From an evolutionary perspective, stress is an adaptive system that is necessary togenerate appropriate responses to stochastic and unpredictable events, and copeaccordingly with the environment.... Show moreFrom an evolutionary perspective, stress is an adaptive system that is necessary togenerate appropriate responses to stochastic and unpredictable events, and copeaccordingly with the environment. The physiological response to stress has beenremarkably conserved in vertebrate evolution. However, the threats to ourinternal “equilibrium” have changed between our ancestral environments and ourcurrent modern societies, and the demands for survival have evolved. Theglucocorticoid receptor (GR) is a timeless component of stress adaptation, as it is atthe intersection between the environmental stressors (i.e., physical, or psychosocial)and the genome. Therefore, the GR represents a valuable therapeutic target instress- and glucocorticoid-related disorders. This thesis provides new insightsinto the molecular mechanisms underlying GR signaling in metabolic diseases andbrain function and highlights the promise and importance of selectivity in novel GRtargeting treatments. Show less
The research described in this thesis focuses on the use of both embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) to understand cardiac lineage development and disease. To... Show moreThe research described in this thesis focuses on the use of both embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) to understand cardiac lineage development and disease. To investigate the possibility of studying inherited cardiac diseases, we compared pluripotent stem cell-derived cardiomyocytes by investigating both a mouse and human model of a complex cardiac overlap syndrome caused by a mutation in the gene SCN5A. We demonstrated that both ESC- and iPSC-derived cardiomyocytes can recapitulate the characteristics of the disease. Furthermore this thesis describes a detailed protocol to differentiate human pluripotent stem cells to cardiomyocytes that was applied in the study comparing hESC- and hiPSC- derived cardiomyocytes at several time points during cardiac differentiation. We targeted fluorescent marker GFP to one allele of NKX2-5 in a human iPSC line that now matched a similar human ESC reporter line previously generated in the laboratory. This offered the opportunity to obtain cardiomyocytes and their precursors at different time points during the differentiation and determine the true degree of similarity between both pluripotent stem cell sources. Additionally the same hESC- and hiPSC-derived cardiomyocytes were compared to a unique set of foetal heart samples. Show less
