BACKGROUND: Normal hematopoietic development depends on the activity of the Ikaros transcription factor, which contains distinct zinc-finger domains that mediate DNA binding and protein dimerization. Mice homozygous for a transgene encoding a dominant-negative version of Ikaros that lacks the DNA-binding domain but not the dimerization domain have a more severe phenotype than Ikaros null mice. This observation suggests the presence of factor(s) that can dimerize with Ikaros and partially complement its function. One previously identified factor, Aiolos, probably serves this role in the lymphoid system; a related factor involved in hematopoietic progenitors remains unknown, however. RESULTS: Here, we describe the cloning of an Ikaros-related gene, Helios. Analysis of the primary sequences of Helios, Ikaros and Aiolos revealed that the DNA-binding, transcriptional activation and dimerization domains are functionally conserved. Helios activated transcription from Ikaros DNA-binding sites and could dimerize with itself, Ikaros or Aiolos. Expression of Helios was detected in the earliest hematopoietic sites of the embryo, in hematopoietic stem cells in the adult and was subsequently restricted to a subset of cells in the T cell lineage. Helios co-localized with Ikaros and Aiolos proteins in macromolecular nuclear structures and formed stable complexes in vivo with the dominant-negative version of Ikaros. CONCLUSIONS: Distinct but overlapping expression patterns of members of the Ikaros gene family during hematopoiesis might result in the formation of different multimeric complexes that have specific roles in lineage progression. The preferential expression of Helios in the earliest stages of hematopoiesis suggests that this gene functions predominantly in early progenitors.
BACKGROUND: Normal hematopoietic development depends on the activity of the Ikaros transcription factor, which contains distinct zinc-finger domains that mediate DNA binding and protein dimerization. Mice homozygous for a transgene encoding a dominant-negative version of Ikaros that lacks the DNA-binding domain but not the dimerization domain have a more severe phenotype than Ikaros null mice. This observation suggests the presence of factor(s) that can dimerize with Ikaros and partially complement its function. One previously identified factor, Aiolos, probably serves this role in the lymphoid system; a related factor involved in hematopoietic progenitors remains unknown, however. RESULTS: Here, we describe the cloning of an Ikaros-related gene, Helios. Analysis of the primary sequences of Helios, Ikaros and Aiolos revealed that the DNA-binding, transcriptional activation and dimerization domains are functionally conserved. Helios activated transcription from Ikaros DNA-binding sites and could dimerize with itself, Ikaros or Aiolos. Expression of Helios was detected in the earliest hematopoietic sites of the embryo, in hematopoietic stem cells in the adult and was subsequently restricted to a subset of cells in the T cell lineage. Helios co-localized with Ikaros and Aiolos proteins in macromolecular nuclear structures and formed stable complexes in vivo with the dominant-negative version of Ikaros. CONCLUSIONS: Distinct but overlapping expression patterns of members of the Ikaros gene family during hematopoiesis might result in the formation of different multimeric complexes that have specific roles in lineage progression. The preferential expression of Helios in the earliest stages of hematopoiesis suggests that this gene functions predominantly in early progenitors.
Authors: Raquel Martín-Ibáñez; Empar Crespo; Miriam Esgleas; Noelia Urban; Bei Wang; Ronald Waclaw; Katia Georgopoulos; Salvador Martínez; Kenneth Campbell; Carlos Vicario-Abejón; Jordi Alberch; Susan Chan; Philippe Kastner; John L Rubenstein; Josep M Canals Journal: Stem Cells Dev Date: 2012-01-26 Impact factor: 3.272
Authors: Zheng Zhang; C Scott Swindle; John T Bates; Rose Ko; Claudiu V Cotta; Christopher A Klug Journal: Blood Date: 2006-11-16 Impact factor: 22.113
Authors: Mohamed H S Awwad; Katharina Kriegsmann; Julian Plaumann; Michael Benn; Jens Hillengass; Marc S Raab; Uta Bertsch; Markus Munder; Katja Weisel; Hans Jürgen Salwender; Mathias Hänel; Roland Fenk; Jan Dürig; Carsten Müller-Tidow; Hartmut Goldschmidt; Michael Hundemer Journal: Oncoimmunology Date: 2018-08-01 Impact factor: 8.110