Tumor Initiating Cells in Mesenchymal Neoplasms

Wu, Colleen

02 September 2010

Despite the clonal origins of tumors, the majority of neoplasms are composed of a heterogeneous population of cells. The origins of this phenotype these cells have the potential to get can be associated with cancer stem cells or tumor initiating cells have the potential to self-renew and to differentiate giving rise to all cell types compromising a heterogeneous malignancy. These cells are clinically important as they preferentially give rise to tumors and are therefore hypothesized to account for the longevity and recurrence of neoplastic lesions. Cancer stem cells have been identified from a broad range of hematopoietic, neural and epithelia tumors; however, their function in mesenchymal neoplasms is less well defined. Using the side population assay, we identified a subpopulation of cells within mesenchymal neoplasms, referred to as side population cells, which are enhanced for tumor initiating potential. Importantly, we show a correlation between the percentage of side population cells and tumor grade suggesting clinical prognostic value as the proportion of side population cells may be a predictor of patient outcome. Interestingly side population cells show distinct molecular features when compared to non-side population cells and manipulation of these molecular mechanisms reduces the ability of side population cells to initiate tumor formation in osteosarcoma cell lines. In conjunction with these experiments, we also sought to determine the cellular origins of the mesenchymal neoplasm, aggressive fibromatosis. Using mouse models we show the influence of a mesenchymal precursor cells in the development of this malignancy. These results identify important biological features of mesenchymal neoplasms from which the development of targeted treatment strategies can begin.

Tumor Initiating Cell

Mesenchymal Neoplasms

Tumor Initiating Cells in Mesenchymal Neoplasms

Wu, Colleen

02 September 2010

Despite the clonal origins of tumors, the majority of neoplasms are composed of a heterogeneous population of cells. The origins of this phenotype these cells have the potential to get can be associated with cancer stem cells or tumor initiating cells have the potential to self-renew and to differentiate giving rise to all cell types compromising a heterogeneous malignancy. These cells are clinically important as they preferentially give rise to tumors and are therefore hypothesized to account for the longevity and recurrence of neoplastic lesions. Cancer stem cells have been identified from a broad range of hematopoietic, neural and epithelia tumors; however, their function in mesenchymal neoplasms is less well defined. Using the side population assay, we identified a subpopulation of cells within mesenchymal neoplasms, referred to as side population cells, which are enhanced for tumor initiating potential. Importantly, we show a correlation between the percentage of side population cells and tumor grade suggesting clinical prognostic value as the proportion of side population cells may be a predictor of patient outcome. Interestingly side population cells show distinct molecular features when compared to non-side population cells and manipulation of these molecular mechanisms reduces the ability of side population cells to initiate tumor formation in osteosarcoma cell lines. In conjunction with these experiments, we also sought to determine the cellular origins of the mesenchymal neoplasm, aggressive fibromatosis. Using mouse models we show the influence of a mesenchymal precursor cells in the development of this malignancy. These results identify important biological features of mesenchymal neoplasms from which the development of targeted treatment strategies can begin.

Tumor Initiating Cell

Mesenchymal Neoplasms

Transcription Cofactor LBH is a Direct Target of the Oncogenic WNT Pathway with an Important Role in Breast Cancer

Rieger, Megan Elizabeth

14 July 2010

Limb-Bud and Heart (LBH) is a novel key transcriptional regulator of vertebrate development. However, the molecular mechanisms upstream of LBH and its role in adult development are unknown. Here we show that in epithelial development, LBH expression is tightly controlled by Wnt signaling. LBH is transcriptionally induced by the canonical Wnt pathway, as evident by the presence of functional TCF/LEF binding sites in the LBH locus and rapid beta-catenin-dependent upregulation of endogenous LBH by Wnt3a. In contrast, LBH induction by Wnt/beta-catenin signaling is inhibited by Wnt7a, which in limb development signals through a non-canonical pathway involving Lmx1b. Furthermore, we show that Lbh is aberrantly overexpressed in mammary tumors of MMTV-Wnt1 transgenic mice and in aggressive basal-subtype human breast cancers that display Wnt/beta-catenin hyperactivation. Deregulation of LBH in human breast cancer appears to be Wnt/beta-catenin dependent as DKK1 and Wnt7a inhibit LBH expression in breast tumor cells. RNAi mediated knockdown of LBH in basal breast cancer cell lines resulted in loss of CD44high/CD24low tumor cells, luminal differentiation, reduced cell growth, reduced colony forming ability, and increased apoptosis, suggesting a novel pro-survival and stem cell maintenance function of LBH in breast cancer. Reciprocal overexpression studies in the basal breast carcinoma line BT549 resulted in increased tumorigenicity in vitro, suggesting that LBH overexpression is indeed oncogenic. Finally, we further characterized LBH protein expression patterns and post-transcriptional regulation. Collectively, this thesis demonstrates that LBH is a direct Wnt target gene in both development and basal breast cancer that promotes the undifferentiated phenotype and survival of basal breast tumor cells.

Serotonergic Antagonists Affect the Activity of Breast Tumor Initiating Cells in Human and Mouse Models of Breast Cancer / ON SEROTONERGIC SIGNALING AND BREAST TUMOR INITIATING CELLS

Gwynne, William D.

January 2019

DOCTOR OF PHILOSOPHY (2019) McMaster University, Hamilton, Ontario (Medical Sciences) TITLE: Serotonergic antagonists affect the activity of breast tumor initiating cells in human and mouse models of breast cancer. AUTHOR: William D. Gwynne, BSc SUPERVISOR: Dr. John A. Hassell NUMBER OF PAGES: XXI; 255 / Breast cancer is the most frequently diagnosed cancer and the leading cause of cancer-related death amongst women worldwide. The relatively unchanging breast cancer-associated mortality rate is in part due to the existence of rare tumor cells (breast tumor initiating cells; BTIC) that possess stem-like properties permitting them to survive therapy and initiate disease recurrence. Hence, identifying agents capable of eradicating these cells would be a favourable therapeutic strategy to improve the durability of breast cancer remissions. To achieve the latter objective our lab screened over 35,000 small molecules for their capacity to inhibit the viability of BTIC-enriched mouse tumor cells. Unexpectedly, several antagonists of the serotonin (5-hydroxytryptamine; 5-HT) transporter and select receptors were among the hit compounds identified in the screen. This thesis aims to establish a connection between serotonergic activity and BTIC. We accomplished the latter by assessing whether components of the 5-HT signaling system are expressed in mouse and human breast tumor cells and whether inhibition of their activity affects BTIC frequency using multiple orthogonal assays. Our data suggest that breast tumor cells of both mouse and human origin express the components necessary for 5-HT synthesis, activity and metabolism and that inhibition of these proteins with selective antagonists reduces the capacity of these cells to form tumorspheres. We demonstrate that highly selective antagonists of SERT and HTR5A target BTIC as established ex vivo cell transplantation assays. We also discovered that these agents synergize with chemotherapy in vivo to affect the growth of mouse breast tumor allografts and human breast tumor xenografts. To validate the molecular targets of these agents, we attempted to phenocopy their effects in functional assays by knocking out their respective genes using CRISPR-Cas9 technology. Collectively, this thesis contributes to an understanding of how 5-HT signaling affects BTIC and identifies serotonergic antagonists as novel anticancer agents. / Dissertation / Doctor of Philosophy (PhD) / Despite improvements in screening technologies and the development of targeted therapies breast cancer remains the second leading cause of cancer-related death among Canadian women. Whereas the current standard of care is effective at treating the majority of patients diagnosed with breast cancer, there remains a substantial proportion of patients that experience relapse after undergoing therapy. Recurrence is due in part to the existence of rare, stem-like tumor cells, termed breast tumor-initiating cells (BTIC) that are insensitive to existing anticancer agents. Hence, identifying drugs capable of targeting these cells is a desirable goal. To pursue the latter, our lab screened approximately 35,000 compounds for their capacity to affect the growth of BTIC-enriched tumor cell populations. Among the hit compounds were antagonists of the serotonin transporter and serotonin receptors, including FDA-approved psychiatric medications. Here, we explore a connection between serotonin-related proteins and BTIC activity with the aim of identifying novel therapeutic agents.

Serotonin signaling

Breast tumor initiating cells

Investigating the Influence of Nanotopography on the Migratory State of Glioblastoma Multiforme Cells

Beliveau, Alexander

28 January 2016

Glioblastoma multiforme (GBM) is an aggressive Grade IV astrocytoma with a poor survival rate. This is largely due to the GBM tumor cells migrating away from the primary tumor site along white matter tracts and blood vessels leading to secondary tumor sites. It is unknown whether the microenvironment nanotopography influences the biomechanical properties of the tumor cells. Although these tumor cells have an innate propensity to migrate, we believe that the nanotopography changes the biomechanical properties to enhance the migratory phenotype. To study this, we used an in vitro polycaprolactone aligned nanofiber film that mimics the nanotopography of the white matter tracts and blood vessels to investigate the mechanical properties of the GBM tumor cells. Our data demonstrate that the cytoskeletal stiffness, traction force, and focal adhesion area are inherently lower in invasive GBM tumor cells compared to healthy astrocytes. Moreover, the tumor cytoskeletal stiffness was significantly reduced when cultured on the aligned nanofiber films compared to smooth and randomly aligned nanofibers films. Analysis of gene expression also showed that tumor cells cultured on the aligned nanotopography upregulated key migratory genes and downregulated key proliferative genes. In addition, cell cycle analysis exhibited a reduced proliferative state on aligned nanofibers, highlighting the dichotomy between proliferation and migration observed in GBM. Finally, focal adhesions of tumor cells were larger and more elliptical when grown on the aligned fibers, suggesting a more migratory state. Therefore, our data demonstrate that the invasive potential is elevated when the tumor cells are cultured on an aligned nanotopography. This in vitro model can further be used to identify the GBM tumor cells’ response in a mimetic in vivo tumor microenvironment and elucidate how the aligned nanotopography transduces into altered gene and protein expression, thus providing a mechanism to target to inhibit the enhanced migratory behavior observed in these cells.

Cytoskeletal stiffness

Migration

Cancer initiating cells

Nanotopography

Glioblastoma multiforme

Targeting triple negative human breast cancer with omega-3 docosahexaenoic acid (DHA) and tocotrienol

Xiong, Ailian

10 October 2013

Triple negative breast cancers (TNBCs) account for ~15-20% of human breast cancers in Western countries. TNBCs are associated with poor prognosis and a low five year survival rate due, in part, to high rates of tumor recurrence, multi-drug resistance, metastasis, and therapeutic toxicity. Tumor initiating cells (TICs) or cancer stem cells (CSCs) are proposed to be responsible for the origin and maintenance of tumors as well as cancer recurrence, metastasis and drug resistance. Nutritionally-based low- to non-toxic therapeutic nutrients that eliminate both bulk tumor cells (non-TICs) and TICs have potential for prevention and treatment of primary and metastatic cancers, including TNBCs. Omega-3 fatty acid-docosahexaenoic acid (DHA) and certain vitamin E compounds [gamma- and delta- tocopherols [mathematical symbols] and tocotrienols [mathematical symbols]], separately and in combination, were investigated for their ability to eliminate non-TICs and TICs in human TNBCs and the mechanisms of action were studied. DHA induced apoptosis in several human TNBC cell lines via activation of endoplasmic-reticulum stress (ER stress) mediated C/EBP (CCAAT/enhancer binding protein) homologous protein (CHOP)/death receptor-5 (DR5) pro-apoptotic signaling involving caspases-8 and 9. DHA eliminated TICs as measured by elimination of aldehyde dehydrogenase active (ALDH⁺) population and inhibition of mammosphere formation. DHA eliminated TICs via suppression of phosphorylated Signal transducers and activators of transcription 3 (pStat-3) as well as downstream mediators cellular myelocytomatosis oncogene (c-Myc) and cyclin D1. SiRNA to Stat-3 reduced the number of ALDH⁺ TNBCs cells and reduced pStat-3, c-Myc, and cyclin D1 mediators, showing that Stat-3 is necessary for maintaining ALDH⁺ population and that c-Myc and cyclin D1 are downstream mediators of Stat-3. Studies also demonstrated that vitamin E compounds possess distinct anticancer activities. In summary, studies provide novel insights into therapeutic potential of DHA and certain vitamin E compounds for treatment of TNBCs. / text

Vitamin E

Apoptosis

Breast cancer

Tumor initiating cells

Docosahexaenoic acid

Interplay Between Cell of Origin and Oncogenic Activation in Glioma

Jiang, Yiwen

January 2012

Glioma is the most frequent primary tumor of the central nervous system. By using the RCAS/tv-a mouse glioma model, we have studied mechanisms controlling glioma development and the effect of cell of origin on these processes. SOX5 was identified as a brain tumor locus in a retroviral insertional mutagenesis screen of PDGF-B induced mouse gliomas. Here we found that SOX5 could suppress PDGFB-induced glioma development particularly in Ink4a-/- mice. Analysis of putative PDGF-B signaling pathways revealed that the underlying mechanism could involve the activation of AKT and p27, which caused an acute cellular senescence. When cultured in a highly selective serum free medium, glioma-initiating cells could be isolated from mouse GBMs and their self-renewal and proliferation was independent on exogenous EGF and FGF2. Addition of serum into the medium induced aberrant differentiation that was reversible. Specific depletion of viral PDGF-B demonstrated that PDGF-B was necessary for stemness and tumorigenicity of GICs by preventing them to differentiate. Subsequently, by applying the same culture conditions, GICs of APC, NSC and OPC origins were isolated from mouse GBMs. GICs derived from NSCs exhibited higher self-renewal, faster proliferation and more potent tumorigenicity than those of APC or OPC origin. Furthermore, addition of 5% serum significantly inhibited the proliferation of APC- and OPC-derived GICs, but did not in NSC-derived GICs. Transcriptome analysis revealed that GICs of the same cell of origin displayed distinct expression profiles. In the last study, we showed that OPCs could serve as the origin for astrocytic glioma. Results from immunostainings revealed that these tumors might belong to a different molecular subtype than the oligodendroglial tumors induced in OPCs. We also found differences in tumorigenic potential between OPCs in neonatal and adult mice, which suggest that developmental age of the cell of origin is important for its susceptibility to oncogenic transformation.

Glioma

PDGF

cell of origin

Sox5

glioma initiating cells

Leaders on their Best Behavior: Leader Behaviors Resulting in Effective Virtual Teams

Frick, Sarah Elizabeth

23 March 2017

A more globalized workforce, coupled with technological advances in electronic communication, have led organizations to turn to virtual work teams at a rapidly increasing rate (Gilson, Maynard, Young, Vartiainen, & Hakonen, 2015). Leadership has been shown to aid team performance across work domains (Morgeson, DeRue, & Karam, 2010), and there exist a host of functional leader behaviors that have been found to benefit face-to-face team performance (Burke, Stagl, Klein, Goodwin, Salas, & Halpin, 2006). Attention to leadership in this new era of work teams is necessary to identify those specific behaviors that enable effective virtual team functioning. Team performance, whether in the virtual context or face-to-face, requires attention to taskwork (i.e., what people do) as well as the required teamwork (i.e., how people work together to go about doing the tasking; Morgan Jr, Glickman, Woodard, Blaiwes, & Salas, 1986). Thus, drawing upon the Consideration and Initiating Structure classification of leader behaviors, the current study sought to determine which behaviors are most critical to virtual team effectiveness and other important outcomes, specifically within the context of a virtual team working on a decision-making task. This study determined that Consideration leader behaviors are most beneficial for virtual team performance, team member satisfaction, and team potency in a decision-making context. Further, perceived leader effectiveness was found to predict team member satisfaction and team potency. This work has important implications for both science and practice, including extending existing leadership theory to a new context (i.e., virtual teams) and influencing leader behaviors for decision-making teams across work domains.

Virtual leaders

teams

leader behaviors

consideration

initiating structure

Psychology

The Relationships between Eight Situational Factors and High and Low Scores on the Leadership Behavior Dimensions of Instructional Supervisors

Campbell, Ona Lee, 1908-

06 1900

The problem of this study was to determine whether there is a significant relationship between certain situational factors and high and low scores on the leadership behavior dimensions of industrial supervisors. The behavior dimensions studies were the two dimensions of Consideration and Initiating Structure, as measured by the instrument used in the study.

School supervision.

leadership behavior dimensions

instructional supervisors

consideration

initiating structure

CD146 is a novel marker for highly tumorigenic cells and a potential therapeutic target in malignant rhabdoid tumor / CD146は悪性ラブドイド腫瘍の腫瘍形成細胞を同定しかつ治療標的である

Noudomi, Seishiro

23 September 2016

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19965号 / 医博第4155号 / 新制||医||1017(附属図書館) / 33061 / 京都大学大学院医学研究科医学専攻 / (主査)教授 野田 亮, 教授 伊達 洋至, 教授 山下 潤 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

CD146

Malignant rhabdoid tumor

Tumor initiating cells

Antibody

Apoptosis

490