An essential role for the hematopoietic transcription factor Ikaros in hypothalamic–pituitary-mediated somatic growth

Ezzat, Shereen; Mader, Rene; Fischer, Sandra E.; Yu, ShunJiang; Ackerley, Cameron; Sylvia, L.

doi:10.1073/pnas.0508565103

Cited by 45 publications

(28 citation statements)

References 38 publications

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“…GH positivity persists in the intermediate lobe of the lateral wings likely attributable to the lack of melanocorticotrope expansion that normally replaces intermediate lobe somatotrophs during development. Other cell types were not measurably affected; the number and area of immunoreactive thyrotrophs and gonadotrophs were not disproportionately different from those of wild-type littermates (Ezzat et al 2006a).…”

Section: Hypothalamic Ikaros Actions Ikaros Directs Somatotroph Expanmentioning

confidence: 86%

“…Again, to exclude the possibility of a secondary response to immunodeficiency, we performed bone marrow reconstitution studies and showed that hematopoietic replacement does not alter IGF-I levels and restore normal growth. We carried out administration of exogenous GH with a response of circulating IGF-I levels and body weight reflecting somatic growth (Ezzat et al 2006a).…”

Section: Hypothalamic Ikaros Actions Ikaros Directs Somatotroph Expanmentioning

confidence: 99%

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The emerging role of the Ikaros stem cell factor in the neuroendocrine system

Ezzat¹,

Sylvia²

2008

Journal of Molecular Endocrinology

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Section: Hypothalamic Ikaros Actions Ikaros Directs Somatotroph Expanmentioning

confidence: 86%

Section: Hypothalamic Ikaros Actions Ikaros Directs Somatotroph Expanmentioning

confidence: 99%

The emerging role of the Ikaros stem cell factor in the neuroendocrine system

Ezzat¹,

Sylvia²

2008

Journal of Molecular Endocrinology

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“…IKAROS is expressed in neuro-epithelial progenitors of the developing striatum, cortical and retinal progenitors, and the developing pituitary (Georgopoulos et al 1992;Ezzat et al 2006;Agoston et al 2007;MartinIbanez et al 2010;Alsio et al 2013). In addition to neuroepithelial cells, HELIOS is also expressed in epidermal keratinocytes (Kelley et al 1998).…”

Section: Expression and Immune Cell Phenotypesmentioning

confidence: 99%

The making of a lymphocyte: the choice among disparate cell fates and the IKAROS enigma

Georgopoulos

2017

Genes Dev.

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Lymphocyte differentiation is set to produce myriad immune effector cells with the ability to respond to multitudinous foreign substances. The uniqueness of this developmental system lies in not only the great diversity of cellular functions that it can generate but also the ability of its differentiation intermediates and mature effector cells to expand upon demand, thereby providing lifelong immunity. Surprisingly, the goals of this developmental system are met by a relatively small group of DNA-binding transcription factors that work in concert to control the timing and magnitude of gene expression and fulfill the demands for cellular specialization, expansion, and maintenance. The cellular and molecular mechanisms through which these lineage-promoting transcription factors operate have been a focus of basic research in immunology. The mechanisms of development discerned in this effort are guiding clinical research on disorders with an immune cell base. Here, I focus on IKAROS, one of the earliest regulators of lymphoid lineage identity and a guardian of lymphocyte homeostasis.

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“…The GHRH lineage is completely dependent upon ASCL1 activity because Ascl1-null embryos have very low expression of genomic screen homeobox 1 (GSH1), a homeobox domain transcription factor necessary for expression of Ghrh (28). A zinc finger containing the transcription factor Ikaros has been found to be necessary for Ghrh expression (12). Interestingly, both GSH1 and Ikaros are similarly expressed in pituitary somatotropes, and loss of either protein results in extreme dwarfism and loss of somatotropes.…”

Section: The Arcuate Nucleus and Achaete-scute Complexmentioning

confidence: 99%

Transcription factors in the development of medial hypothalamic structures

Chua²

2009

American Journal of Physiology-Endocrinology and Metabolism

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Jo Y, Chua S Jr. Transcription factors in the development of medial hypothalamic structures. Am J Physiol Endocrinol Metab 297: E563-E567, 2009. First published April 21, 2009 doi:10.1152/ajpendo.00064.2009.-The hypothalamus has historically been subdivided into nuclei, agglomerations of cell bodies that are visually distinct in histological sections. Regulatory functions of metabolism have been assigned to the various hypothalamic nuclei principally by analysis of animals with lesions of individual nuclei (39) but also via various means of stimulation, such as cooling or heating probes. Biochemical and molecular specificity of these studies became possible with the identification and synthesis of neurotransmitters (7, 38) as well as the means to manipulate the expression of endogenous neurotransmitters (35, 37) and their receptors by genetic means (6, 21). The arcuate nucleus (ARC) is likely to be the primary site for neurons that sense circulating fuels and energy reserves (POMC/CART neurons, NPY/AGRP neurons), whereas the paraventricular nucleus (PVN) receives input from the ARC and harbors many of the releasing factors (CRF, TRH, vasopressin, and oxytocin) that control pituitary hormone release. The ventromedial nucleus (VMN) receives input from the ARC and plays a critical role in energy balance in parallel with the ARC. The VMN and PVN also send descending projections to the autonomic nervous system and other pathways that control ingestive behavior and metabolism. Developmental analyses have revealed that the neurons that comprise the hypothalamic nuclei arise by differentiation and migration from stem cells within the ventricular zone. Based on recent work, it is becoming clear that coordination between numerous transcription factors that determine specification, survival, and migration is necessary for the formation of the hypothalamus, with each nucleus being determined by its own unique set of factors. In this minireview, we will provide a selective view of the roles that transcription factors play in the developing hypothalamus.THE MEDIAL STRUCTURES OF THE HYPOTHALAMUS are critical structures to the proper regulation of ingestive behavior, metabolism, reproduction and growth. We will principally focus on three midline nuclei within this minireview and comment upon the roles of transcription factors in their development and maintenance. The three nuclei are the arcuate nucleus (ARC), the ventromedial nucleus (VMN), and the paraventricular nucleus (PVN). The ARC contains several neurons that express leptin receptors, such as the neuropeptide Y (NPY)/Agoutirelated protein (AgRP) neurons and the proopiomelanocortin (POMC)/cocaine-and amphetamine-regulated transcript (CART) neurons. The abilities of these neurons to sense energy stores (via the proxy of leptin concentrations) as well as circulating fuels are crucial to their normal functions of regulating feeding and metabolism. The NPY-ergic and the melanocortinergic systems are important opposing modulators of feeding and body composition. The VMN is k...

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An essential role for the hematopoietic transcription factor Ikaros in hypothalamic–pituitary-mediated somatic growth

Cited by 45 publications

References 38 publications

The emerging role of the Ikaros stem cell factor in the neuroendocrine system

The emerging role of the Ikaros stem cell factor in the neuroendocrine system

The making of a lymphocyte: the choice among disparate cell fates and the IKAROS enigma

Transcription factors in the development of medial hypothalamic structures

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