THE USE OF NICOTINIC ACETYLCHOLINE RECEPTOR ANTAGONISTS TO TARGET BREAST TUMOR-INITIATING CELLS

Beilschmidt, Melissa Kathleen

11 1900

The high rate of relapse often seen in breast cancer patients has been suggested to be the result of a small subset of chemotherapy-resistant cancer stem cells (CSCs), believed to be responsible for initiating tumor formation. These CSCs possess the capability to self-renew and give rise to a hierarchy of cells which makes up the bulk of a tumor. Neurotransmitters have been suggested to influence CSC self-renewal and proliferation capabilities, and antagonists of neurotransmission pathways have been implicated as possible treatment methods for chemo-resistant tumors. Using nicotinic acetylcholine receptor (nAChR) antagonists in sphere-forming assays, we have identified a very promising candidate compound: MG624. We found this compound to have a high selectivity for sphere-forming cells over non-sphere-forming cells in vitro, in a dose-dependent relationship, across a panel of cell lines as well as in patient-derived xenograft cells. This was validated in two ex vivo assays, where tumor formation was significantly delayed in mice injected with MG624-treated HCC1954 cells at both the IC50 and IC90 of the compound, indicating that MG624 does indeed target functional BTICs. MG624 was also found to synergize with both taxotere and doxorubicin chemotherapies in vitro, and shrink tumors in NOD/SCID mice when combined with taxotere in vivo. MG624 in combination with taxotere was found to induce apoptosis, and prevent cells from entering into the M-phase of the cell cycle. Interestingly, MG624 was found to eliminate intratumoral fibroblasts in combination with taxotere, despite taxotere being found to recruit fibroblasts to the tumor site when used on its own. Most importantly, the combination of MG624 and taxotere was found to significantly delay tumor progression/relapse in mice, indicating that MG624 may be an excellent candidate compound to one day be combined with chemotherapy to provide durable remission to breast cancer patients. / Thesis / Master of Science (MSc)

The Relationships Between Leader Behavior, Follower Motivation, And Performance

Harrell, Melissa

01 January 2008

The primary goal of this study was to examine ways in which leaders can influence followers motivation. Motivation is a key construct in industrial and organizational psychology due to its impact on employee performance. Modern motivation theories adapt a more sophisticated view of motivation in terms of definition, relationships, and operationalization. In particular, one new theory of motivation is the Pritchard and Ashwood Theory (2008). This theory proposes that motivation is comprised of four perceived relationships that, in combination, reflect the extent to which employees believe that their actions on the job will lead to need satisfaction. These four relationships are called connections. The relationship between two leadership behaviors, initiating structure and consideration, and the Pritchard and Ashwood motivational connections was examined. It was hypothesized that the two leader behaviors would have differential relationships with the four motivational connections. These differential relationships should facilitate targeted behavioral feedback to leaders to improve each of the motivational connections. Additionally, motivation was hypothesized to mediate the relationship between the leader behaviors and employee outcomes. The Pritchard and Ashwood Theory is operationalized by the Motivation Assessment Questionnaire (MAQ) (Pritchard, 2006a). A secondary goal of this study was to contribute to the validity evidence of the MAQ. This recently developed questionnaire has shown good psychometric properties and initial validity evidence has demonstrated moderate relationships between the MAQ and job performance. However, this is the first study of the relationship between the MAQ and employee outcomes with a large sample of full-time working adults. Further, this study expanded potential MAQ outcomes beyond employee performance to include organizational citizenship behaviors and turnover intentions. A sample of 208 employees was recruited from two central Florida companies. These employees responded to the MAQ and other study measures via a secure, online survey. Participating employees provided contact information for their supervisors who were then invited to participate in the study by providing criteria ratings. A large number of the invited supervisors participated (n = 195). Results indicated robust support for one of the leadership behaviors: consideration. Consideration was related to performance and this relationship was partially mediated by motivation. On the other hand, initiating structure was not related to employee performance. Consideration and initiating structure were not differentially related as hypothesized to the four motivational connections. This was due in part to the strong correlation between the two leadership behaviors (r = .73). Results provided additional validation evidence for the MAQ. The overall effort scale was not related to performance as it had been in the two previous studies that used a student sample. However, the average of the motivation connections predicted performance. Additionally, the MAQ predicted both organizational citizenship behaviors and turnover intentions. As mentioned previously, the sample was drawn from two central Florida companies. Although many of the study hypotheses were supported for the overall sample, the observed relationships were very different for the two subsamples. Similarly, findings in this study differ from previous studies using the MAQ with working students. Potential reasons for these differences are discussed.

Motivation

Initiating Structure and Consideration

Pritchard

Ashwood

Expectancy Theory

Psychology

Identifying the Signaling Pathways Downstream of the Serotonin Receptor 5A in Breast Cancer

Shakeel, Mirza Shahbaz

January 2019

Breast cancer therapy resistance and disease recurrence are driven by an infrequent population of stem-like tumor cells, termed breast cancer stem cells or tumor-initiating cells (BTIC). Whereas drugs that target BTIC could be combined with conventional therapies to provide durable remissions, identifying such agents has been difficult. To achieve the latter, our lab screened more than 35,000 compounds for their capacity to reduce the activity of BTIC-enriched mouse mammary tumorspheres, wherein we identified numerous antagonists of multiple serotonin receptors (HTRs). The serotonergic antagonist that prevented sphere formation with the highest potency is a highly selective antagonist of HTR5A, SB-699551. We subsequently demonstrated that this agent affects BTIC activity in breast tumor cell lines representative of all clinical and molecular subtypes of breast cancer. Whereas the primary target of SB-699551 is known, the downstream signaling pathways responsible for its anti-BTIC effect remains enigmatic. The goal of this thesis work was to elucidate the signaling pathways downstream of HTR5A in human breast tumor cell lines. We used a phospho-proteomic approach to establish that treatment of human SB-699551 affects the phosphorylation of proteins involved in the Gi-coupled and the PI3K/AKT/mTOR signaling axes. Moreover, we demonstrated that selective antagonists of PI3K, AKT, and mTOR phenocopied the effect of SB-699551 in tumorsphere forming assays. Taken together, our data suggests that SB-699551 elicits its effect through the PI3K/AKT/mTOR signaling pathways downstream of HTR5A. / Thesis / Master of Health Sciences (MSc) / Accumulating data suggests that the progression of breast cancer is driven by a rare population of breast tumor-initiating cells (BTIC). BTIC lie dormant during conventional therapy and initiate recurrence after such therapies are withdrawn. Hence, there is an urgent need to develop drugs that target BTIC that can be combined with the current standard of care to improve the durability of remission. With the latter objective in mind, our lab previously determined that antagonists of serotonin signaling target BTIC. One of the agents that we identified in our screen inhibits the activity of serotonin receptor 5A (HTR5A). The exact signaling mechanism whereby inhibition of HTR5A leads to a loss in BTIC activity was enigmatic. Hence, this thesis aims to elucidate the signaling pathways downstream of HTR5A in breast cancer. Knowledge of the latter will help identify a plausible mechanism in addition to identifying biomarkers of therapy efficacy.

Breast Cancer

Proteomics

Serotonin

Breast tumor-initiating cells

Marker-Free Isolation and Enrichment of Rare Cell Types Including Tumor Initiating Cells through Contactless Dielectrophoresis

Shafiee, Hadi

09 December 2010

Microfluidics has found numerous applications ranging from the life sciences industries for pharmaceuticals and biomedicine (drug design, delivery and detection, diagnostic devices) to industrial applications of combinational synthesis (such as rapid analysis and high throughput screening). Among all these, one of the intriguing exploitation of microfluidics or micro total analysis systems (µTAS) is the separation of circulating tumor cells (CTCs) from body fluids. Cancer cells spread from the initial site of a tumor by first invading the surrounding tissue, then by entering the blood or lymph vessels, and finally by crossing the vessel wall to exit the vasculature into distal organs. The September 2006 issue of the Journal of the National Cancer Institute (NCI) states: "The war on cancer was declared 40 years ago and cancer is still here," and "Technologies that capture enemy CTCs for further interrogation might prove useful in the war on cancer." CTCs cannot only become a new marker for cancer prognosis, but their detection can also be a valid new parameter for diagnosing cancer early, for monitoring disease progression and relapse, and for optimizing therapy. This research established a new method to manipulate rare cell types based on their electrical signatures using dielectrophoresis (DEP) without having direct contact between the electrodes and the sample, known as contactless dielectrophoresis (cDEP). DEP is the motion of a particle in a suspending medium due to its polarization in the presence of a non-uniform electric field. cDEP relies upon reservoirs filled with highly conductive fluid to act as electrodes and provide the necessary electric field. These reservoirs are placed adjacent to the main microfluidic channel and are separated from the sample by a thin barrier of a dielectric material as is shown in Figure 1h. The application of a high-frequency electric field to the electrode reservoirs causes their capacitive coupling to the main channel and an electric field is induced across the sample fluid. Similar to traditional DEP, cDEP exploits the varying geometry of the electrodes to create spatial non-uniformities in the electric field. However, by utilizing reservoirs filled with a highly conductive solution, rather than a separate thin film array, the electrode structures employed by cDEP can be fabricated in the same step as the rest of the device; hence the process is conducive to mass production. We demonstrated the ability to isolate human leukemia cancer cells (THP-1) cells from a heterogeneous mixture of live and dead cells using cDEP with more than 99% selectivity and 95% removal efficiency. Through numerical and experimental investigations, new generation of cDEP devices have been designed and tested to detect and isolate THP-1 cells from spiked blood samples with high selectivity and cell capture efficiency. Our experimental observations, using prototype devices, indicate that breast cancer cell lines at their different stages (MCF-7, MCF-10, and MDA-MB231) have unique electrical. Furthermore, through collaborations at the Wake Forest Comprehensive Center, we demonstrated that prostate tumor initiating cells (TICs) exhibit unique electrical signatures and DEP responses and cDEP technology can be exploited to isolate and enrich TICs for further genetic pathways investigations. / Ph. D.

Contactless Dielectrophoresis

Lab on a Chip

Tumor Initiating Cell

Rare Cell Enrichment

Lab on a chip rare cell isolation platform with dielectrophoretic smart sample focusing, automated whole cell tracking analysis script, and a bioinspired on-chip electroactive polymer micropump

Anders, Lisa Mae

18 July 2014

Dielectrophoresis (DEP), an electrokinetic force, is the motion of a polarizable particle in a non-uniform electric field. Contactless DEP (cDEP) is a recently developed cell sorting and isolation technique that uses the DEP force by capacitavely coupling the electrodes across the channel. The cDEP platform sorts cells based on intrinsic biophysical properties, is inexpensive, maintains a sterile environment by using disposable chips, is a rapid process with minimal sample preparation, and allows for immediate downstream recovery. This platform is highly competitive compared to other cell sorting techniques and is one of the only platforms to sort cells based on phenotype, allowing for the isolation of unique cell populations not possible in other systems. The original purpose of this work was to determine differences in the bioelectrical fingerprint between several critical cancer types. Results demonstrate a difference between Tumor Initiating Cells, Multiple Drug Resistant Cells, and their bulk populations for experiments conducted on three prostate cancer cell lines and treated and untreated MOSE cells. However, three significant issues confounded these experiments and challenged the use of the cDEP platform. The purpose of this work then became the development of solutions to these barriers and presenting a more commercializable cDEP platform. An improved analysis script was first developed that performs whole cell detection and cell tracking with an accuracy of 93.5%. Second, a loading system for doing smart sample handling, specifically cell focusing, was developed using a new in-house system and validated. Experimental results validated the model and showed that cells were successfully focused into a tight band in the middle of the channel. Finally, a proof of concept for an on-chip micropump is presented and achieved 4.5% in-plane deformation. When bonded over a microchannel, fluid flow was induced and measured. These solutions present a stronger, more versatile cDEP platform and make for a more competitive commercial product. However, these solutions are not just limited to the cDEP platform and may be applicable to multitudes of other microfluidic devices and applications. / Master of Science

Dielectrophoresis

Contactless Dielectrophoresis

Lab on a Chip

Sample Enrichment

Tumor Initiating Cells

A novel theranostic strategy for MMP-14 expressing glioblastomas impacts survival

Mohanty, S., Chen, Z., Li, K., Ribeiro Morais, Goreti, Klockow, J., Yerneni, K., Pasani, L., Chin, F.T., Mitra, S., Cheshier, S., Chang, E., Gambhir, S.S., Rao, J., Loadman, Paul, Falconer, Robert A., Daldrup-Link, H.E.

28 June 2017

Yes / Glioblastoma (GBM) has a dismal prognosis. Evidence from preclinical tumor models and human trials indicates the role of GBM initiating cells (GIC) in GBM drug resistance. Here, we propose a new treatment option with tumor enzyme-activatable, combined therapeutic and diagnostic (theranostic) nanoparticles, which caused specific toxicity against GBM tumor cells and GICs. The theranostic cross-linked iron oxide nanoparticles (CLIO) were conjugated to a highly potent vascular disrupting agent (ICT) and secured with a matrix-metalloproteinase (MMP-14) cleavable peptide. Treatment with CLIO-ICT disrupted tumor vasculature of MMP-14 expressing GBM, induced GIC apoptosis and significantly impaired tumor growth. In addition, the iron core of CLIO-ICT enabled in vivo drug tracking with MR imaging. Treatment with CLIO-ICT plus temozolomide achieved tumor remission and significantly increased survival of human GBM bearing mice by more than 2 fold compared to treatment with temozolomide alone. Thus, we present a novel therapeutic strategy with significant impact on survival and great potential for clinical translation. / Heike E Daldrup-Link, NIH, R21CA176519 and R21CA190196; Sanjiv Sam Gambhir, NIH, 1U54CA199075; Jessica Klockow, NCI training grant, T32CA118681, Robert A. Falconer, University of Bradford, UoB-66031

Glioblastoma

Glioblastoma initiating cells

Imaging

Therapy and theranostic nanoparticle

Theranostic nanoparticles enhance the response of glioblastomas to radiation

Wu, W., Klockow, J.L., Mohanty, S., Ku, K.S., Aghighi, M., Melemenidis, S., Chen, Z., Li, K., Ribeiro Morais, Goreti, Zhao, N., Schlegel, J., Graves, E.E., Rao, J., Loadman, Paul, Falconer, Robert A., Mukherjee, S., Chin, F.T., Daldrup-Link, H.E.

01 October 2019

Yes / Despite considerable progress with our understanding of glioblastoma multiforme (GBM) and the precise delivery of radiotherapy, the prognosis for GBM patients is still unfavorable with tumor recurrence due to radioresistance being a major concern. We recently developed a cross-linked iron oxide nanoparticle conjugated to azademethylcolchicine (CLIO-ICT) to target and eradicate a subpopulation of quiescent cells, glioblastoma initiating cells (GICs), which could be a reason for radioresistance and tumor relapse. The purpose of our study was to investigate if CLIO-ICT has an additive therapeutic effect to enhance the response of GBMs to ionizing radiation. Methods: NSG™ mice bearing human GBMs and C57BL/6J mice bearing murine GBMs received CLIO-ICT, radiation, or combination treatment. The mice underwent pre- and post-treatment magnetic resonance imaging (MRI) scans, bioluminescence imaging (BLI), and histological analysis. Tumor nanoparticle enhancement, tumor flux, microvessel density, GIC, and apoptosis markers were compared between different groups using a one-way ANOVA and two-tailed Mann-Whitney test. Additional NSG™ mice underwent survival analyses with Kaplan–Meier curves and a log rank (Mantel–Cox) test. Results: At 2 weeks post-treatment, BLI and MRI scans revealed significant reduction in tumor size for CLIO-ICT plus radiation treated tumors compared to monotherapy or vehicle-treated tumors. Combining CLIO-ICT with radiation therapy significantly decreased microvessel density, decreased GICs, increased caspase-3 expression, and prolonged the survival of GBM-bearing mice. CLIO-ICT delivery to GBM could be monitored with MRI. and was not significantly different before and after radiation. There was no significant caspase-3 expression in normal brain at therapeutic doses of CLIO-ICT administered. Conclusion: Our data shows additive anti-tumor effects of CLIO-ICT nanoparticles in combination with radiotherapy. The combination therapy proposed here could potentially be a clinically translatable strategy for treating GBMs.

Glioblastoma

Glioblastoma initiating cells

Theranostic nanoparticles

Radiation therapy

Imaging

Ferumoxytol

Initiering av takk i förskolans verksamhet : Strategier och artefakter ur pedagogens perspektiv / Introducing AAC in Preschool Sector : Strategies and artifacts from an educators perspective

Ehn, Sofia

January 2017

Syftet med mitt arbete är att belysa på vilket sätt pedagoger i förskolan initierar tecken som alternativ och kompletterande kommunikation även kallad TAKK, i den dagliga verksamheten. Arbetet fokuserar på pedagogers upplevelse av TAKK som kommunikationsmetod och vilka verktyg, exempelvis vilka appar och böcker de använder. Materialinsamlingen skedde med observationer och intervjuer vilket sedan sammanställdes och analyserades utifrån det sociokulturella perspektivet. Sammanfattningsvis anses TAKK vara ett bra fungerande kommunikativt verktyg för alla barn på förskolan. Artefakterna som används är relativt lika på förskolornas avdelningar och används av pedagoger med eller utan barn, av barn med eller utan pedagog och av barn med eller utan andra barn. Det finns ingen manual eller mall att följa vid initieringen men överlag anses att kunskap om TAKK och teckenkunnande är nödvändigt för att TAKK ska kunna användas i förskolan. / The purpose of this work is to illustrate educators approach to initiate augamentative and alternative communication, also known as ACC. This work focuses on educators experiences when inititating ACC as a communicative method  in preschool and which tools, such as the apps and the books they use. The material gathering was conducted with observations and interviews, which were compiled and analyzed based on the socio-cultural perspective. In summary, ACC is considered a good working communicative tool for all children in preschool activities. The artifacts used are relative similar between departments and are used by educators with or without children, by children with or without other children. There is no manual or template to follow regarding the initiative but overall, it is considered that knowledge is necessary in order for ACC to be used in preschool activities.

AAC

communication

initiating

artefact

TAKK

kommunikation

initiering

förskola

artefakt

Pedagogy

Pedagogik

Presença de marcadores de células-tronco em linhagens celulares humanas de câncer de mama: possível valor em diagnóstico, prognóstico e terapía / Analysis of stem cells markers in human breast cancer cell lines

Lobba, Aline Ramos Maia

28 April 2014

O câncer de mama é a doença maligna que mais acomete as mulheres no mundo. Apesar dos inúmeros tratamentos, o óbito se deve principalmente à doença metastática que pode se desenvolver a partir do tumor primário. Esta progressão tumoral decorre da dificuldade de se estabelecer um prognóstico mais preciso. Atualmente, a teoria de células iniciadoras de tumor vem sendo estudada para tentar explicar a biologia do câncer e descrever novos alvos para prognósticos e terapias. O carcinoma mamário foi o primeiro tumor sólido para o qual foi identificada uma subpopulação celular, definida como CD44+/CD24-, apresentando as características de células iniciadoras tumorais. Embora este fenótipo venha sendo muito utilizado para descrever as células iniciadoras tumorais de mama, muitos trabalhos tem questionado a relevância clínica desses marcadores, enfatizando que outros marcadores devem ser identificados. Assim, o objetivo deste trabalho é analisar e caracterizar marcadores de células-tronco que possam estar relacionados com o grau de malignidade no modelo de câncer de mama. Inicialmente, analisou-se a expressão de 10 marcadores de células-tronco em diferentes linhagens de câncer de mama que apresentam graus crescentes de malignidade. O CD90 foi selecionado devido à alta expressão desse marcador na linhagem mais agressiva Hs578T. Para a caracterização deste marcador, realizou-se ensaios funcionais, através do silenciamento do CD90 na linhagem tumorigênica Hs579T e sua superexpressão na linhagem não-tumorigênica MCF10A. As linhagens celulares geradas foram caracterizadas quanto ao crescimento celular, potencial invasivo e metastático. Foi possível observar que houve uma alteração da morfologia nas linhagens transformadas com o CD90 e, também, um maior tempo de dobramento na linhagem Hs578T-CD90- e um menor na MCF10A-CD90+. Além disso, a linhagem MCF10-CD90+ foi capaz de crescer independentemente de EGF. Através da análise da via EGF, foi possível observar que houve um aumento da expressão da forma fosforilada do receptor e dos fatores Erk, c-Jun, e Jnk na linhagem MCF10A-CD90+ e uma diminuição dos mesmos na linhagem Hs578T-CD90-. A análise da atividade do elemento responsivo do fator de transcrição AP1 comprovou que a via de EGF é funcional na linhagem MCF10-CD90+. Também foram analisados os marcadores de transição epitélio-mesenquimal, verificando-se aumento da expressão dos marcadores mesenquimais na linhagem MCF10A-CD90+ e diminuição na linhagem Hs578T-CD90-. Os ensaios in vitro de invasão mostraram que as células MCF10-CD90+ são capazes de migrar e invadir e as células Hs578T-CD90- apresentam diminuição significativa da habilidade de migração e invasão. Além disso, os ensaios de metástase in vitro e in vivo, mostraram que a superexpressão de CD90 levou à malignização das células MCF10A. Por outro lado, a linhagem Hs578T-CD90- apresentou menor potencial metastático in vitro. Portanto, neste trabalho, pela primeira vez, o CD 90 foi caracterizado funcionalmente como um marcador envolvido na transformação maligna do carcinoma mamário, contribuindo, assim, para melhor entendimento da biologia do câncer de mama e para que se possa desenvolver novas ferramentas de diagnóstico/prognóstico e novos protocolos clínicos e terapêuticos. / Breast cancer is the malignant disease which affects the highest number of women in the world. In spite of the numerous treatments available, death is primarily due to the metastatic disease that may develop from the primary tumor. This tumor progression occurs because of the difficulty in establishing an accurate diagnosis/prognosis. Currently, the tumor initiating cells theory is being applied in an attempt to explain cancer biology and to unveil new diagnostic and therapeutic targets. Mammary carcinoma was the first solid tumor in which a cellular subpopulation, defined as CD44+/CD24-, was associated with tumor initiating cells. Although this phenotype has been widely used to describe breast tumor initiating cells, several studies have questioned the clinical relevance of these markers, emphasizing that additional markers should be identified. The objective of the present study is to analyze and characterize stem cell markers that may be related to malignancy stages in the breast cancer model. Initially, the expression of 10 stem cell markers was analyzed in different breast cancer cell lines displaying different malignancy grades. CD90 was selected due to its high expression levels in the most aggressive cell line, namely: Hs578T. In order to further characterize this marker, a functional study was performed in which CD90 was silenced in the Hs578T tumorigenic cell line and overexpressed in the non-tumorigenic MCF10A cell line. The resulting cell lines were characterized relative to growth rate and invasive and metastatic potential. A change in morphology readily was observed in the cell lines overexpressing CD90. In addition, the Hs578T-CD90-cell line presented an increased doubling time (DT), while the MCF10A-CD90+ cell line displayed a lower DT.. Furthermore, MC10-CD90+ cells were able to grow in the absence of EGF. Analysis of components of the EGF pathwayrevealed increased expression levels of the phosphorylated form of Erk, c-Jun and Jnk receptors in the MCF10-CD90+ cell line, while Hs578T-CD90- cells presented decreased expression of the same factors and receptors. Analysis of the activity of the AP1 responsive element allowed confirmation that the EGF pathway is functional in the MCF10-CD90+. . Epithelial-mesenquimal transition markers presented increased expression levels in the MCF10A-CD90+ cell line, accompanied by decreased expression levels in Hs578T-CD90- cells. In vitro invasion assays showed that MCF10A-CD90+ cells are capable of migrating and invading, while Hs578T-CD90- cells presented a significant decrease in their ability to migrate and invade. Additionally, in vitro and in vivo metastasis assays showed that malignization ensued upon overexpression of CD90 in MCF10A cells and a lower tendency to form metastasis in vitro was observed for the Hs578T-CD90- cell line. Therefore, the present study presents, for the first time in the literature, the functional characterization of CD90 as a genetic marker involved in the malignant transformation of mammary carcinoma, leading to a better understanding of the breast cancer biology, which may, in turn, lead to the development of new clinical and therapeutic protocols.

Breast cancer

Câncer de mama

CD90

CD90

Células iniciadoras de tumor

Células-tronco

Stem cells

Tumor initiating cells

Explorando a quinase IKK como um alvo terapêutico para células iniciadoras de tumor pulmonares induzidas pelo oncogene KRAS / Exploring IKKb kinase as a therapeutic target for KRAS-driven lung tumour-initiating cells

Rodrigues, Felipe Silva

31 August 2018

As alterações genéticas mais frequentes em câncer de pulmão são mutações pontuais que ativam o oncogene KRAS. Embora estas mutações estejam causalmente relacionadas à oncogênese, até hoje diferentes abordagens para inibir as proteínas RAS diretamente não obtiveram sucesso. Portanto, para que melhores alvos terapêuticos para o câncer de pulmão se tornem disponíveis é necessário identificar os mecanismos moleculares ativados por KRAS que estão diretamente envolvidos com a aquisição de propriedades malignas importantes, como o desenvolvimento e a manutenção de um fenótipo tronco-tumoral pelas células iniciadoras de tumor (CITs). CITs, também conhecidas como células tronco-tumorais, são definidas como uma subpopulação de células tumorais capazes de se autorrenovar, iniciar a formação de tumores e sustentar o crescimento tumoral. O desenvolvimento de estratégias terapêuticas dirigidas a estas células é imprescindível para melhorar a eficácia da terapia antitumoral. Uma vez que KRAS está associada a manutenção de um fenótipo tronco-tumoral e ativa o fator de transcrição NF-kB através da quinase IKKβ para promover a tumorigênese pulmonar, nós hipotetizamos que a quinase IKKβ contribui para o fenótipo tronco-tumoral induzido por KRAS em câncer de pulmão. Nós utilizamos ensaios de formação de tumoresferas para enriquecer e avaliar a função de CITs das linhagens pulmonares positivas para KRAS A549 e H358. As células A549 e H358 formaram tumoresferas em cultura de baixa aderência e, quando comparadas às células derivadas da cultura aderente, as células oriundas da cultura de tumoresferas apresentaram maior crescimento clonogênico, maior expressão de genes associados ao fenótipo tronco por qPCR e maior atividade da quinase IKKβ. A inibição da atividade de IKKβ através de um inibidor farmacológico altamente específico (Composto A) diminuiu levemente a proliferação de células A549 e H358, sem resultar em morte celular significativa. Entretanto, a inibição da atividade ou da expressão de IKKβ por interferência de RNA reduziu a expressão de genes associados ao fenótipo tronco e diminuiu a formação de tumoresferas. A inibição da expressão de IKKβ em células A549 reduziu também a capacidade de autorrenovação de CITs. Estes resultados sugerem que IKKβ desempenha um papel importante na manutenção do fenótipo tronco-tumoral de CITs pulmonares induzidas por KRAS. Em seguida, nós demonstramos que a inibição da atividade de IKKβ afetou preferencialmente a proliferação celular e o crescimento clonogênico de células oriundas da cultura de tumoresfera, sugerindo que IKKβ desempenha um papel mais importante em CITs do que em células derivadas da cultura aderente. A análise por citometria de fluxo identificou que células derivadas da cultura de tumoresfera apresentam um enriquecimento para células CD24+ na linhagem A549 e células CD44+ na linhagem H358, sugerindo que estes possam ser marcadores promissores para purificação de CITs nestas linhagens. Adicionalmente, demonstramos, por ensaios de wound-healing de células A549 e H358, que a inibição da atividade de IKKβ reduziu a migração celular, uma outra uma propriedade aumentada em CITs. Além disso, mostramos que a atividade da quinase IKKβ em células A549 e H358 não depende das vias da MAPK ou PI3K/Akt. Interessantemente, a inibição combinada de IKK (um efetor downstream de KRAS) e de EGFR/ERRB2 (reguladores upstream de KRAS que ativam as vias MAPK e PI3K/Akt) reduziu de forma aditiva a formação de tumoresferas, proliferação e migração celular. Quando avaliados em conjunto, nossos resultados sugerem que a quinase IKKβ desempenha um papel importante na biologia de CITs pulmonares portadoras de KRAS oncogênica e que a inibição desta quinase sozinha ou em combinação com a inibição de outras vias pode representar uma estratégia terapêutica promissora a ser explorada para reduzir a recidiva e metástase no câncer de pulmão induzido por KRAS. / The most frequent genetic alterations in lung cancer are point mutations that activate the KRAS oncogene. Although these mutations are causally related to oncogenesis, different approaches to inhibit RAS proteins directly have not been successful to date. Therefore, for better therapeutic targets for lung cancer to become available, it is necessary to identify the molecular mechanisms activated by KRAS that are directly involved with important malignant features, such as the development and maintenance of a cancer stem-like phenotype by the tumour-initiating cells (TICs). TICs, also known as cancer stem cells, are defined as a subpopulation of tumour cells able to self-renew, promote tumour initiation, and sustain tumour growth. The development of therapeutic strategies to target these cells is imperative to improve the efficacy of antitumor therapy. Since KRAS is associated with the maintenance of a cancer stem-like phenotype and activates the transcription factor NF-kB through the IKKβ kinase to promote lung tumourigenesis, we hypothesised that IKKβ kinase contributes to the cancer stem-like phenotype induced by KRAS in lung cancer. We used tumoursphere formation assays to enrich and evaluate the function of TICs of KRAS-mutant cell lines A549 and H358. A549 and H358 cells formed tumourspheres in low adhesion culture and, when compared to cells grown in adherent culture, sphere-derived cells displayed increased clonogenic growth, higher expression of stemness genes by qPCR, and increased IKKβ kinase activity . Inhibition of IKKβ activity through a highly specific pharmacological inhibitor (Compound A) slightly decreased proliferation of A549 and H358 cells without inducing significant cell death. On the other hand, inhibition of IKKβ activity or expression by RNA interference reduced the expression of stemness genes and decreased tumoursphere formation. Inhibition of IKKβ expression in A549 cells also reduced TICs self-renewal . These results suggest that IKKβ plays an important role in maintaining the cancer stem-like phenotype of KRAS-driven lung TICs. Next, we demonstrated that IKKβ inhibition preferentially reduced cell proliferation and clonogenic growth of sphere-derived cells, suggesting that IKKβ plays a more important role in TICs than in adherent culture-derived cells. Flow cytometry analysis identified that sphere-derived cells display an enrichment for the surface marker CD24 in A549 cells and CD44 in H358 cells, indicating that these could be promising markers for the purification of TICs in these cell lines. Furthermore, we have shown by wound-healing assays of A549 and H358 cells that IKKβ inhibition reduced cell migration , another feature increased in TICs. In addition, we have shown that IKKβ activity in A549 and H358 cells does not depend on the MAPK or PI3K/Akt pathways. Interestingly, combined inhibition of IKKβ (a downstream effector of KRAS) and EGFR/ERBB2 (upstream regulators of KRAS that activate the MAPK and PI3K/Akt pathways) additively reduced tumoursphere formation, cell proliferation and migration. Taken together, our results suggest that IKKβ kinase plays an important role in the biology of KRAS-driven lung TICs, and that inhibition of this kinase alone or in combination with inhibition of other signalling pathways may represent a promising therapeutic strategy to be explored in order to reduce tumour recurrence and metastasis in KRAS-driven lung cancer.

Câncer de pulmão

Células iniciadoras de tumor

IKKb kinase

KRAS

KRAS

Lung cancer

Quinase IKKb

Tumour-initiating cells