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Title
TARGETING CELLULAR SIGNALING PATHWAYS IN ESTROGEN RECEPTOR POSITIVE BREAST CANCER
Creator
Gentile, Sonia Kumar
Date
2018
Collection
Electronic Theses & Dissertations
Description
Estrogen receptor positive (ER+) breast cancer is the most common type of breast cancer diagnosed in women. While usually initially responsive to combinations of chemotherapy with hormonal therapies, resistance to current clinically used treatments is becoming more and more frequent. It is vital to continue to study the mechanisms of resistance to endocrine therapies and discover methods for combating this drug resistance to improve patient survival. The mixed lineage kinase (MLK) inhibitor,...
Show moreEstrogen receptor positive (ER+) breast cancer is the most common type of breast cancer diagnosed in women. While usually initially responsive to combinations of chemotherapy with hormonal therapies, resistance to current clinically used treatments is becoming more and more frequent. It is vital to continue to study the mechanisms of resistance to endocrine therapies and discover methods for combating this drug resistance to improve patient survival. The mixed lineage kinase (MLK) inhibitor, CEP-1347, was studied in culture and in pre-clinical models to evaluate its efficacy, alone and in combination with the clinically available selective estrogen receptor downregulator ICI 182,780, in treating endocrine sensitive and resistant ER+ breast cancers. Using cell lines models, its effects on cell viability, cell death, and cell cycle progression were analyzed, and nuclear and cellular morphology throughout mitosis were examined. Studies were expanded to animals to determine the efficacy of CEP-1347 against tumor growth in a pre-clinical setting. Tumor cell growth and death were studied, as well as the potential for tumor regrowth after the cessation of treatment. Investigation into drug efficacy were expanded into patient derived xenograft (PDX) lines and effects on cell cycle progression were analyzed.The data demonstrate that CEP-1347, especially in combination with ICI 182,780 has the potential to treat endocrine resistant disease through causing a cell cycle arrest which leads to a combination of decreasing proliferation and inducing apoptosis of tumor cells. Furthermore, inhibition of regrowth after cessation of treatment in endocrine sensitive cells suggests that perhaps if used as an earlier line therapy, CEP-1347 in combination with ICI 182,780 may slow or prevent the development of resistance.
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Title
THE NUCLEO-CYTOPLASMIC FUNCTION OF ACTIN AND ACTIN DEPOLYMERIZATION FACTORS IN PLANT IMMUNITY
Creator
Li, Pai
Date
2022
Collection
Electronic Theses & Dissertations
Description
The plant immune system is a multi-phase complex network that involves the collaboration of multiple subcellular structures. In the past two decades, the core signaling pathways of the immune process, including pattern-triggered immunity (PTI), effector-triggered immunity (ETI), and systemic acquired resistance (SAR), as well as the behavior of organelles, have been revealed to a level of clarity that is able to describe a general and well-covered process of the immune response. However,...
Show moreThe plant immune system is a multi-phase complex network that involves the collaboration of multiple subcellular structures. In the past two decades, the core signaling pathways of the immune process, including pattern-triggered immunity (PTI), effector-triggered immunity (ETI), and systemic acquired resistance (SAR), as well as the behavior of organelles, have been revealed to a level of clarity that is able to describe a general and well-covered process of the immune response. However, there are still many events during the immune response that remain mysterious. For instance, while higher plants live a sessile lifestyle, there are countless intracellular motions mediated by the cytoskeleton (including its associated proteins) in response to the external triggers, such as the invasion of pathogens. As our knowledge of plant immunity accumulates, the deficiency in knowledge on how immune signaling regulates the behavior of the cytoskeleton as a critical aspect of defense response, howbeit, becomes more evident. Therefore, this is a field of research that calls for powerful toolboxes to facilitate the analysis of the cytoskeleton in the context of immunity, as well as instructive biological model(s) that guide the direction of the multifarious studies. In this dissertation, I focus on the summary and prospective discussion on the immune function of the actin cytoskeleton and, more importantly, describe my original studies on two major aspects of this topic. First, a prerequisite to functional study of the actin cytoskeleton in the cytoplasm is the ability to accurately describe the status of the cytoskeleton. To achieve this goal, I developed an algorithm, namely implicit Laplacian of enhanced edge (ILEE), to accurately identify and analyze the biological status of the cytoskeleton from confocal image samples. This method significantly improves the accuracy, stability, and robustness of cytoskeleton segmentation, solves other technical hindrances, and enables abundant information to be extracted from images for biological interpretation (see Chapter 2). The ILEE algorithm will further help me to explore the phenotypes of actin architecture in response to immune signaling, which was not previously available due to the lack of the toolbox. Also, the ILEE has been packaged as a library released publicly to benefit the community with a powerful cytoskeleton analysis platform.For the second project of my total research, I focused on the immune function of the actin cytoskeleton in the nucleus. Previously, some Arabidopsis actin depolymerization factors were reported to genetically contribute to plant immunity by unknown mechanism(s), and my story began with a novel activity identified among Arabidopsis actin depolymerization factors – to interact with WRKYs, the stress-responsive transcription factors. During my research, I proved that certain ADFs can form a complex with WRKYs that binds to targeted promoters, hence regulating the activity of WRKYs and playing a positive role in the immune response. The knowledge obtained through this study, in combination with previous research (Lu et al., 2020; Porter et al., 2012a) of my lab, can be summarized into a biological model, in which ADF mediates a nuclear-cytoplasmic immune regulation that systemically facilitates both cytoskeleton dynamics and pro-immune transcriptome reprogramming. In general, this study reveals a novel yet general pattern of cytoskeleton mediated transcriptional regulation, as ADF and perhaps other components of the actin cytoskeleton can shuttle between the cytoplasm and nucleus to form a network with a higher level of complexity. As a potential broader impact, the application range of this model includes but is not necessarily limited to plant immunity.
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Title
THE ROLE OF ARID1A IN ENDOMETRIOSIS-RELATED INFERTILITY
Creator
Marquardt, Ryan Michael
Date
2022
Collection
Electronic Theses & Dissertations
Description
The inner lining of the uterus, the endometrium, is composed of a luminal epithelial cell layer supported by an underlying stroma which contains epithelial gland structures. These distinct cell types coordinate with complex and dynamic molecular crosstalk tightly controlled by ovarian steroid hormones to regulate a healthy menstrual cycle and support the initiation and maintenance of a healthy pregnancy. Endometriosis occurs when endometrium-like tissue forms lesions outside the uterine...
Show moreThe inner lining of the uterus, the endometrium, is composed of a luminal epithelial cell layer supported by an underlying stroma which contains epithelial gland structures. These distinct cell types coordinate with complex and dynamic molecular crosstalk tightly controlled by ovarian steroid hormones to regulate a healthy menstrual cycle and support the initiation and maintenance of a healthy pregnancy. Endometriosis occurs when endometrium-like tissue forms lesions outside the uterine cavity, and this painful disease afflicts about 10% of reproductive-age women, an estimated 176 million worldwide. Up to 50% of these individuals also experience infertility, and many cases cannot be explained by morphological or ovarian defects, which implicates a uterine environment that is non-receptive to embryo implantation. The molecular basis for the correlation between endometriotic lesion presence and a non-receptive endometrium is unclear, but available evidence suggests that dysregulation of epigenetic regulators may play a role. Expression of AT-rich interaction domain 1A (ARID1A), a chromatin remodeling factor, is lost in some endometriotic lesions and markedly reduced in endometrial biopsies from infertile women with endometriosis, but it is essential in the uterus for fertility. This dissertation evaluates the overarching hypothesis that ARID1A loss connects endometriosis and infertility by causing increased lesion development and a non-receptive endometrium. Chapter 1 provides a review of the current literature on the topics of normal ovarian steroid hormone regulation of endometrial function, the dysregulation that occurs in endometriosis with its clinical implications and therapeutic options, and the specific involvement of ARID1A in endometrial pathophysiology. Chapter 2 delineates a critical role for endometrial epithelial ARID1A in uterine gland function for fertility. Chapter 3 reports the need for endometrial epithelial ARID1A to maintain uterine immune homeostasis during early pregnancy. Chapter 4 explores the involvement of endometrial ARID1A loss in a mouse model of endometriosis-related infertility. Chapter 5 describes a method for in vivo photoacoustic imaging of this endometriosis mouse model through the application of nanoparticle labeling. Finally, Chapter 6 summarizes the findings, discusses conclusions from the synthesized data in the context of the current literature, and provides ideas for future studies of related topics. Together, the studies herein make the case that endometrial ARID1A loss contributes to endometriosis-related infertility by exacerbating endometriotic lesion formation and compromising the ability of the endometrium to maintain the gland function and immune homeostasis necessary for the establishment and maintenance of pregnancy. Continued investigation through studies like these is key to understanding endometrial pathophysiology at the molecular level in order to enable development of targeted treatment options for women suffering the devastating effects of endometriosis and related infertility.
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