de la ruta JAK2/STAT3 puede ser un potencial tratamiento para la fibrosis pulmonar, ya que mejora parámetros indicativos de la patología. / [CAT] La fibrosi pulmonar idiopàtica (FPI) és la enfermetat pulmonar amb major incidència i pitjor pronostic. Estudis recents suggereixen que la família de les cucurbitàcies, Inhibidors selectius de la ruta JAK2 / STAT3, poden millorar la patogènesi de la malaltia, en haver-se confirmat les seues propietats antiinflamatòries i antioxidants En altres patologies. No obstant això es desconeix el seu paper en FPI. En el present treball es van estudiar 2 models farmacològics. En el model preventiu les rates Wistar foren instilades amb una dosi única de bleomicina intratraqueal (BLM) (3,75 U / kg; n = 12) per a induir les lesions pulmonars. Durant 21 dies es va administrar CuI (20 mg / kg / dia, n = 6) o Vehicle de CuI (control i grup FPI) per vía intraperitoneal. El model curatiu es diferència del preventiu en el començament de l'administració farmacológica als 7 dies d'induir l'enfermetat. El seguiment de l'evoluciò dels animals i el ratio de Ventilació-perfusió es va realitzar mitjançant tècniques d'imatge TC/SPECT. Es realitzà el recompte i caracterització de les cèl·lules totals extravasades en el llavat broncoalveolar (LBA). Així com el contingut de proteina total i la concentració d'IL-6 i IL-13 en LBA i teixit pulmonar. Les tincions d'hematoxilina-eosina i tricròmic de Masson van permetre l'estudi de la histologia del teixit pulmonar. Es va determinar l'expressió gènica i proteica de TGF-ß1, CTGF, COL1A i Et-1 mitjançant tècniques de PCR en temps real i WB com marcadors de remodelat vascular. Les proteïnes P-STAT3, P-SMAD3 i P-JAK2, varen ser determinades mitjançant quantificació proteica i inmunohistoquimia. Per últim se estudià l'expressió i distribució de JAK2 i STAT3 en teixit de pacients amb fibrosi pulmonar e hipertensió pulmonar. La quantificació de les imatges TC/SPECT mostraren una reducció de les àrees fibrótiques en el grup tractat amb CuI. El tractament farmacològic permet el restabliment de l'espai aeri pulmonar fins valors de control en els dos models estudiats. El grup amb tractament farmacològic va restaurar el ratio de ventilació/perfusió tras administrar Cul durant 14 dies. Les tincions d'hematoxilina eosina van revelar com el grup animal tractat farmacològicament presenta una Millora de la histologia pulmonar, revertint el remodelat vascular i la hipertròfia del ventricle dret. La tinció de tricròmic de Masson va mostrar una disminució dels dipòsits de col·lagen. Es va determinar el valor d'Ashcroft, avaluador del grau de fibrosi pulmonar, que va baixar significativament a el grup tractat amb CuI. Els resultats presenten una sobreexpressió gènica i proteica de TGF-ß1, CTGF, COL1A i Et-1 en els grups de bleomicina en comparacióa les rates control. Aquesta condició va ser revertida mitjançant el tractament amb CuI que va restablir els valors fins a nivel dels control. A nivell immunohistoquímic els resultats mostren una disminució dels dipòsits de COL1A en el grup tractat comparativament al grup sense tractament. Els anàlisi proteics i inmunohistoquíimics de JAK2, STAT3 i SMAD3 van revelar una sobreexpressió en les rates amb bleomicina mentre que l'expressió proteica va ser inhibida en el grup tractat amb CuI. D'acord amb els resultats obtinguts, l'anàlisi immunohistoquímic del parènquima pulmonar de pacients amb FPI i HP associada mostren sobreeexpresió de les formes fosforilades de JAK2 i STAT3 davant l'absència d'expressió en teixit pulmonar sa. La administració curativa i preventiva d'un inhibidor de la ruta JAK2 / STAT3 pot ser un potencial tractament per la fibrosi pulmonar, ja que millora paràmetres indicatius de la patologia. / Hernández Ribes, G. (2016). ESTUDIO DE LA RUTA CELULAR JAK2/STAT3 COMO POTENCIAL INHIBIDOR EN EL MODELO DE FIBROSIS PULMONAR [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/64087 / TESIS

Fibrosis pulmonar

Ruta celular JAK2/STAT3

SPECT/CT

SMAD3

Curcubitacina

CuI

Tropocolágeno

Ventilación/perfusión

MICROBIOLOGIA

Relevance physiopathologique des productions cytokiniques dans la Leucémie Lymphoïde Chronique / Cytokines Production Relevance in Chronic Lymphocytic Leukemia Physiopathology

Mhibik, Maissa

19 March 2018

Les lymphocytes B régulent la réponse immunitaire par la sécrétion de facteurs proinflammatoires ou immunosuppresseurs. Dans la Leucémie Lymphoïde Chronique (LLC),une sous-population de lymphocytes B CD5⁺ présente des propriétés immunosuppressives qui l’apparente aux lymphocytes B régulateurs notamment par la production d’IL-10. La survie des cellules leucémiques est, elle, associée à la réponse antigénique et à la production de cytokines dont l’IL-6. L’objectif de ce travail a été de caractériser dans la pathologie les populations produisant les cytokines pro-survie ou immunorégulatrices et d’analyser la relevance fonctionnelle de leur sécrétion. Nous avons identifié des sous-populations de cellules B leucémiques exprimant trois facteurs immunorégulateurs l’IL-10, le TGFβ1 et pour la première fois le facteur de transcription FOXP3, La proportion augmentée de cellules exprimant l’IL10 est associée à une diminution des cellules exprimant l’IL6. De manière importante, ce travail a identifié une boucle autocrine de stimulation de l’activité métabolique des cellules par l’IL10. La cytokine en se fixant à son récepteur permet l’activation des facteurs STAT3 et induit l’expression à la fois de protéines anti- apoptotiques de la famille Bcl2 mais surtout sa propre expression. Un blocage de cette boucle au niveau du récepteur à l’IL10 suspend l’avantage de survie des cellules tumorales. L’IL-6 ne déclenche pas ces mécanismes de maintien des cellules de LLC. Ce travail montre qu’en plus de son rôle sur les cellules du microenvironnement tumoral, l’IL-10 participe au maintien autocrine de la sous-population immunorégulatrice dans la LLC. / B cells produce pro-inflammatory or immunosuppressive factors to modulate the immuneresponse. In Chronic lymphocytic leukemia (CLL), a subset of the tumor lymphocytes produces IL10 and share immunoregulatory functions with regulatory B cells. CLL cell ssurvival is driven by antigenic response and pro-survival cytokines such as IL6. This project aimed at deciphering the cytokines profile of CLL subsets and analyzing their functional relevance. We identified immunoregulatory subsets producing IL-10, TGFβ1 and for the firsttime FOXP3. In patients, the increased proportion of cells expressing IL10 was correlated with decrease in IL6⁺ cells. Importantly we described an autocrine survival loop driven by IL10 in these cells. IL10 triggering led to STAT3 activation, induction of active pro-survival factors altogether with IL10 self-induction. Interrupting this loop with a blocking ab against IL10R prevented survival of the cells. IL6 did not manage such mechanisms. In conclusion,this work demonstrates that IL10 is an important mediator in CLL; the cytokine alters immune recognition of the tumor cells and sustains leukemic cells survival via the autocrine loop.

Il-10

STAT3

Régulation autocrine

Survie cellulaire

B régulateurs

FOXP3

Autocrine Regulation

Cell Survival

Small molecule TCS21311 can replace BMP7 and facilitate cell proliferation in in vitro expansion culture of nephron progenitor cells / 低分子化合物TCS21311はネフロン前駆細胞のin vitro拡大培養においてBMP7を代替し細胞増殖を促進する

Tsujimoto, Hiraku

27 July 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22692号 / 医博第4636号 / 新制||医||1045(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 柳田 素子, 教授 斎藤 通紀, 教授 川口 義弥 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

BMP7

TCS21311

JAK3

STAT3

nephron progenitor cell

iPSC

expansion culture

490

Discovery of a Novel Regulatory Mechanism of TNK1 by 14-3-3 and Its Ubiquitin Association Domain Provides a Potential Therapeutic Targeting Opportunity in Cancer

Chan, Tsz Yin

03 August 2020

While a relatively limited number of known oncogenes underlie a large percentage of cancers, a variety of new genes have emerged as low-frequency cancer drivers. Each of these new oncogenes represents a frontier for targeted therapy. However, the discovery of low-frequency targetable oncogenic drivers is challenging. This study focuses on the poorly understood Tyrosine kinase non-receptor-1 (TNK1), which has been reported to have both oncogenic and tumor suppressive functions. TNK1 has been identified to promote cancer cells survival and promote chemoresistance in multiple independent studies. On the other hand, whole-body constitutive deletion of TNK1 in mice caused an increase in spontaneous carcinomas and lymphomas. All in all, with no known regulatory mechanism and substrates of TNK1, the precise biological role of TNK1 is still unclear. To understand how TNK1 is regulated, we employed a proteomic approach to identify TNK1 interactors. We found out that TNK1 interacts with the phospho-binding protein 14-3-3 and this interaction is mediated by a cluster of MARK-mediated phosphorylations within the proline-rich domain. 14-3-3 binding retains TNK1 in the cytosol and maintains TNK1 in an inactive state. Release of TNK1 from 14-3-3 binding drives TNK1 to a heavy membrane fraction, where it becomes highly active. One unique feature of TNK1 is an ubiquitin association domain (UBA) on its C-terminus. Our data suggest that the UBA domain of TNK1 binds to poly-ubiquitin chains in nondiscriminatory manner. Remarkably, point mutations within the UBA that disrupt ubiquitin binding abolish TNK1 activation and oncogenic signaling, suggesting, to our knowledge, a unique UBA-centric mechanism of tyrosine kinase regulation. Finally, we used a structure-guided approach to identify a small molecule inhibiting TNK1 with high potency and selectivity. Such compound, TP-5801, inhibits TNK1 dependent STAT3 phosphorylation. TP-5801 also prolongs the survival of mice injected via tail vein with TNK1-driven Ba/F3 cells and reduces tumor burden in a subcutaneous xenograft model. In conclusion, our data reveal a mechanism of TNK1 regulation that controls its oncogenic tyrosine kinase activity and a potential strategy for TNK1 inhibition.

tyrosine kinase

TNK1

14-3-3

Ubiquitin association domain

UBA

MARK

STAT3

Physical Sciences and Mathematics

The Role of Signal Transducer and Activator of Transcription 1 (STAT1) and 3 (STAT3) in Primary and Metastatic Breast Cancer

Remah Ali (8086364)

05 December 2019

<p>Breast cancer is the most frequently diagnosed malignancy and the second most lethal cancer in women. Metastasis in breast cancer is invariably responsible for patient death and is comprised of many steps, of which proliferation in vital organs is responsible for morbidity and mortality due to vital organ failure. Patients with the metastatic disease are limited to chemotherapy, which non-specifically targets proliferating cells. Despite it being initially effective, chemotherapy is associated with high toxicity and many patients develop resistance. Thus, there is an urgent need to characterize the biology of metastatic breast cancer to develop targeted therapies for the late-stage disease.</p> <p>EGFR is a member of the ErbB family of receptor tyrosine kinases, which have particular relevance in breast tumorigenesis. Clinical studies show that high expression levels of EGFR in the primary mammary tumors correlate with poor prognosis and decreased survival of breast cancer patients due to metastasis. Patient data is supported by experimental and pre-clinical studies, which describe various signaling pathways that mediate the oncogenic effects of EGFR, such as the MAPK, STAT3, and PI3K pathways. Despite these well-documented roles of EGFR, clinical trials evaluating EGFR inhibitors (EGFRi) in metastatic breast cancer have been unanimously unsuccessful in improving patient prognosis, and the mechanisms that contribute to this intrinsic resistance are unknown.</p> <p>To characterize the signaling events that govern EGFR behavior in metastatic breast cancer resistant to EGFRi, we utilized multiple pre-clinical breast cancer progression series and patient-derived cells that display the intrinsic resistance phenomenon. In these models, EGFR functions as a pro-apoptotic molecule whose ligand-mediated activation results in growth inhibition and/or apoptosis of metastatic breast cancer cells. Here we show that in the later stages of metastasis, increased nuclear translocation of EGFR leads to increased physical access to STAT1 and STAT3 molecules residing in the nucleus. Indeed, an EGFR mutant that is defective in endocytosis is unable to elicit STAT1/3 phosphorylation. Additionally, specific inhibition of nuclear EGFR function using the EGFR kinase inhibitor gefitinib linked to a nuclear localization signal (NLS-gefitinib) prevents EGF-induced STAT1/3 phosphorylation. Altogether, these findings implicate nuclear localization of EGFR in downstream STAT1/3 signaling in metastatic breast cancer.</p> <p>Subsequently, we examined the involvement of nuclearly-activated STAT1/3 signaling in the apoptotic function of EGFR. NLS-gefitinib treatment or genetic/pharmacologic inhibition of STAT1/3 efficiently blocks EGF-induced apoptosis in metastatic breast cancer cells resistant to EGFRi. These findings were utilized therapeutically by activating EGFR with EGF treatment while simultaneously blocking the downstream proliferative MAPK:ERK1/2 pathway using the MEK1/2 inhibitor trametinib. EGF + trametinib combination preserved STAT1 signaling while effectively blocking the MAPK pathway, thus potentiating EGF-mediated apoptosis in metastatic breast cancer cells. Importantly, combined administration of trametinib and EGF resulted in STAT1-mediated apoptosis of primary mammary tumor cells, which respond to EGF in a proliferative fashion. These data provide a novel approach of targeting metastatic breast cancer by biasing EGFR signaling towards nuclear activation of STAT1/3 signaling resulting in apoptosis.</p> Our studies herein also examined the role of STAT3 in primary mammary tumor cells overexpressing EGFR. Depletion of STAT3 expression normalized the transformed phenotype of these cells <i>in vitro</i> and resulted in smaller mammary tumors <i>in vivo</i>. These results implicate STAT3 in EGFR-driven breast tumorigenesis localized to the mammary tissues. Further, systemic dissemination of breast cancer is associated with activation of the JAK1/2:STAT3 signaling axis. Despite the involvement of STAT3 in EGFR-mediated oncogenesis in the primary tumor setting, targeting JAK1/2:STAT signaling with the JAK1/2 inhibitor ruxolitinib proved ineffective in inhibiting the growth and invasion of metastatic cells derived from these primary tumors. These results are in agreement with the role of STAT1/3 in driving the pro-apoptotic function of EGFR in metastatic breast cancer cells. Altogether, these investigations provide a plausible explanation for the inability of JAK1/2 inhibitors to effectively target metastatic breast cancer in clinical and experimental investigations. Further, these findings indicate that the development of therapeutics or molecular tools that efficiently activate STAT1/3 signaling in metastatic breast cancer may represent an important concept for eradicating tumors resistant to targeted therapies.

Cancer Cell Biology

Basic Pharmacology

Metastatic breast cancer

STAT1

STAT3

EGFR