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Analyse des Hedgehog-Signalweges in Zellkulturen maligner GliomeBraun, Stefanie Anett 08 January 2013 (has links) (PDF)
Hedgehog-signalling in malignant gliomas
The Hedgehog signalling pathway is important for the development of the central nervous system. On the other hand, aberrant induction is observed in different tumors. Immunofluorescence and real-time qRT-PCR confirmed that in some gliomas, specifically in Glioblastoma multiforme (GBM), Gli1, a transcription factor activated by signalling, is present. In general, the hedgehog pathway is initiated by binding of extracellular ligands to the transmembrane receptor Patched and leads finally to the activation of the transcription factors Gli1, Gli2, Gli3 and Gli4. Whereas Gli1 acts as an activator, Gli2 appears to be an activator but retains some repressor activities and Gli3 and Gli4 are believed to act only as inhibitors. Therefore, the determination of hedgehog activity at the level of transcription requires additional experiments measuring gene activation.
For that reason, cells isolated from 13 tumors of patients with glioblastoma (WHO Grade IV) and cells from two different glioma cell lines were transfected with reporter genes. These reporter genes carried the luciferase gene from Gaussia princeps under the control of two promoters (pT109 and pT81) conjugated to Gli binding sites. The activity of the reporter genes was compared to a control plasmid with mutant Gli-binding sites. In addition reporter gene activity was analysed in the absence and presence of the hedgehog signalling inhibitor cyclopamine and the effect of cyclopamine on cellular metabolism was studied.
The analysis revealed that the two cell lines and cells from 6 glioblastomas exhibited enhanced reporter gene activity compared to the activity mutant control. This points towards an enhanced expression of Gli1. In three cultures a repression was detected suggesting that Gli3 may be active in these cells. Four cultures did neither show activation nor repression. This could provide evidence that Gli1 and Gli3 effects cancel each other out or that there is no effect at all. Enhanced luciferase activity in cells from the line T98G and in cells from four primary cultures was not influenced by the hedgehog inhibitor cyclopamine, whereas one cell line significantly responded to its presence with a decreased activity. Interestingly, ATP level was suppressed by cyclopamine in cells from the line T98G and also in cells from one primary culture that responded to the inhibitor. This may point towards an effect of cyclopamine independent of smo.
Since cyclopamine is a potential new substance for the treatment of tumors, the observed effect of this inhibitor even in cells without an indication of hedgehog signalling activity should be investigated in further experiments in more detail. / Der Hedgehog (Hh) -Signalweg spielt während der Embryonalentwicklung eine wichtige Rolle, so auch bei der Entstehung des zentralen Nervensystems (Varjosalo & Taipale 2008). Andererseits führt seine unregulierte Aktivität zur Ausbildung verschiedenster Tumore (Bailey et al. 2009; Fiaschi et al. 2009; Shaw et al. 2009; Velcheti & Govindan 2007). Vorausgegangene Studien wiesen durch Immunfluoreszenz und real-time qRT-PCR nach, dass auch in Gliomen, speziell in Glioblastoma multiforme, dem agressivsten Hirntumor des Menschen, Effektoren des Signalweges (Gli1) überexprimiert werden (Wang et al. 2010). Die Aktivierung des Signalweges geschieht über Bindung des Hh-Liganden an den Rezeptor Ptch und endet mit der Aktiverung der Transkriptionsfaktoren der Gli Familie (Kinzler & Vogelstein 1990; Stone et al. 1996). Die aktuell bekannten Vertreter dieser Familie sind der Aktivator der Transkription Gli1, Gli2, der als Aktivator und Repressor agieren kann sowie Gli3 und Gli4, die die Transkription inhibieren (Marine et al. 1997; Ruppert et al. 1988). Ziel dieser Arbeit war es, herauszufinden, inwieweit die Transkriptionsfaktoren der Gli-Familie in Zellen von Glioblastoma multiforme aktiv sind.
Dafür wurden Zellen aus Tumormaterial isoliert und daraus Primärkulturen hergestellt. In diese 13 Primärkulturen, wie auch in zwei Gliom-Zelllinien, wurden mittels transienter Transfektion Reporterplasmide eingebracht. Diese enthielten ein Gen der Gaussia-Luciferase, das unter der Kontrolle zweier verschiedener Promotoren (pT109 und pT81) mit Bindungsmotiven für die Transkriptionsfaktoren der Gli-Familie stand. Weiterhin wurde der Einfluss des Inhibitors des Hh-Signalweges Cyclopamin auf die Gli-Aktivität und die Metabolische Aktivität der Zellen untersucht.
Die Beobachtungen ergaben, dass die zwei Zelllinien und sechs der primären Kulturen eine erhöhte Luciferaseaktivität und damit gesteigerte Aktivität von Gli1 zeigten. Weiterhin wiesen vier Kulturen eine verminderte Luciferaseaktivität auf. Dies ließ darauf schließen, dass in diesen Zellen Gli3 aktiv war. In den restlichen vier Kulturen zeigte sich keine Veränderung der Luciferaseaktiviät, was für einen Aufhebungseffekt von Gli1 und Gli3 oder gar keinen Effekt spricht. Weiterhin konnte gezeigt werden, dass die Luciferaseaktivität und damit die Aktivität von Gli1 in Zellen der Zelllinie T98G und von vier Primärkulturen nicht durch Cyclopamin beeinflusst wird. Lediglich eine Probe der Primärkulturen reagierte mit einer Abnahme der Luciferaseaktivität. Außerdem konnte Cyclopamin die ATP-Produktion sowohl in Zellen von T98G als auch in Zellen der Zelllinie, deren Gli-Aktivität durch Cyclopamin vermindert wurde, senken. Dies sprach für eine Smo unabhängige Wirkung des Cyclopamins. Da Cyclopamin ein potenzielles Pharmakon für die Antitumortherapie ist, bedarf dieser Umstand näherer Untersuchungen.
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Regulation of Gli proteins by the Hedgehog Signaling PathwayLopez, Lyle Villamater 18 October 2013 (has links)
Hedgehog signaling is essential during embryogenesis and in the maintenance of adult
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The Role of Hedgehog-Gli Pathway Regulators in Skin Development and TumorigenesisLi, Zhu Juan 08 August 2013 (has links)
Proper control of Hedgehog (Hh) signaling is critical for hair follicle morphogenesis and ectopic Hh pathway activity is a hallmark of basal cell carcinoma (BCC), the most common type of skin cancer. Mutations in Hh pathway components such as the Hh-binding receptor PATCHED1 (PTCH1) are frequently found in BCC. However, how Hh pathway activation disrupts normal skin homeostasis to promote BCC formation remains poorly understood. Gli2, the major mediator of Hh signaling is essential for hair follicle development and its overexpression in the epidermis induces BCC formation. Despite the importance of Gli2 in the skin, how it is regulated during skin development and tumorigenesis is unclear. Using a genetic approach with loss-of-function mouse mutants and primary keratinocyte cultures, I have uncovered the distinct and overlapping functions of Sufu and Kif7, two evolutionarily conserved regulators of the Hh pathway, during skin development and tumorigenesis. Sufu and Kif7 play opposing roles in Hh signaling through the regulation of Gli2 subcellular distribution, and Kif7 performs distinct Sufu-dependent and –independent functions. In addition, deletion of both Sufu and Kif7 in embryonic skin leads to complete loss of follicular fate and compromised epidermal differentiation. In the adult skin, inactivation of Sufu does not drive BCC formation and requires additional genetic alterations such as the loss of Kif7. Using a Ptc1 mouse model for BCC, I have identified previously unrecognized molecular pathways and cellular events involved in BCC pathogenesis. This includes, aberrant cell cycle progression, loss of cell cycle checkpoint regulation, and suppression of the p53 response. Overall my work provides critical insight into the molecular control of Hh signaling and the downstream events driving BCC formation.
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The Role of Hedgehog-Gli Pathway Regulators in Skin Development and TumorigenesisLi, Zhu Juan 08 August 2013 (has links)
Proper control of Hedgehog (Hh) signaling is critical for hair follicle morphogenesis and ectopic Hh pathway activity is a hallmark of basal cell carcinoma (BCC), the most common type of skin cancer. Mutations in Hh pathway components such as the Hh-binding receptor PATCHED1 (PTCH1) are frequently found in BCC. However, how Hh pathway activation disrupts normal skin homeostasis to promote BCC formation remains poorly understood. Gli2, the major mediator of Hh signaling is essential for hair follicle development and its overexpression in the epidermis induces BCC formation. Despite the importance of Gli2 in the skin, how it is regulated during skin development and tumorigenesis is unclear. Using a genetic approach with loss-of-function mouse mutants and primary keratinocyte cultures, I have uncovered the distinct and overlapping functions of Sufu and Kif7, two evolutionarily conserved regulators of the Hh pathway, during skin development and tumorigenesis. Sufu and Kif7 play opposing roles in Hh signaling through the regulation of Gli2 subcellular distribution, and Kif7 performs distinct Sufu-dependent and –independent functions. In addition, deletion of both Sufu and Kif7 in embryonic skin leads to complete loss of follicular fate and compromised epidermal differentiation. In the adult skin, inactivation of Sufu does not drive BCC formation and requires additional genetic alterations such as the loss of Kif7. Using a Ptc1 mouse model for BCC, I have identified previously unrecognized molecular pathways and cellular events involved in BCC pathogenesis. This includes, aberrant cell cycle progression, loss of cell cycle checkpoint regulation, and suppression of the p53 response. Overall my work provides critical insight into the molecular control of Hh signaling and the downstream events driving BCC formation.
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Analyse des Hedgehog-Signalweges in Zellkulturen maligner GliomeBraun, Stefanie Anett 06 October 2011 (has links)
Hedgehog-signalling in malignant gliomas
The Hedgehog signalling pathway is important for the development of the central nervous system. On the other hand, aberrant induction is observed in different tumors. Immunofluorescence and real-time qRT-PCR confirmed that in some gliomas, specifically in Glioblastoma multiforme (GBM), Gli1, a transcription factor activated by signalling, is present. In general, the hedgehog pathway is initiated by binding of extracellular ligands to the transmembrane receptor Patched and leads finally to the activation of the transcription factors Gli1, Gli2, Gli3 and Gli4. Whereas Gli1 acts as an activator, Gli2 appears to be an activator but retains some repressor activities and Gli3 and Gli4 are believed to act only as inhibitors. Therefore, the determination of hedgehog activity at the level of transcription requires additional experiments measuring gene activation.
For that reason, cells isolated from 13 tumors of patients with glioblastoma (WHO Grade IV) and cells from two different glioma cell lines were transfected with reporter genes. These reporter genes carried the luciferase gene from Gaussia princeps under the control of two promoters (pT109 and pT81) conjugated to Gli binding sites. The activity of the reporter genes was compared to a control plasmid with mutant Gli-binding sites. In addition reporter gene activity was analysed in the absence and presence of the hedgehog signalling inhibitor cyclopamine and the effect of cyclopamine on cellular metabolism was studied.
The analysis revealed that the two cell lines and cells from 6 glioblastomas exhibited enhanced reporter gene activity compared to the activity mutant control. This points towards an enhanced expression of Gli1. In three cultures a repression was detected suggesting that Gli3 may be active in these cells. Four cultures did neither show activation nor repression. This could provide evidence that Gli1 and Gli3 effects cancel each other out or that there is no effect at all. Enhanced luciferase activity in cells from the line T98G and in cells from four primary cultures was not influenced by the hedgehog inhibitor cyclopamine, whereas one cell line significantly responded to its presence with a decreased activity. Interestingly, ATP level was suppressed by cyclopamine in cells from the line T98G and also in cells from one primary culture that responded to the inhibitor. This may point towards an effect of cyclopamine independent of smo.
Since cyclopamine is a potential new substance for the treatment of tumors, the observed effect of this inhibitor even in cells without an indication of hedgehog signalling activity should be investigated in further experiments in more detail. / Der Hedgehog (Hh) -Signalweg spielt während der Embryonalentwicklung eine wichtige Rolle, so auch bei der Entstehung des zentralen Nervensystems (Varjosalo & Taipale 2008). Andererseits führt seine unregulierte Aktivität zur Ausbildung verschiedenster Tumore (Bailey et al. 2009; Fiaschi et al. 2009; Shaw et al. 2009; Velcheti & Govindan 2007). Vorausgegangene Studien wiesen durch Immunfluoreszenz und real-time qRT-PCR nach, dass auch in Gliomen, speziell in Glioblastoma multiforme, dem agressivsten Hirntumor des Menschen, Effektoren des Signalweges (Gli1) überexprimiert werden (Wang et al. 2010). Die Aktivierung des Signalweges geschieht über Bindung des Hh-Liganden an den Rezeptor Ptch und endet mit der Aktiverung der Transkriptionsfaktoren der Gli Familie (Kinzler & Vogelstein 1990; Stone et al. 1996). Die aktuell bekannten Vertreter dieser Familie sind der Aktivator der Transkription Gli1, Gli2, der als Aktivator und Repressor agieren kann sowie Gli3 und Gli4, die die Transkription inhibieren (Marine et al. 1997; Ruppert et al. 1988). Ziel dieser Arbeit war es, herauszufinden, inwieweit die Transkriptionsfaktoren der Gli-Familie in Zellen von Glioblastoma multiforme aktiv sind.
Dafür wurden Zellen aus Tumormaterial isoliert und daraus Primärkulturen hergestellt. In diese 13 Primärkulturen, wie auch in zwei Gliom-Zelllinien, wurden mittels transienter Transfektion Reporterplasmide eingebracht. Diese enthielten ein Gen der Gaussia-Luciferase, das unter der Kontrolle zweier verschiedener Promotoren (pT109 und pT81) mit Bindungsmotiven für die Transkriptionsfaktoren der Gli-Familie stand. Weiterhin wurde der Einfluss des Inhibitors des Hh-Signalweges Cyclopamin auf die Gli-Aktivität und die Metabolische Aktivität der Zellen untersucht.
Die Beobachtungen ergaben, dass die zwei Zelllinien und sechs der primären Kulturen eine erhöhte Luciferaseaktivität und damit gesteigerte Aktivität von Gli1 zeigten. Weiterhin wiesen vier Kulturen eine verminderte Luciferaseaktivität auf. Dies ließ darauf schließen, dass in diesen Zellen Gli3 aktiv war. In den restlichen vier Kulturen zeigte sich keine Veränderung der Luciferaseaktiviät, was für einen Aufhebungseffekt von Gli1 und Gli3 oder gar keinen Effekt spricht. Weiterhin konnte gezeigt werden, dass die Luciferaseaktivität und damit die Aktivität von Gli1 in Zellen der Zelllinie T98G und von vier Primärkulturen nicht durch Cyclopamin beeinflusst wird. Lediglich eine Probe der Primärkulturen reagierte mit einer Abnahme der Luciferaseaktivität. Außerdem konnte Cyclopamin die ATP-Produktion sowohl in Zellen von T98G als auch in Zellen der Zelllinie, deren Gli-Aktivität durch Cyclopamin vermindert wurde, senken. Dies sprach für eine Smo unabhängige Wirkung des Cyclopamins. Da Cyclopamin ein potenzielles Pharmakon für die Antitumortherapie ist, bedarf dieser Umstand näherer Untersuchungen.
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Hedgehog-GLI Signaling Inhibition Suppresses Tumor Growth in Squamous Lung CancerHuang, Lingling January 2014 (has links)
<p>Lung squamous cell carcinoma (LSCC) comprises ~30% of non-small cell lung cancers, and currently lacks effective targeted therapies. Previous immunohistochemical and microarray studies reported overexpression of Hedgehog (HH)-GLI signaling components in LSCC. However, they addressed neither the tumor heterogeneity nor the requirement for HH-GLI signaling. Here, we investigated the role of HH-GLI signaling in LSCC, and studied the therapeutic potential of HH-GLI pathway suppression. </p><p>Gene expression datasets of two independent LSCC patient cohorts were analyzed to study the activation of HH-GLI signaling. Four human LSCC cell lines were examined for HH-GLI signaling components. Cell proliferation and apoptosis were assayed in these cells after blocking the HH-GLI pathway by lentiviral-shRNA knockdown or small molecule inhibitors. Xenografts in immunodeficient mice were used to determine the <italic>in vivo<italic> efficacy of GLI inhibitor GANT61. </p><p>In both patient cohorts, we found that activation of HH-GLI signaling was significantly associated with the classical subtype of LSCC. <italic>GLI2<italic> expression level was significantly higher than <italic>GLI1<italic>, and displayed strong positive correlations with the prominent markers for the classical subtype (<italic>SOX2<italic>, <italic>TP63<italic> and <italic>PIK3CA<italic>) on chromosome 3q. In cell lines, genetic knockdown of SMO produced minor effects on cell survival, while GLI2 knockdown significantly reduced proliferation and induced extensive apoptosis. Consistently, the SMO inhibitor GDC-0449 resulted in limited cytotoxicity in LSCC cells, whereas the GLI inhibitor GANT61 was very effective. Importantly, GANT61 demonstrated specific <italic>in vivo<italic> anti-tumor activity in xenograft models of GLI-positive cell lines. </p><p>Taken together, we report SMO-independent regulation of GLI in LSCC, and demonstrate an important role for GLI2 in LSCC. Different from standard-of-care chemotherapy or small molecule inhibition of kinase signaling cascades, we present a novel and potent strategy to treat a subset of LSCC patients by targeting the GLI transcriptional network.</p> / Dissertation
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Quantification of Impurities in Prairie Snowpacks and Evaluation and Assessment of Measuring Snow Parameters from MODIS ImagesMorris, Jennifer Nicole 2011 August 1900 (has links)
Extensive research on soot in snow and snow grain size has been carried out in the Polar Regions. However, North American prairie snowpacks lack observations of soot in snow on snow albedo which adds uncertainty to the overall global effect that black carbon on snow has on climate. Measurements in freshly fallen prairie snowpacks in Northwestern Iowa and Central Texas were collected from February 25 to March 3, 2007 and April 6, 2007, respectively.
Multi-day monitoring locations and a frozen lake were study sites at which snow samples were collected to measure soot in snow concentrations. Ancillary measurements were collected at a subset of the sample sites that included: temperature, density, depth, and grain size. At some locations snow reflectance and snow radiance was collected with an Analytical Spectral Device visible/near infra-red spectroradiometer (350 ? 1500 nm).
Snow impurity, consisting of light-absorbing particulate matter, was measured by filtering meltwater through a nucleopore 0.4 micrometer filter. Filters were examined using a photometer to measure mass impurity concentration. Soot observations indicate prairie snowpack concentrations ranging from 1 ng C gm^-1 to 115 ng C gm^-1 with an average of 34.9 ng C gm^-1. These measurements are within range of previously published values and can lower snow albedo. As expected, spectral albedo was found to decrease with increasing impurities. Additionally, as grain size increased impurity concentration increased. Differences in soot concentration were observed between the two Iowa snowfall events. The Texas event had higher soot concentrations than both Iowa snowfalls.
Validation of an ADEOS-II snow product algorithm that compares simulated radiances to measured sensor radiances for retrieval of snow grain size and mass fraction of soot in snow was attempted using satellite images acquired by the Moderate Resolution Imaging Spectroradiometer (MODIS). The algorithm was unable to uniquely identify a particular snow grain size and soot concentration that would lead to a converging radiance solution in the two spectral bands measured and compared by the algorithm. The in situ data at the validation site fell within published ranges for freshly fallen snow for both snow grain size and soot concentration; however; the closest algorithm retrievals were considerably higher than in situ measurements for both grain size and impurity concentrations.
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Activated HH Signaling: Deleterious Lineage-dependent Effects on Nephrogenesis and Collecting Duct FormationStaite, Marian Vicky 11 January 2011 (has links)
Hedgehog (HH) signaling controls renal development. Mutations in PTC1, the HH receptor, cause cancer in non-renal tissues. We hypothesized that constitutively active HH signaling is deleterious to renal development in mice with PTC1 deficiency targeted to the metanephric mesenchyme (MM)(Rarb2-Cre;Ptc1 loxP/-, termed Ptc1 mutants). Increased HH signaling in MM of mutant mice was confirmed by qRT-PCR for Ptc1. A decrease in NCAM-positive nephrogenic precursors at E13.5 and WT1-positive glomeruli at E18.5 was found. Increased cortical expression of Foxd1 was observed. At E13.5, a cluster of ectopic cells expressing Raldh2, Ptc2 and Bmp4 accumulated at the presumptive uretero-pelvic junction (UPJ). Magnetic resonance imaging demonstrated an increase in pelvic volume. Constitutive expression of GLI3 repressor via the Gli3Δ699 allele in Ptc1 mutants increased nephron number comparable to wild type mice and decreased pelvic volume compared to Ptc1 mutants. Thus repression of HH activity is required for proper nephrogenesis and patterning of the UPJ.
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Activated HH Signaling: Deleterious Lineage-dependent Effects on Nephrogenesis and Collecting Duct FormationStaite, Marian Vicky 11 January 2011 (has links)
Hedgehog (HH) signaling controls renal development. Mutations in PTC1, the HH receptor, cause cancer in non-renal tissues. We hypothesized that constitutively active HH signaling is deleterious to renal development in mice with PTC1 deficiency targeted to the metanephric mesenchyme (MM)(Rarb2-Cre;Ptc1 loxP/-, termed Ptc1 mutants). Increased HH signaling in MM of mutant mice was confirmed by qRT-PCR for Ptc1. A decrease in NCAM-positive nephrogenic precursors at E13.5 and WT1-positive glomeruli at E18.5 was found. Increased cortical expression of Foxd1 was observed. At E13.5, a cluster of ectopic cells expressing Raldh2, Ptc2 and Bmp4 accumulated at the presumptive uretero-pelvic junction (UPJ). Magnetic resonance imaging demonstrated an increase in pelvic volume. Constitutive expression of GLI3 repressor via the Gli3Δ699 allele in Ptc1 mutants increased nephron number comparable to wild type mice and decreased pelvic volume compared to Ptc1 mutants. Thus repression of HH activity is required for proper nephrogenesis and patterning of the UPJ.
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Facteurs de résistance à la chimiothérapie à base de sels de platine dans les cancers bronchiques non à petites cellules : Rôle de la voie Sonic Hedgehog dans la chimiorésistance / Factors of resistance to platinum-based chemotherapy in non-small cell lung cancers : Role of the Sonic Hedgehog pathway in chemoresistanceGiroux Leprieur, Etienne 25 September 2014 (has links)
Le cancer bronchique non à petites cellules (CBNPC) est particulièrement chimiorésistant. Aucun marqueur robuste de chimiorésistance n'a été validé dans ce type de cancer. Nous avons cherché à décrire dans ce travail des marqueurs innovants de résistance à la chimiothérapie à base de platine dans les CBNPC. Après avoir étudié les caractéristiques cliniques et moléculaires habituelles des patients réfractaires à la chimiothérapie, nous avons étudié le rôle de la voie Sonic Hedgehog (Shh) dans le CBNPC et son impact en termes de chimiorésistance. Nous avons ainsi montré que cette voie de signalisation, connue comme liée aux cellules souches cancéreuses, est corrélée au caractère réfractaire à la chimiothérapie. L'expression de Gli2 est associée à la progression tumorale, à la survie sans progression et à la survie globale. Nous avons également démontré une corrélation entre l'activation de la voie Shh et la transition épithélio-mésenchymateuse, qui est liée à l'agressivité tumorale, le pouvoir métastasiant et la chimiorésistance. Nous avons aussi validé le rôle de la voie Shh dans la prolifération tumorale et la chimiorésistance dans un autre modèle de cancer thoracique, le mésothéliome pleural malin. Enfin, nous nous sommes intéressés à l'expression de hPAF1C (human polymerase II-associated factor 1 complex), facteur suractivé dans les cellules souches cancéreuses et lié à l'activation de la voie Shh. Nous avons montré que l'expression de hPAF1C est associée à un mauvais pronostic et à la prolifération tumorale par interaction avec c-Myc. Ces résultats soulignent le rôle important de la voie Shh dans le CBNPC en termes de chimiorésistance et d'agressivité tumorale. / Non-small cell lung cancer (NSCLC) is known to be chemoresistant. Few robust markers of chemoresistance have been validated so far in this type of cancer. We have described in this work new innovative markers of resistance to cisplatin-based chemotherapy in NSCLC. After the study of usual clinical and molecular caracteristics of patients who were refractory to chemotherapy, we have then explored the role of the Sonic Hedgehog (Shh) pathway in NSCLC and its impact in term of chemoresistance. We have shown that Shh pathway, closely linked with cancer stem cells, was correlated with the refractory property to chemotherapy. Positive Gli2 immunohistochemistry score was associated with tumor progression et progression-free survival. We have also demonstrated a correlation between Shh activation and epithelial-mesenchymal transition, known to be linked with tumor aggressiveness, metastatic ability and chemoresistance. We have then validated the great role of Shh pathway in tumor proliferation and chemoresistance in another thoracic cancer, known to be chemoresistant, the malignant pleural mesothelioma. At last, the impact of ceancer stem cells on tumor aggressiveness and prognosis has been demonstrated through the study of the expression of hPAF1C (human polymerase II-associated factor 1 complex), described as overactivated in cancer stem cells and linked to Shh pathway activation. We have shown that hPAF1C expression was associated with poor prognosis and with tumor proliferation through an interaction with c-Myc. These results underline the major role of Shh pathway and cancer stem cells in SNCLC in term of chemoresistance and tumor aggressiveness.
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