Deletion of IKKβ in activated fibroblasts promotes tumor progression in melanoma / 活性化線維芽細胞におけるIKKβの欠失は黒色腫の腫瘍進行を促進する

Zhang, Shuang

23 March 2023

京都大学 / 新制・課程博士 / 博士(医学) / 甲第24503号 / 医博第4945号 / 新制||医||1064(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 羽賀 博典, 教授 椛島 健治, 教授 後藤 慎平 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

cancer-associated fibroblasts

NF-κB

IKKβ

490

YAP-regulated epithelial-fibroblast crosstalk

Khaliqdina, Shoheera

08 April 2016

According to the Centers for Disease Control, cancer is one of the leading causes of death in the United States. Characterized as a disease that develops as a result of an unstable genome, cancer is known to arise from numerous spontaneous mutations in the DNA of cells. Recent evidence shows that cancer cells within tumors are not self-reliant; rather, they progress along with other cells in their surrounding environment. Tumor cells recruit neighboring cells that, like the cancer cells, also become deregulated, forming the tumor stroma that aids in tumor progression. Within the stroma, cancer-associated fibroblasts (CAFs) play a vital role in the progression of cancer. Recent studies have found an important link between increased matrix stiffness surrounding the tumor and the invasion of the tumor. Thus, it is proposed that as the matrix stiffens, the tumor takes on more aggressive phenotypes. The transcriptional regulators YAP and TAZ (YAP/TAZ), key effectors of the Hippo pathway, are known to respond and influence matrix stiffening. In stiff matrix environments YAP/TAZ accumulate in the nucleus, and can drive transcriptional events. CAF's from late stage breast cancers have been found to exhibit increased YAP expression and increased ability to remodel and stiffen the extracellular matrix. Whether YAP or TAZ in these CAFs influences the metastatic properties of tumor cells is unclear. The present study aims to establish a link between YAP/TAZ activity in CAFs and cancer migration and invasion. We hypothesized that high nuclear activity of YAP/TAZ in fibroblasts would lead to non-autonomous signals that increase epithelial migration, and conversely that signals originating from epithelial cells affect YAP regulation in fibroblasts. We obtained CAFs from oral squamous cell carcinomas (OSCC) at various stages, and interestingly found that when CAFs obtained from stage III and stage IV tumors were co-cultured with OSCC cells they had the ability to cause OSCC cell migration. This CAF-induced migration was dependent on YAP/TAZ in the CAFs, as YAP/TAZ knockdown repressed this crosstalk. To gain insight into the mechanisms driving this process, transwell migration assays were conducted using NIH-3T3 fibroblasts engineered to overexpress YAP, or mutants of YAP, in doxycycline-inducible manner. We found that expression of YAP in NIH-3T3 cells, particularly a nuclear-localized YAP mutant, promoted the ability for OSCC cells to migrate in co-culture experiments. Media conditioned from these cells was sufficient to recapitulate this phenotype, suggesting that secreted factors from these fibroblasts may act as a signal that promotes migration. This activity of YAP was dependent on the ability for YAP to bind to the TEAD transcription factors, a major mediator of YAP transcriptional activity. Together these results indicate that nuclear YAP activity in fibroblasts can modulate the migration of neighboring cancer cells, suggesting that YAP plays a key role in stroma-cancer crosstalk during cancer progression.

Biochemistry

Cancer

Cancer-associated fibroblasts

Tumor

YAP

Hippo pathway

Glykobiologie nádorů hlavy a krku / Glycobiology of the head and neck cancer

Szabo, Pavol

January 2012

Povrch buněk je bohatě pokryt oligosacharidy, které jsou v plazmalemě ukotvené pomocí proteinů a lipidů. Oligosacharidy zprostředkují vzájemnou vazbu mezi buňkami nebo vazbu buněk k složkám extracelulární matrix. Galektiny jsou živočišné lektinů které mají afinitu k oligosacharidům obsahujícím β-galaktózu. Jsou to multifaktoriální proteiny, které se účastňují řady reakcí v organizmu, jako jsou mezibuněčné interakce, interakce buněk s mezibuněčnou hmotou, proliferace i apoptóza a sestřih pre-mRNA. Proteiny po translaci procházejí různými strukturálnimy úpravami, které mají vliv na jejich funkci. Galektin-3 je možný prognostický ukazatel u nádorů vycházejících z vrstevnatých dlaždicových epitelů je fosforylován na N-konci. Prokázali jsme, že tato posttranslační modifikace nemá vliv na jeho vazebnou reaktivitu. Jiný endogenní lektin, galektin-1 je charakteristickou molekulou nádorového stromatu a granulační tkáně hojícího se poranění. Zjistili jsme, že galektin-1 indukuje na TGF-β nezávislý in vitro přechod normálních fibroblastů na myofibroblasty včetně produkce sítě extracelulární matrix bohaté fibronektinem a galektinem-1. Tento poznatek je využitelný v terapii hojení ran a v tkáňovém inženýrství. Dnes je jasné, že nádorové stroma ovlivňuje i biologické vlastnosti nádoru (lokální agresivita,...

Glykobiologie nádorů hlavy a krku / Glycobiology of the head and neck cancer

Szabo, Pavol

January 2012

Povrch buněk je bohatě pokryt oligosacharidy, které jsou v plazmalemě ukotvené pomocí proteinů a lipidů. Oligosacharidy zprostředkují vzájemnou vazbu mezi buňkami nebo vazbu buněk k složkám extracelulární matrix. Galektiny jsou živočišné lektinů které mají afinitu k oligosacharidům obsahujícím β-galaktózu. Jsou to multifaktoriální proteiny, které se účastňují řady reakcí v organizmu, jako jsou mezibuněčné interakce, interakce buněk s mezibuněčnou hmotou, proliferace i apoptóza a sestřih pre-mRNA. Proteiny po translaci procházejí různými strukturálnimy úpravami, které mají vliv na jejich funkci. Galektin-3 je možný prognostický ukazatel u nádorů vycházejících z vrstevnatých dlaždicových epitelů je fosforylován na N-konci. Prokázali jsme, že tato posttranslační modifikace nemá vliv na jeho vazebnou reaktivitu. Jiný endogenní lektin, galektin-1 je charakteristickou molekulou nádorového stromatu a granulační tkáně hojícího se poranění. Zjistili jsme, že galektin-1 indukuje na TGF-β nezávislý in vitro přechod normálních fibroblastů na myofibroblasty včetně produkce sítě extracelulární matrix bohaté fibronektinem a galektinem-1. Tento poznatek je využitelný v terapii hojení ran a v tkáňovém inženýrství. Dnes je jasné, že nádorové stroma ovlivňuje i biologické vlastnosti nádoru (lokální agresivita,...

Invasion of uterine cervical squamous cell carcinoma cells is facilitated by locoregional interaction with cancer-associated fibroblasts via activating transforming growth factor-beta / 子宮頸部扁平上皮癌細胞の浸潤は、癌関連線維芽細胞との局所相互作用によるTGF-β活性化を介して促進される

Nagura, Michikazu

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18894号 / 医博第4005号 / 新制||医||1009(附属図書館) / 31845 / 京都大学大学院医学研究科医学専攻 / (主査)教授 山田 泰広, 教授 戸井 雅和, 教授 小川 誠司 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

TGF-beta

Invasion

Cancer associated fibroblasts

Cervical cancer

490

Utilizing extracellular matrix mechanical stiffness, transport properties, and microstructure to study effects of molecular constituents and fibroblast remodeling

Avendano, Alex A.

04 November 2020

No description available.

Biomedical Engineering

Suppression of MAPK Signaling in BRAF-Activated PTEN-Deficient Melanoma by Blocking β-Catenin Signaling in Cancer- Associated Fibroblasts

Zhou, Linli, Yang, Kun, Dunaway, Spencer, Abdel-Malek, Zalfa, Andl, Thomas, Kadekaro, Ana Luisa, Zhang, Yuhang

05 November 2017

Cancer-associated fibroblasts (CAFs) in the tumor microenvironment have been associated with formation of a dynamic and optimized niche for tumor cells to grow and evade cell death induced by therapeutic agents. We recently reported that ablation of β-catenin expression in stromal fibroblasts and CAFs disrupted their biological activities in in vitro studies and in an in vivo B16F10 mouse melanoma model. Here, we show that the development of a BRAF-activated PTEN-deficient mouse melanoma was significantly suppressed in vivo after blocking β-catenin signaling in CAFs. Further analysis revealed that expression of phospho-Erk1/2 and phospho-Akt was greatly reduced, effectively abrogating the activating effects and abnormal cell cycle progression induced by Braf and Pten mutations. In addition, the epithelial-mesenchymal transition (EMT)-like process was also suppressed in melanoma cells. Taken together, our data highlight an important crosstalk between CAFs and the RAF-MEK-ERK signaling cascade in BRAF-activated melanoma and may offer a new approach to abrogate host-dependent drug resistance in targeted therapy.

BRAF

Cancer-associated fibroblasts

Melanoma

Microenvironment

β-catenin

Surgery

Surgery

Hållbarhetsstudier av cancerassocierat antigen 15–3, 19–9 och 125 i primärrör / Stability studies of cancer associated antigen 15-3, 19-9 and 125 in primary tubes

Johansson, Sofie

January 2020

Cancerassocierade antigen (CA) används vid diagnostisering, prognosbestämning och för att följa behandling vid cancer. Exempel på CA är CA 15–3, CA 19–9 och CA 125. Syftet med arbetet var att undersöka hållbarheten för blodprover förvarade i primärrör som skulle analyseras för CA 15–3, CA 19–9 och CA 125 och jämföra med nuvarande metod på klinisk kemi, Oskarshamn, Region Kalmar län. Enligt nuvarande metod överförs plasman till nya provrör innan analys. Metoden som användes var att dubbelprov togs och det ena förvarades i primärrör och analyserades på Roche Cobas 411® tre, fem och tio dagar efter provtagning. Det andra provet överfördes till nytt provrör inför analys. Den procentuella skillnaden mellan analys av CA i primärrör och överfört prov beräknades. För alla tre analyserna var den procentuella skillnaden störst hos de lägsta koncentrationerna av CA. Medelvärde för analyserna av CA, standardavvikelse (SD) och variationskoefficient beräknades. SD för CA jämfördes mot kontrollerna MAS Omni Immune Pro 1 och MAS Omni Immune Pro 3s SD. Provernas SD var mindre för kontrollerna förutom för CA 19–9 >1100 kIE/L. I den gruppen analyserades dock för få analyser för att utföra statistisk analys och gav därmed ingen slutsats hur CA 19–9 påverkades av de olika förvaringarna. För övriga analyser och för CA 19–9 i lägre koncentrationer kunde slutsatsen dras att prover kunde förvaras i primärrör i tio dagar utan att analysresultatet påverkades. / Cancer-associated antigens (CA) are used for diagnosis, establish prognosis and to monitor treatment of cancer. Three CA are CA 15-3, CA 19-9 and CA 125. The aim of this study was to evaluate the stability of CA 15-3, CA 19-9 and CA 125 blood samples in primary tubes coated with Litium-heparin gel and compare the results with the method used at Klinisk Kemi Oskarshamn, Region Kalmar where the samples today are transferred to new tubes before analysis. In this study two samples were collected from each patient, one was stored and analyzed according to the current method. The other sample was stored in the primary tube and analyzed three, five and ten days after collection. Roche Cobas 411 instrument was used for analysis. The mean value for the samples in primary tubes was compared to the current method and were calculated in percent. The difference was more distinct when the concentration of the analyte was low. The mean value, standard deviation (SD) and variation coefficient were calculated for each analyte. The SD of the samples were compared to the SD of the controls IM 1 and IM3. All the obtained SD from the samples were lower than the control SD, except for CA 19-9 > 1100 kIE/L. Unfortunately, there were only three test results in the concentration interval and therefore no statistic conclusion could be made. The conclusion for the other analytes CA 15-3, CA 125 and CA 19-9 in lower concentrations was that the storage in primary tubed up to ten days did not affect the test results.

Roche Cobas 411

Cancer associated antigen 15–3

Cancer associated antigen 19–9

Cancer associated antigen 125

Stability

Roche Cobas 411

Cancerassocierat antigen 15–3

Cancerassocierat antigen 19–9

Cancerassocierat antigen 125

Hållbarhet

Biomedical Laboratory Science/Technology

Loss of primary cilia occurs early in breast cancer development

Menzl, Ina, Lebeau, Lauren, Pandey, Ritu, Hassounah, Nadia, Li, Frank, Nagle, Ray, Weihs, Karen, McDermott, Kimberly

January 2014

BACKGROUND:Primary cilia are microtubule-based organelles that protrude from the cell surface. Primary cilia play a critical role in development and disease through regulation of signaling pathways including the Hedgehog pathway. Recent mouse models have also linked ciliary dysfunction to cancer. However, little is known about the role of primary cilia in breast cancer development. Primary cilia expression was characterized in cancer cells as well as their surrounding stromal cells from 86 breast cancer patients by counting cilia and measuring cilia length. In addition, we examined cilia expression in normal epithelial and stromal cells from reduction mammoplasties as well as histologically normal adjacent tissue for comparison.RESULTS:We observed a statistically significant decrease in the percentage of ciliated cells on both premalignant lesions as well as in invasive cancers. This loss of cilia does not correlate with increased proliferative index (Ki67-positive cells). However, we did detect rare ciliated cancer cells present in patients with invasive breast cancer and found that these express a marker of basaloid cancers that is associated with poor prognosis (Cytokeratin 5). Interestingly, the percentage of ciliated stromal cells associated with both premalignant and invasive cancers decreased when compared to stromal cells associated with normal tissue. To understand how cilia may be lost during cancer development we analyzed the expression of genes required for ciliogenesis and/or ciliary function and compared their expression in normal versus breast cancer samples. We found that expression of ciliary genes were frequently downregulated in human breast cancers.CONCLUSIONS:These data suggest that primary cilia are lost early in breast cancer development on both the cancer cells and their surrounding stromal cells.

Primary cilia

Invasive breast cancer

Carcinoma in situ

Cancer-associated stroma

Ciliogenesis

Cilia length

Biomimetic Poly(ethylene glycol)-based Hydrogels as a 3D Tumor Model for Evaluation of Tumor Stromal Cell and Matrix Influences on Tissue Vascularization

Ali, Saniya

January 2015

<p>To this day, cancer remains the leading cause of mortality worldwide1. A major contributor to cancer progression and metastasis is tumor angiogenesis. The formation of blood vessels around a tumor is facilitated by the complex interplay between cells in the tumor stroma and the surrounding microenvironment. Understanding this interplay and its dynamic interactions is crucial to identify promising targets for cancer therapy. Current methods in cancer research involve the use of two-dimensional (2D) monolayer cell culture. However, cell-cell and cell-ECM interactions that are important in vascularization and the three-dimensional (3D) tumor microenvironment cannot accurately be recapitulated in 2D. To obtain more biologically relevant information, it is essential to mimic the tumor microenvironment in a 3D culture system. To this end, we demonstrate the utility of poly(ethylene glycol) diacrylate (PEGDA) hydrogels modified for cell-mediated degradability and cell-adhesion to explore, in 3D, the effect of various tumor microenvironmental features such as cell-cell and cell-ECM interactions, and dimensionality on tumor vascularization and cancer cell phenotype. </p><p>In aim 1, PEG hydrogels were utilized to evaluate the effect of cells in the tumor stroma, specifically cancer associated fibroblasts (CAFs), on endothelial cells (ECs) and tumor vascularization. CAFs comprise a majority of the cells in the tumor stroma and secrete factors that may influence other cells in the vicinity such as ECs to promote the organization and formation of blood vessels. To investigate this theory, CAFs were isolated from tumors and co-cultured with HUVECs in PEG hydrogels. CAFs co-cultured with ECs organized into vessel-like structures as early as 7 days and were different in vessel morphology and density from co-cultures with normal lung fibroblasts. In contrast to normal lung fibroblasts (LF), CAFs and ECs organized into vessel-like networks that were structurally similar to vessels found in tumors. This work provides insight on the complex crosstalk between cells in the tumor stroma and their effect on tumor angiogenesis. Controlling this complex crosstalk can provide means for developing new therapies to treat cancer.</p><p>In aim 2, degradable PEG hydrogels were utilized to explore how extracellular matrix derived peptides modulate vessel formation and angiogenesis. Specifically, integrin-binding motifs derived from laminin such as IKVAV, a peptide derived from the α-chain of laminin and YIGSR, a peptide found in a cysteine-rich site of the laminin β chain, were examined along with RGDS. These peptides were conjugated to heterobifunctional PEG chains and covalently incorporated in hydrogels. The EC tubule formation in vitro and angiogenesis in vivo in response to the laminin-derived motifs were evaluated. </p><p>Based on these previous aims, in aim 3, PEG hydrogels were optimized to function as a 3D lung adenocarcinoma in vitro model with metastasis-prone lung tumor derived CAFs, HUVECs, and human lung adenocarcinoma derived A549 tumor cells. Similar to the complex tumor microenvironment consisting of interacting malignant and non-malignant cells, the PEG-based 3D lung adenocarcinoma model consists of both tumor and stromal cells that interact together to support vessel formation and tumor cell proliferation thereby more closely mimicking the functional properties of the tumor microenvironment. The utility of the PEG-based 3D lung adenocarcinoma model as a cancer drug screening platform is demonstrated with investigating the effects of doxorubicin, semaxanib, and cilengitide on cell apoptosis and proliferation. The results from drug screening studies using the PEG-based 3D in vitro lung adenocarcinoma model correlate with results reported from drug screening studies conducted in vivo. Thus, the PEG-based 3D in vitro lung adenocarcinoma model may serve as a better tool for identifying promising drug candidates than the conventional 2D monolayer culture method.</p> / Dissertation

Biomedical engineering

3D Scaffold

Cancer Associated Fibroblasts

ECM

Tissue Engineering

Tumor Angiogenesis

Tumor Microenvironment