Aurora Hernández scite author profile

The online version of this article has a supplementary appendix. BackgroundTranscription factors play essential roles in both normal and malignant hematopoiesis. This is the case for the growth factor independent 1b (GFI1B) transcription factor, which is required for erythroid and megakaryocytic differentiation and over-expressed in leukemic patients and cell lines. Design and MethodsTo investigate GFI1B regulation, we searched for multispecies conserved non-coding elements between GFI1B and neighboring genes. We used a formaldehyde-assisted isolation of regulatory elements (FAIRE) assay and DNase1 hypersensitivity to assess the chromatin conformation of these sites. Next, we analyzed transcription factor binding and histone modifications at the GFI1B locus including the conserved non-coding elements by a chromatin immunoprecipitation assay. Finally, we studied the interaction of the GFI1B promoter and the conserved non-coding elements with the chromatin conformation capture technique and used immunofluorescence to evaluate GFI1B levels in individual cells. ResultsWe localized several conserved non-coding elements containing multiple erythroid specific transcription factor binding sites at the GFI1B locus. In GFI1B-expressing cells a subset of these conserved non-coding elements and the promoter adopt a close spatial conformation, localize with open chromatin sites, harbor chromatin modifications associated with gene activation and bind multiple transcription factors and co-repressors. ConclusionsOur findings indicate that GFI1B regulatory elements behave as activators and repressors. Different protein levels within a cell population suggest that cells must activate and repress GFI1B continuously to control its final level. These data are consistent with a model of GFI1B regulation in which GFI1B binds to its own promoter and to the conserved noncoding elements as its levels rise. This would attract repressor complexes that progressively down-regulate the gene. GFI1B expression would decrease until a stage at which the activating complexes predominate and expression increases.Key words: GFI1B, controls, multiple sites.Citation : Anguita E, Villegas A, Iborra F, and Hernández A. GFI1B controls its own expression binding to multiple sites. Haematologica. 2010;95:36-46. doi:10.3324/haematol.2009 This is an open-access paper. GFI1B controls its own expression binding to multiple sites

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Human promoter mutations unveil Oct-1 and GATA-1 opposite action on Gfi1b regulation

Hernández

Villegas

Anguita

2010

Ann Hematol

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Growth factor-independence 1b (Gfi1b) is a zinc finger transcription factor essential for erythroid and megakaryocytic development. To better understand Gfi1b regulation and to know the implication of the level of expression of this gene in human pathology, we have searched for promoter punctual sequence variations in 214 patients with different hematological diseases. We found two previously unknown congenital mutations at evolutionary conserved GATA and octamer-binding (Oct) transcription factor sites. The Oct site mutation was also found in five relatives of the patient. The GATA motif mutation reduced promoter activity by 50% in vitro, while homozygous patients with the octamer site mutation showed a four-to-five times increase of Gfi1b RNA in platelets. Electrophoretic mobility shift analyses demonstrated that different protein complexes bind to both sites and that binding is reduced by the mutations. Finally, we found that GATA-1 and Oct-1 are the main components of each complex. This study provides evidences of a new mechanism for Gfi1b repression. This is also the first report of Gfi1b mutations with a functional implication; further investigation and follow-up will clarify the involvement of these mutations in hematological disease.

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Huella hídrica en tierras secas: el caso del turismo de sol y playa en Guanacaste (Costa Rica)

Hernández¹,

Picón²

2013

Rev. Ambientales.

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Diagnóstico prenatal de hemoglobinopatías y talasemias

et al. 2009

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«Red flags» en pacientes con polineuropatía amiloidótica familiar relacionada con transtiretina (hATTR) en el momento del diagnóstico en un área no endémica de España

et al. 2023

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