Immune modulation in serous epithelial ovarian cancer : focus on the role of tumor-derived exosomes

Labani Motlagh, Alireza

January 2017

Serous epithelial ovarian cancer (EOC) is a potent suppressor of the immune defense. Here, we studied interactions between EOC and the immune system that lead to escape from tumor immune surveillance. We explored: 1) tumor escape from cytotoxicity by exosome-mediated modulation of the NK-cell receptors NKG2D and DNAM-1; 2) cytokine mRNA profiles in the EOC microenvironment and peripheral blood and their role in the suppression of the anti-tumor immune responses; 3) expression of long non-coding (lnc) RNAs in EOC tumors and exosomes. We found that EOC-secreted exosomes carried MICA/B and ULBP1-3, ligands of NKG2D, and could downregulate the NKG2D receptor and impair NKG2D-mediated cytotoxicity. In contrast, the DNAM-1 receptor ligands PVR and nectin-2 were seldom found in exosomes and were not associated with the exosomal membrane leaving the DNAM-1 receptor-mediated cytotoxicity intact. We compared cytokine mRNA expression in the tumor microenvironment and in immune cells of peripheral blood in EOC patients and patients with benign ovarian conditions. EOC patients were unable to mount an IFN-gamma mRNA response needed for tumor cell elimination. Instead, there was a significant up-regulation of inflammation and immune suppression i.e. responses promoting tumorigenesis and T-regulatory cell priming that suppress anti-tumor immunity. In addition, we studied lncRNAs in tissues and sera exosomes from EOC and benign ovarian conditions aiming to assess the lncRNA(s) expression profile and look for lncRNA(s) as possible marker(s) for early diagnosis. We found a deregulated lncRNAs expression in EOC tissues that correlated well with the lncRNAs expression in exosomes. Candidate lncRNAs with the highest expression and abundance were suggested for evaluation as EOC diagnostic markers in a future large cohort study. Our studies of EOC tissue and EOC exosomes highlight the immunosuppressive tumor microenvironment and the complex tumor exosome-mediated network of immunosuppressive mechanisms, and provide a mechanistic explanation of the observation that NKG2D-mediated cytotoxicity does not function in EOC patients and is partially replaced by the accessory DNAM-1 dependent cytotoxic pathway. The deregulated lncRNAs expression in EOC tissues and exosomes might serve for diagnostic purposes but could also be a potential risk of spreading tumor-derived lncRNAs in EOC exosomes to recipient cells throughout the body.

ovarian cancer

EOC

HGSC

exosomes

NKG2D

MICA/B

ULBP

DNAM-1

PVR

nectin-2

lncRNAs

immune suppression

anti-tumor immunity

NK-cell cytotoxicity

cytokines

Th1

Th2

T regulatory response

inflammation

tumor microenvironment

Immunology in the medical area

Immunologi inom det medicinska området

Analýza strategických rozhodnutí a posouzení jejich vlivu na prosperitu nakladatelství Paseka. / Analysis of strategic decisions and assessment of their impact on prosperity of The Paseka Publisher.

Palusková, Lucie

January 2013

The Master's thesis deals with strategic management, importance of strategy and with the basic methods of strategic analysis. Selected methods have been applied to particular company - The Paseka Publisher. The main objective is to make overall evaluation of strategic position of The Paseka Publisher in the context of the current book market. Furthermore, it is essential to reflect the current state of the publishing industry and highlight the main factors that directly affect the strategic position of publishers. On the basis of strategic analysis is possible to make synthesis of gained knowledge, which leads to the formulation of strategic recommendation for the core business activities.

Optimalizace marketingového mixu sportovního zařízení / Optimization of Marketing Mixes in Sports Facilities

Hejdová, Anežka

January 2014

The goal of this thesis is to optimize current marketing mixes in sports facilities. As such, this thesis will suggest appropriate optimization strategies for these mixes and recommend methods for improving marketing communication practices and service portfolios, in order that facilities may heighten their competitiveness, increase facility attendance, and enhance client satisfaction. The theoretical section of this thesis analyses marketing mixes, services, sports product, CRM, CEM, and facility environment. The practical component first presents the facility itself: a squash centre, where the analysis was done. An analysis and assessment of marketing activities of the squash centre was carried out afterwards. Quantitative forms of research, especially interviews, were used. Informal conversations were also held with the management of the squash centre. The thesis results in some recommendations for the squash centre which are applicable for sports facilities in general.

Noninvasive assessment and quantification of tumour vascularisation using MRI and CT in a tumour model with modifiable angiogenesis – An animal experimental prospective cohort study

Mirus, Matthew M., Tokalov, Sergey V., Wolf, Gerald, Heinold, Jerilyn, Prochnow, V., Abolmaali, Nasreddin

06 June 2018

Background To investigate vascular-related pathophysiological characteristics of two human lung cancers with modifiable vascularisation using MRI and CT. Methods Tumour xenografts with modifiable vascularisation were established in 71 rats (approval by the Animal Care Committee was obtained) by subcutaneous transplantation of two human non-small-cell lung cancer (NSCLC) cells (A549, H1299) either alone or co-transplanted with vascular growth promoters. The vascularity of the tumours was assessed noninvasively by MRI diffusion-weighted-imaging (DWI), T2-weighted, and time-of-flight (TOF) sequences) as well as contrast-enhanced CT (CE-CT), using clinical scanners. As a reference standard, histological examinations (CD-31, fluorescent beads) were done after explantation. Results Microvessel density (MVD) was higher in co-transplanted tumours (171 ± 19 number/mm2) than in non-co-transplanted tumours (111 ± 11 number/mm2; p = 0.002). Co-transplanted tumours showed higher growth rates and larger tumour vessels at TOF-MRI as well as larger necrotic areas at CE-CT. In co-transplanted tumours, DWI revealed higher cellularity (lower minimal ADCdiff 166 ± 15 versus 346 ± 27 mm2/s × 10−6; p < 0.001), highly necrotic areas (higher maximal ADCdiff 1695 ± 65 versus 1320 ± 59 mm2/s × 10−6; p < 0.001), and better-perfused tumour stroma (higher ADCperf 723 ± 36 versus 636 ± 51 mm2/s × 10−6; p = 0.005). Significant correlations were found using qualitative and quantitative parameters: maximal ADCperf and MVD (r = 0.326); maximal ADCdiff and relative necrotic volume on CE-CT (r = 0.551); minimal ADCdiff and MVD (r = −0.395). Conclusions Pathophysiological differences related to vascular supply in two human lung cancer cell lines with modifiable vascularity are quantifiable with clinical imaging techniques. Imaging parameters of vascularisation correlated with the results of histology. DWI was able to characterise both the extent of necrosis and the level of perfusion.

Zánět a rakovina v bezmikrobních vs. standardně chovaných zvířatech / Inflammation and cancer in germ-free vs. conventionally reared animals

Čaja, Fabián

January 2021

Inflammation is considered as one of the main defence mechanisms of the immune system against threats that occur in the body. When present in its acute form, minimal or no detectable subsequent damage of original affected tissue exists. The more pathological form, chronic inflammation, is associated with permanent damage of the tissue and typically a hallmark of various diseases such as ulcerative colitis or colon carcinogenesis. These two pathologies are evolving in the unique colon microenvironment, where intensive interaction between the host cells and bacteria is present. The aim of our study was to investigate the immunological (ELISA, FACS, RT-PCR) and structural (histology, confocal microscopy) changes in the colon mucosa of Wistar-AVN rats induced by dextran sodium sulphate (DSS) to produce colon colitis and by azoxymethane (AOM) to produce colon carcinogenesis. Conventional (CV) and also germ-free (GF) reared animals were used to investigate the effects of the mucosal inflammation activated by the administered inducers as well as the role of colon microbiota - as promoters of a continuous immune activation - in the modulation of immunity and collagen scaffold remodelling. Our results showed that even in the early period after the induction, both inducers produced a smouldering...

Interactions between Rho-ROCK signaling and the tumor microenvironment in neuroblastoma

Pepich, Adena

January 2021

Neuroblastoma is a childhood cancer of the peripheral sympathetic nervous system, emerging from cells of the neural crest. In Sweden, neuroblastoma accounts for 20 cases out of all, 300-350, pediatric cancer cases each year (Barncancerfonden 2019, Turup on behalf of Cancer Centrum 2019). This cancer often appears in the sympathetic ganglia and/or the adrenal gland and has a high rate of metastasis that often results in morbidity (Matthay et al. 2016). Recent findings implicating a mutation in the Rho/Rac signaling pathway, a pathway involved in neural crest differentiation and migration, were found in every fourth neuroblastoma patient (Dyberg et al. 2017) These mutations tend to shift Rho to a more active state which is believed to lead to more downstream Rho-associated Kinase (ROCK) activation. While inhibition of ROCK has been seen to promote MYCN protein degradation, induce neuroblastoma cell differentiation and repress neuroblastoma growth in vitro and in vivo (Dyberg et al. 2017). Rho/ROCK signaling pathway effects on cytoskeletal arrangement and cell shape have also been suggested to be involved in tumor promoted changes of the TME (Johan and Samuel, 2018). In this master’s thesis project, we explore the effects of the Rho/ROCK pathway on the tumor microenvironment (TME) and immune response (IR) in neuroblastoma. More specifically we are focusing on populations of T cells, macrophages and fibroblasts in tumors, and looking into tumor vascular structure (such as blood vessel) and extracellular matrix (ECM) formation after ROCK inhibitor treatment within neuroblastoma tumors from transgenic mice model TH-MYCN and multi-cellular tumor spheroids (MCTS), a three-dimensional (3D) in vitro model simulating TME in neuroblastoma cell lines. Through our studies we hope to find insights into the Rho/ROCK signaling pathway and involvement of the tumor microenvironment in cancer therapy, while elucidating potential new drugs and drug targets for improving outcomes in neuroblastoma treatment.

cancer and oncology

pediatric cancer

neuroblastoma

rho/ROCK signaling

rho-associated kinases

tumor microenvironment

cytotoxic T cells

neuroblastom

pediatrik onkologi

rho-kinaser

Cancer and Oncology

Cancer och onkologi

Pediatrics

Pediatrik

Basic Medicine

Návrh marketingové strategie značky Nano Snowboards / Marketing Strategy of the Nano Snowboards Brand

Vintrová, Zuzana

January 2011

The Master’s thesis deals with the proposal of marketing strategy. Based on theoretical knowledge and analysis of contemporary conditions of the company, proposal of marketing strategy is developed. It is supposed to distinguish company position beside other companies and to get awareness of public. This leads to gaining new clients and as a result of achieving higher sales and profits.

Modèles 3D de mélanome métastatique pour l’évaluation in vitro de l’efficacité de molécules de thérapies ciblées / 3D models of metastatic melanoma for in vitro evaluation of targeted therapy efficiency

Morales, Delphine

18 June 2019

La sensibilité des cellules de mélanomes aux molécules de thérapies ciblées dépend du microenvironnement tumoral (interactions cellule-cellule et cellule-matrice extracellulaire). Les systèmes tridimensionnels (3D) de culture in vitro reflètent mieux l’architecture structurelle native des tissus et sont attrayants pour l’étude des interactions cellulaires. Nous avons développé et comparé plusieurs modèles de mélanome métastatique : les cellules de mélanomes (SK-MEL-28 et SK-MEL-3, mutées BRAF V600E et SK-MEL-2, BRAF sauvages) cultivées en monocouche (2D) et co-cultivées en 3D sur des équivalents de derme avec des fibroblastes, afin de mieux comprendre les facteurs modulant la sensibilité cellulaire à un inhibiteur de BRAF (BRAFi, Vémurafenib) et au Vémurafenib associé à un inhibiteur de MEK (MEKi, Cobimetinib). La sensibilité cellulaire aux traitements a été évaluée sous différents aspects : prolifération cellulaire (numération cellulaire, incorporation d'EdU, test MTS), analyse des voies de signalisation MAPK et PKB / Akt (Western-blot), apoptose (TUNEL), libération de cytokines et de facteurs de croissance (ELISA) et histologie (modèles 3D). Un effet cytostatique de BRAFi a été observé sur les cellules SK-MEL-28 et SK-MEL-3 cultivées dans les modèles 2D et 3D. La lignée cellulaire SK-MEL-2 était résistante au BRAFi lorsqu'elle a été cultivée en monocouche, mais sensible lorsqu'elle a été co-cultivée avec des fibroblastes incorporés dans une matrice de collagène de type I. Les milieux conditionnés par les fibroblastes 3D (équivalents de derme) ont sensibilisé les cellules SK-MEL-2 (2D) au BRAFi. L'analyse des surnageants de culture cellulaire a révélé que les équivalents de derme libéraient certains facteurs solubles (IL-6, IL-8, HGF, TGF-β) : ces sécrétions ont été modifiées au cours du traitement par Vémurafenib. La combinaison du traitement avec MEKi a renforcé l'action du Vémurafenib sur les cellules de mélanomes métastatiques tout en diminuant la capacité de prolifération des fibroblastes. Des populations de cellules contenant des cellules de mélanomes ou des fibroblastes associés au cancer (CAFs) ont été isolées à partir d'une biopsie de métastase cutanée provenant d'une patiente atteinte d'un mélanome métastatique. Ces cellules ont permis de réaliser des modèles de mélanome métastatique patient-spécifique afin d’étudier in vitro la sensibilité des cellules de la patiente aux traitements dans un microenvironnement tumoral (sécrétion paracrine de cellules stromales et matrice de collagène). Ces modèles prédictifs 3D patient-spécifique pourront être utilisés pour déterminer des stratégies de thérapies personnalisées, ainsi que pour comprendre les phénomènes de résistance des cellules de mélanomes aux traitements. / Melanoma cell sensitivity to targeted therapy molecules is dependent on the tumor microenvironment (cell-cell and cell-extracellular matrix interactions). Three dimensional (3D) in vitro cell culture systems better reflect the native structural architecture of tissues and are attractive to investigate cellular interactions. We have developed and compared several metastatic melanoma models: melanoma cells (SK-MEL-28 and SK-MEL-3, BRAF V600E mutant and SK-MEL-2 BRAF wt) cultured as a monolayer (2D) and co-cultured on 3D dermal equivalents with fibroblasts to better unravel factors modulating cell sensitivity to a BRAF inhibitor (BRAFi, Vemurafenib) and a BRAFi combined with a MEK inhibitor (MEKi, Cobimetinib). Cell sensitivity to treatments was evaluated under various aspects: cell proliferation (cell counting, EdU incorporation, MTS assay), MAPK and PKB/Akt signaling pathway analysis (Western-blotting), apoptosis (TUNEL), cytokine and growth factor release (ELISA) and histology (3D models). A cytostatic effect of BRAFi was observed on SK-MEL-28 and SK-MEL-3 cells in both models. SK-MEL-2 cell line was clearly resistant to BRAFi when cultured as a monolayer but not when co-cultured with 3D fibroblasts embedded in a type I collagen matrix. Conditioned media provided by 3D fibroblasts (dermal equivalents) underlined 2D SK-MEL-2 sensitivity to BRAFi. Cell culture supernatant analysis revealed that dermal equivalents released some soluble factors (IL-6, IL-8, HGF, TGF-β): these secretions were modified during vemurafenib treatment. The combination of treatment with MEKi enhances the action of Vemurafenib on metastatic melanoma cells while decreasing the proliferation capacity of fibroblasts. Cell populations containing melanoma cells or fibroblasts associated with cancer (CAFs) were isolated from a cutaneous metastasis biopsy of a patient with metastatic melanoma. These cells allowed the realization of patient-specific models of metastatic melanoma in order to study in vitro the sensitivity of the patient’s melanoma cells to treatments in a tumor microenvironment (paracrine secretion of stromal cells and collagen matrix). These 3D predictive patient-specific models could be used to determine personalized therapy strategies, as well as to understand the resistance phenomena of melanoma cells to treatments

Modèle de mélanome patient-spécifique

Sécrétome

Targeted therapy

Tissue engineering

3D human metastatic melanoma model

Tumor microenvironment

Patient-specific melanoma model

Secretome

Melanoma

Cell culture

Cell proliferation

Cancer cells

Experimentální ověření in silico predikovaného vazebného proteinu k transkripčnímu faktoru FOXO4 a analýza transkriptomu nádorů močového měchýře / Experimental verification of in silico predicted protein binder to FOXO4 transcription factor and transcriptome analysis of bladder cancer

Tauš, Petr

January 2017

This diploma thesis includes an experimental and a bioinformatic part. The two parts are linked together through the subject of transcription factors of 'forkhead box O' (FOXO) family. FOXO transcription factors have a key role in many cellular processes including cell cycle regulation, apoptosis and metabolism. For a long time, they have been considered strictly as the tumor-suppressors yet a growing number of evidence is pointing out to their pro-tumorigenic role. In consequence FOXO transcription factors are studied intensively as potential therapeutic targets in cancer. In the past decade, in silico prediction of protein-protein interactions has become popular in basic research as well as in drug development. Nonetheless, the predicted structures are still far from fitting to the expected behavior of the respective biomolecules. In the experimental part of this thesis, I verified the interaction of four in silico predicted protein binders based on naturally occurring PDZ domain with FOXO4 using microscale thermophoresis. Non-invasive bladder tumors represent a heterogeneous disease where reliable prediction of tumor aggressiveness is still lacking despite an intensive research. In the bioinformatic part of this thesis, I described the cellular composition of the tumor microenvironment and demonstrated...

Imunitní odpověď a nádorové mikroprostředí při léčbě polymerními cytostatiky / Immune response and tumor microenvironment in the treatment with polymer cytotoxic drugs

Malátová, Iva

January 2020

Chemotherapy is still one of the most widely used anticancer therapies. It is mostly about inhibiting the proliferation of rapidly dividing cells, so it is not selective for tumor cells. As a result, many undesirable side effects are associated with chemotherapy. The disadvantageous properties of chemotherapeutics can be largely eliminated by using conjugates of polymers with low molecular weight drugs. An example of such a conjugate is a doxorubicin-linked HPMA polymer. In addition to the properties obtained by polymer binding, such as achieving solubility in aqueous solutions, reducing systemic toxicity, increasing the maximum tolerated dose, or passive targeting by the EPR effect, the fact that doxorubicin induces immunogenic cell death is used in therapy with this drug. It has already been shown that after complete cure of the experimental mice with polymeric conjugates of HPMA with doxorubicin, some mice develop long-term resistance to re-inoculation with a lethal dose of tumor cells. Resistance is specific to the particular line of tumor cells from which the mouse was cured, and CD8+ cytotoxic T cells and IFNγ play an important role. In this work, we monitored changes in the proportion of immune populations and their activation markers after treatment with HPMA-based polymers with doxorubicin...