Stem cells have critical roles in development and homeostasis;understanding their biology is essential for re- generative medicine, preventing and treating cancer, and developing therapies to combat aging and degenerative disease. Important to many stem cell systems are interactions with endocrine factors, for regulating cell cycling, fate-specification or differentiation. One such factor is thyroid hormone (TH), which has diverse and often opposing effects across stem cell lineages, and for which defects in signaling lead to mental and physical retardation, peripheral neuropathies, infertility and other disorders. These studies use zebrafish adult pigmentation as an innovative and tractable system for elucidating TH functions in differentiation and morphogenesis as well as homeostasis and neoplasia. Adult pigment cells of zebrafish arise from neural crest-derived latent stem or progenitor cells that differentiate during the larval-to-adult transformation, a period that shares similarities with late fetal, neonatal and adolescent stages of mammals. Preliminary analyses demonstrated that TH represses the development of black melanophores, homologous to mammalian melanocytes, but promotes the development of yellow/orange xanthophores. Studies in Aim 1 will uncover the cellular bases for these effects, focusing on whether TH specifies alternative fates or promotes terminal differentiation within defined progenitor lineages and whether TH modulates morphogenetic behaviors of proliferation, migration or survival. Additional analyses will test for later TH-dependent homeostasis of these lineages and whether TH protects against melanoma onset or progression, as hypothyroidism is significantly more prevalent in human melanoma patients than in the general population. Studies in Aim 2 will elucidate molecular mechanisms of TH activities in pigment stem cell lineages by testing roles for canonical (""""""""genomic"""""""") signaling, in which liganded TH receptors directly modulate target gene transcription, and non-canonical mechanisms, in which TH promotes cytoskeletal changes and interacts with a variety of signaling pathways. Additional analyses will test two molecular mechanisms that are excellent candidates for mediating TH effects on pigment cells, via hypoxia inducible factor 1? or signaling through the receptor tyrosine kinases Kit and Colony stimulating factor-1 receptor. Experiments in Aims 1 and 2 will employ an innovative suite of approaches including genetic analyses of new mutants, manipulation of TH status using a conditional transgenic line and lineage-specific transgenic effectors, single cell- fate mapping, and high-resolution time-lapse imaging. Together, these studies will answer several of the most important questions about TH activities in pigmentation while establishing a highly accessible system for ad- dressing TH functions in stem cells more generally.
Thyroid hormone (TH) plays diverse roles in human development and adult homeostasis whereas deficiencies in TH signaling lead to mental and physical retardation, peripheral neuropathies, and other disorders. TH signaling also can promote, or suppress, the progression of several cancers. Some of the most important targets of TH signals are stem cells and their progeny, yet this same hormone can have very different effects on different stem cell lineages. This project introduces a novel and unusually accessible system, adult pigmentation of zebrafish, for elucidating roles of TH in development, homeostasis, and cancer progression, with translational relevance for regenerative medicine, aging and degenerative disease research, and cancer prevention and therapy.
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