Molekulární mechanismy nádorové patogeneze signální cesty Hedgehog u vybraných nádorových typů / Molecular mechanisms of tumor pathogenesis of Hedgehog signaling pathway in selected tumor types

Kreisingerová, Kateřina

January 2021

The presented doctoral thesis is focused on the role of the Hedgehog (HH) signaling pathway in cancer pathogenesis. HH signaling pathway is an evolutionarily conserved signaling pathway that plays an essential role in embryonic development. Its activity is strictly limited to stem and progenitor cells for example in brain, lung, skin or prostate. HH pathway also plays a key role in tissue homeostasis and regeneration. Aberrantly activated HH pathway is essential in cancer progression. The aim of the presented thesis was to elucidate new details about the HH signaling pathway. We identified a new target gene of the HH pathway - the anti-apoptotic protein survivin. Survivin is considered to be an important tumor marker associated with a poor prognosis of patients. We showed that the inhibitor of HH pathway effectors GLI1 and GLI2 GANT61 reduced the survivin level in cancer cells. Subsequently, we used GANT61 and the inhibitor of the anti-apoptotic BCL2 protein family obatoclax to inhibit melanoma cells growth. We showed that the combination of these inhibitors was very effective in the eradication of melanoma cells in vitro. We also proved that GANT61 triggers the process of apoptosis in melanoma cells. We found out that the HH signaling pathway is canonically activated in many cell lines of various...

HIF-1 maintains a functional relationship between pancreatic cancer cells and stromal fibroblasts by upregulating expression and secretion of Sonic hedgehog / HIF-1はソニックヘッジホッグの発現と分泌を亢進し、膵臓がん細胞とがん間質線維芽細胞の機能関係を調節する

Katagiri, Tomohiro

23 May 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21257号 / 医博第4375号 / 新制||医||1029(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 増永 慎一郎, 教授 妹尾 浩, 教授 松田 道行 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

tumor hypoxia

hypoxia-inducible factor 1 (HIF-1)

Sonic hedgehog signaling pathway

stromal fibroblasts

pancreatic cancers

490

Circadian Clock as the mechanism of Caloric Restriction in regulating mTOR Signaling and Glucose Homeostasis

Tulsian, Richa

26 November 2018

No description available.

Molecular Biology

Metabolism

gluconeogenesis

glycolysis

calorie restriction

aging

glucose

biological clocks

circadian clocks

mTOR signaling pathway

insulin sensitivity

protein translation

CIRCADIAN REGULATION OF mTOR SIGNALING VIA BMAL1 DEPENDENT MECHANISM

KHAPRE, ROHINI VISHAL

05 May 2014

No description available.

Biology

Cellular Biology

Molecular Biology

Circadian Clock

Biological Clock

BMAL1

Aging

Mice

mTOR

signaling pathway

Feeding

Senescence

oxidative stress

GASP-1, a New Tumor Biomarker, Contributes to Tumorigenesis in Breast Cancer.

Zheng, Xiaoyi

January 2013

Breast cancer is the second leading cause of death in United States. Using 2D-HPLE, a novel separation technology, G-protein coupled receptor-associated sorting protein 1(GASP-1) was identified in sera of patients with early stage cancer, while it could not be detected in sera from healthy individuals. This was the first indication that GASP-1 was positively correlated with breast cancer. However, the function of GASP-1 in breast cancer was unknown. In this study, I verified the 2D-HPLE results by quantifying the expression level of GASP-1 in sera and tissue specimens of cancer patients using specific antibodies against GASP-1. A GASP-1 specific ELISA was developed and used to quantify GASP-1 levels in cancer patient sera. Immunohistochemistry was performed to verify and localize GASP-1 expression in tumor. I also characterized the tumorigenic potential of GASP-1 andidentified the signaling pathways mediated by GASP-1 in breast cancer cells in vitro.GASP-1 expression levelsin MDA-MB-231 cells were modified by transfecting cells with anti-GASP-1 shRNA and over-expression plasmids. Stable cell lines were prepared and their tumorigenic potential was evaluated using cell proliferation, migration, and colony formation assays. These cells were analyzed for markers used to identify epithelial to mesenchymal transition (EMT) using RT-PCR and western blot. They were also analyzed for NFkappaB activity, src phosphorylation, and GPR30 expression. The results showed that GASP-1 was over-expressed in sera and tissue specimens of breast cancer patients and other cancer types including brain, lung, liver and pancreatic cancer and that it correlated with early stage disease. GASP-1 positively regulated migration, and is required for cell proliferation and colony formation. GASP-1 is also necessary for the expression of EMT marker slug, increases NFkappaB activity and GPR30 expression level, while decreases the inhibitory phospho-src Tyr 530. I conclude that GASP-1 is a nearly marker for multiple cancer types. GASP-1 promotes tumorigenesis in breast cancer, possibly through multiple cancer related signaling pathways. These findings may contribute to our understanding of the mechanism of breast cancer tumorigenesis and identify new biomarkers that can be used for diagnosis and therapy of cancer. / Biology

Cellular Biology

Biochemistry

Biology

Biomarker

Cancer

Competitive Elisa

Signaling Pathway

Tumorigenesis

Mechanisms of soy isoflavones in the regulation of vascular function

Si, Hongwei

16 January 2008

Cardiovascular diseases (CVD) are the leading cause of morbidity and mortality in the United States. It is also well recognized that the incidence of CVD is substantially increased in postmenopausal women due to the loss of estrogen. Experimental and clinical data support vascular protective effects of estrogen by various mechanisms. However, administration of estrogen is also associated with an increased incidence of heart disease which limits its therapeutic potential. Given the demonstrated risks of conventional estrogen therapy, a search for novel, cost-effective, alternative vasoactive agents for prevention of CVD is of major importance in the effort to decrease the burden of CVD morbidity. Genistein, a major soy isoflavone, may be one of those alternative agents because of its selective affinity to estrogen receptor-beta and various beneficial effects on CVD. However, the mechanism of the cardioprotective effects of genistein is still unclear. The objectives of this study were (1) to investigate the effect of genistein on the expression of endothelial nitric oxide synthase (eNOS) both in vitro and in vivo; (2) to define the mechanism by which genistein regulates eNOS expression; and, (3) to examine whether genistein protects against tumor necrosis factor-alpha (TNF-α)-induced apoptosis in human aortic endothelial cells (HAECs). The results demonstrated that genistein, at physiologically achievable concentrations (1-10 μM) in individuals consuming soy products, enhanced the expression of eNOS protein and subsequently elevated nitric oxie (NO) synthesis in both HAECs and human umbilical vein endothelial cells, concomitant with the increased eNOS mRNA expression (2.6-fold of control) and eNOS promoter activity, suggesting that genistein activates eNOS transcription. Furthermore, dietary supplementation of genistein to spontaneously hypertensive rats restored aortic eNOS levels, improved aortic wall thickness, and alleviated hypertension, confirming the biological relevance of the in vitro findings. However, the effects of genistein on eNOS and NO were not mediated by activation of estrogen signaling, mitogen-activated protein kinase, phosphatidylinositol 3-kinase/Akt kinase, protein kinase C or inhibition of typrosine kinases, but possibly through activating the cAMP/protein kinase A/cAMP responsive elemant binding protein pathway. These data suggest that genistein has direct genomic effects on the vascular wall that are unrelated to its known actions, leading to increase in eNOS expression and NO synthesis, thereby improving vascular homeostasis. We also found that genistein (5-10 μM) significantly inhibited TNF-α-induced apoptosis in HAECs as determined by caspase-3 activation, apoptotic cell detection and DNA laddering. The anti-apoptotic effect of genistein was associated with an enhanced expression of anti-apoptotic Bcl-2 protein and its promoter activity that was ablated by TNF-α. Moreover, this anti-apoptotic effect of genistein was not mediated by extracellular signal-regulated kinase 1/2, protein kinase A, or estrogen receptor. However, inhibition of p38 mitogen-activated protein kinase (p38) by SB203580 completely abolished the cytoprotective effect of genistein, suggesting that genistein acted through the p38-dependent pathway. Accordingly, stimulation of HAECs with genistein resulted in rapid and dose-dependent activation of p38. Unlike TNF-α which specifically activated p38α, genistein selectively induced phosphorylation of p38β, suggesting that p38β, but not p38α, is essential for the cytoprotective effect of genistein. These findings provide the evidence that genistein acts as a survival factor for vascular ECs to protect cells against apoptosis via activation of p38β. Taken together, the resuls of the present study suggest that genistein can act directly on vascular ECs, improves endothelium homeostasis by promoting eNOS expression and endothelial-derived NO synthesis through activating the cAMP/PKA/CREB cascade, and protects against TNF-α-induced apoptosis via activation of p38 β. These data potentially provide a basic mechanism underlying the physiological effects of genistein in the vasculature. / Ph. D.

protein kinase A

p38 MAP kinase

Apoptosis

signaling pathway

cAMP

nitric oxide

endothelial nitric oxide synthase

endothelial cells

Genistein

Identification of cAMP/CREB signaling pathway as a potential biomarker and therapeutic target for drug-induced liver injury / 薬剤性肝障害に対するバイオ―マーカーおよび治療標的としてのcAMP/CREBシグナル経路の同定

Zhang, Qiyue

25 March 2024

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第25223号 / 薬科博第185号 / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 山下 富義, 教授 小野 正博, 教授 寺田 智祐 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DGAM

Drug-induced liver injury

Toxicogenomics data analysis

CREB

Rapid screening system

Atorvastatin

cAMP/CREB signaling pathway

499.3

Biologie des cellules souches cochléaires : perspectives dans le traitement de la surdité sensorielle / Stem cell biology of the inner ear : potential therapeutic application of sensory deafness

Savary, Etienne

14 December 2010

La destruction des cellules ciliées de la cochlée entraine des surdités sensorielles. Chez les mammifères ces cellules ne se régénèrent pas et les déficits auditifs occasionnés sont définitifs. Aucune thérapie visant à remplacer les cellules ciliées détruites n'est actuellement proposée.L'objectif de cette thèse est de contribuer au développement d'une thérapie cellulaire basée sur la greffe de cellules souches / progénitrices cochléaires et destinée à promouvoir la régénération des cellules ciliées.Au cours de nos travaux, nous avons isolé une population de cellules souches cochléaires chez des souris néonatales appartenant à la « side population » (Savary et al. 2007). Nous avons également montré, par des expériences de perte et de gain de fonction in vitro, que la voie de signalisation Notch est nécessaire pour l'auto-renouvellement et la différenciation de ces cellules (Savary et al., 2008). Des lignées de souris transgéniques exprimant la GFP sous le promoteur de la GFAP et de la Nestine nous ont permis de suivre l'expression de ces marqueurs de cellules souches dans des cochlées de souris P3 et adultes. En étudiant l'expression combinée d'autres marqueurs comme Sox2 et Abcg2, nous avons montré que les cellules progénitrices cochléaires sont réparties différemment chez les souris néonatales et les souris adultes (Smeti, Savary et al 2010).Nos expériences préliminaires de transplantation in vitro dans un modèle murin de surdité génétique humaine de type DFNA15 démontrent que les cellules souches / progénitrices greffées sont capables d'intégrer l'épithélium sensoriel lésé et de se différencier en cellules exprimant un marqueur de cellules ciliées. / The destruction of cochlear hair cells causes sensory deafness. In Mammals these cells do not regenerate and damages are irreversible. Currently, there is no proposed therapy to replace the destroyed hair cells.The focus of this thesis is to develop a novel cell therapy based on transplantation of cochlear progenitor cells in order to promote regeneration of hair cells.We first isolated a population of cochlear stem cells from neonatal mice by using the side population analysis technique (Savary et al. 2007). Then, we showed, by in vitro loss and gain of function experiments, that the Notch signaling pathway is necessary for cellular self-renewal and differentiation (Savary et al., 2008).Transgenic mice strains expressing GFP under the control of GFAP and Nestin promotors allowed us to monitor the expression of these markers of stem cells in the P3 and adult mice cochleae. By studying the combined expression of other stem cells markers such as Sox2 and ABCG2, we showed that the niches of cochlear progenitor cells are differently distributed in neonatal and adult mice (Smati, Savary et al 2010).Our preliminary in vitro transplantation experiments in a mouse model that mimics human genetic deafness DFNA15 show that the transplanted stem / progenitor cells are able to migrate to the lesion site, to integrate the damaged sensory epithelium and to differentiate into cells expressing a marker of hair cells.

Organe de Corti

Cellules ciliées

Cellules souches/ progénitrices

Side population

Voie Notch

Thérapie cellulaire

Organ of Corti

Hair cells

Stem/progenitor cells

Side population

Notch signaling pathway

Cell therapy

THE MECHANOTRANSDUCTION OF PRIMARY CILIA IN TUMOR PROGRESSION OF LUNG ADENOCARCINOMA

Patel, Sagar

25 April 2013

The objective of this study was to investigate primary cilia and their mechanotransduction role in lung adenocarcinoma tumor progression. The main focus investigated the effect of primary cilia on cell cycle progression, survival, adhesion and migration analysis of these cells and the role of sonic hedgehog signaling pathway in mechanotransduction. Human Non-Small Cell Lung Cancer (NSCLC) adenocarcinoma biopsies contain more primary cilia than non-tumor lung sections. To observe the effects of primary cilia presence in lung cancer cells in-vitro, formation of primary cilia is inhibited using small interfering RNA. A549 cells with intact primary cilia observe less cell cycle progression than cells deficient in primary cilia under static and cyclic stretch conditions. Primary cilia cause higher cell survival and adhesion. Increase in cell adhesion also increases the migration and wound closure rates in control samples compared to samples treated with inhibition of IFT88, thereby increasing the metastasis of these cells. Several downstream regulatory genes in sonic hedgehog signaling pathway observe significantly decreased gene expressions in primary cilia deficient cells, thus indicating inefficient mechanotransduction. Therefore, cancer cells need primary cilia to survive, adhere and migrate and continue tumor progression.

Lung Adenocarcinoma

Primary Cilia

Tumor Progression

Mechanotransduction

IFT88

Cell cycle

Cell Proliferation

Cell Survival

Cell migration

Hedgehog signaling pathway

Engineering

Caractérisation des propriétés anti-inflammatoires de souches commensales de Streptococcus salivarius / Characterization of the anti-inflammatory properties of commensal strains of Streptococcus

Kaci, Ghalia

22 June 2012

Les bactéries commensales digestives jouent un rôle primordial dans l’homéostasie épithéliale et la santé de l’hôte, avec notamment un rôle modulateur du système immunitaire. Des effets bénéfiques dans le traitement des pathologies inflammatoires intestinales ont été caractérisés chez certaines souches de bactéries commensales. La compréhension de ces effets dans le maintien de l’homéostasie intestinale repose sur la connaissance des interactions entre les bactéries, l’épithélium intestinal et le système immunitaire muqueux. Streptococcus salivarius est l’un des premiers colonisateurs de la cavité buccale et du tractus digestif de l’homme. Cette bactérie a été utilisée comme modèle pour rechercher des mécanismes impliquée dans l’homéostasie.La recherche d’interactions entre des souches de l’espèce S. salivarius et les cellules humaines a été réalisée pour caractériser leurs éventuelles propriétés immunomodulatrices. Nous avons montré que les bactéries vivantes et les surnageants de cultures des souches de cette espèce modulent la réponse inflammatoire in vitro via un effet inhibiteur sur l’activation de la voie NF-B dans les cellules épithéliales intestinales (HT-29 et Caco-2) et les monocytes (THP-1). Cette modulation de l’inflammation a été confirmée par la capacité des surnageants bactériens à inhiber la sécrétion d’IL-8 par les cellules épithéliales. Ces surnageants agissent via une étape impliquant IB-, un inhibiteur du facteur NF-B. Ils inhibent la dégradation de la protéine IB- phosphorylée et diminuent ainsi la translocation nucléaire des composants NF-B. Nous avons également identifié et caractérisé un métabolite bactérien présent dans ces surnageants exerçant cette activité anti-inflammatoire. L’utilisation de ce métabolite et son isomère miment in vitro l’effet inhibiteur des surnageants sur l’activation de la voie NF-B dans les cellules épithéliales et les monocytes. Nous avons ainsi caractérisé un métabolite secrété par la bactérie commensale S. salivarius qui est capable d’inhiber une des voies centrales de signalisation impliquée dans la réponse inflammatoire intestinale. Enfin, une capacité anti-inflammatoire de S. salivarius a également été montrée dans un modèle murin d’inflammation digestive dans lequel les bactéries métaboliquement actives ont protégé les animaux de colites induites avec du TNBS. Ces travaux ouvrent la voie pour le développement d’applications thérapeutiques dans le traitement de pathologies inflammatoires de l’intestin basées sur ce composé actif ou l’utilisation de S. salivarius comme probiotique. / Commensal bacteria play a vital role in epithelial homeostasis and host health, including a modulatory role of the immune system. Their beneficial effects in the treatment of inflammatory bowel disease have been characterized in some strains of commensal bacteria. Understanding these effects in maintaining intestinal homeostasis is based on the knowledge of interactions among bacteria, the intestinal epithelium and the mucosal immune system. Streptococcus salivarius is one of the first colonizers of human oral cavity and digestive tract. This bacterium was used as a template to investigate mechanisms involved in homeostasis.The research for interactions between strains of S. salivarius species and human cells was performed to characterize their possible immunomodulatory properties. We have shown that living bacteria and culture supernatants of strains of this species modulate the inflammatory response in vitro via an inhibitory effect on the activation of NF-B in intestinal epithelial cells (HT-29 and Caco-2) and monocytes (THP-1). This modulation of inflammation was confirmed by the ability of bacterial supernatants to suppress the secretion of IL-8 by epithelial cells. These supernatants act via a step involving IκB-α, an inhibitor of NF-B. They inhibit the degradation of IκB-α phosphorylated protein and thus decrease the nuclear translocation of NF-B components. We also identified and characterized a bacterial metabolite present in these supernatants exercising this anti-inflammatory activity. Use of this metabolite and its isomer in vitro mimic the repressive effect of supernatants on activation of NF-B in epithelial cells and monocytes. We have characterized a metabolite secreted by commensal bacterium S. salivarius that is capable of inhibiting one of the central signaling pathways involved in the intestinal inflammatory response. Finally, an anti-inflammatory capacity of S. salivarius was also shown in a mouse model of gastrointestinal inflammation in which the metabolically active bacteria protected the animals from colitis induced with TNBS.This work paves way for the development of therapeutic applications in the treatment of inflammatory bowel disease based on the active compound or the use of S. salivarius as a probiotic.

Streptococcus salivarius

Voie de signalisation NF-kB

Effet anti- inflammatoire

Cellules épithéliales intestinales

Monocytes

:Streptococcus salivarius

NF-kB signaling pathway

Anti-inflammatory effect

Intestinal epithelial cells

Monocytes