Runx1/Cbfβ2 Complexes Are Required for Lymphoid Tissue Inducer Cell Differentiation at Two Developmental Stages

Tachibana, Masashi; Tenno, Mari; Tezuka, Chieko; Sugiyama, Machiko; Yoshida, Hisahiro; Taniuchi, Ichiro

doi:10.4049/jimmunol.1000162

Cited by 50 publications

(74 citation statements)

References 43 publications

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“…In addition to these granulocytes, numbers of monocytes (Gr-1 low Siglec-F Ϫ ), NK cells (NK1.1 ϩ CD3 Ϫ ), total T cells (CD3 ϩ ), B cells (B220 ϩ ), and dendritic cells (CD11c ϩ ) were not significantly different in Runx1 P1N/P1N mice compared with WT mice in either the BM or spleen (Figure 2A-B). As we reported previously, 40 NKT cells (NK1.1 ϩ CD3 ϩ ) were reduced in both the BM and spleen (Figure 2A-B). These data indicate that, among granulocyte populations, basophils are uniquely deficient in Runx1 P1N/P1N mice.…”

supporting

confidence: 86%

“…34 We had demonstrated previously a requirement for P1-Runx1 in lymphoid tissue inducer cell differentiation, 40 and found that Runx1 P1N/P1N mice have severe reductions in NKT cells, mild T-cell deficits, and an increase in Lin Ϫ c-Kit ϩ Sca-1 ϩ HSCs. 40 However, there have been no previous reports describing the myeloid cell compartment in these mice. When we analyzed myeloid cells in Runx1 P1N/P1N mice, we found that they have a severe reduction in basophils.…”

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confidence: 94%

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Critical role of P1-Runx1 in mouse basophil development

Mukai

BenBarak

Tachibana³

et al. 2012

Blood

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IntroductionBasophils are the least prevalent of the granulocytes, generally representing less than 1% of leukocytes in the peripheral blood. Basophil studies have been hampered by the rarity of these cells and, until recently, the lack of tools such as basophil-deficient mice with which to assess their roles in vivo. However, recent studies have unveiled evidence for several previously unrecognized roles for basophils that are distinct from those of mast cells. [1][2][3][4][5][6][7][8][9][10][11] In addition to hampering investigations of basophil function, the small numbers of basophils and the paucity of tools for their analysis have made studies of basophil development challenging and therefore there have been few studies of this process. Arinobu et al showed that basophil lineage-restricted progenitors (BaPs) are identifiable in the BM and that the transcription factor CCAAT/ enhancer-binding protein-␣ (C/EBP␣) is important for the fate decision to develop into terminally differentiated basophils. 12 Ohmori et al reported that the IL-3-STAT5 axis is important for differentiating granulocyte-monocyte progenitors to BaPs, 13 and Siracusa et al showed that thymic stromal lymphopoietin (TSLP) can facilitate the development of BaPs into mature basophils. 8 Despite such progress, many of the details of the basophil differentiation pathway remain to be determined. For example, it is known that IL-3-deficient, 8,14,15 TSLP receptor (TSLPR)-deficient, 8 and IL-3/TSLPR double-deficient 8 mice have normal baseline numbers of basophils, indicating that other factors are more important in maintaining basophil levels at baseline. Moreover, C/EBP␣-deficient mice die within 8 hours of birth 16 and STAT5-deficient mice die in utero, 17 limiting the ability to use these animals to evaluate factors that might regulate basophil development at baseline in adult mice in vivo.Runt-related transcription factor (Runx) proteins are a family of transcription factors 18,19 that have crucial roles during the development of many tissues and the immune system. Each of the 3 kinds of Runx proteins, Runx1, Runx2, and Runx3,19,20 has distinct roles in development, with Runx1 being required for hematopoiesis, 18 Runx2 for osteogenesis, 21,22 and Runx3 for neurogenesis, thymopoiesis, and the control of gastric epithelial-cell proliferation. [23][24][25] Although a constitutive deficiency in Runx1 is embryonically lethal, studies of conditional Runx1-knockout mice have indicated that Runx1 can regulate the differentiation of hematopoietic stem cells (HSCs), B lymphocytes, natural killer T (NKT) cells, and T lymphocytes. 18,[26][27][28][29][30] Mx-Cre Runx1-knockout mice, which have an inducible Runx1 inactivation system, exhibit normal numbers of HSCs, a normal myeloid-cell (neutrophil) compartment, a severe reduction in megakaryocyte differentiation and platelet formation, and defects in B and T lymphocytes. 31 All 3 Runx genes can be transcribed from the distal (P1) or proximal (P2) promoters, 32 and P1-and P2-derived Runx1 variants differ i...

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supporting

confidence: 86%

mentioning

confidence: 94%

Critical role of P1-Runx1 in mouse basophil development

Mukai

BenBarak

Tachibana³

et al. 2012

Blood

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“…It has been demonstrated that Notch signaling helps to maximize the efficiency of LTi cell differentiation [41]. Likewise, LTi cell differentiation needs to some transcriptions factors such as Runx1 and Tox [68,69]. Furthermore, aryl hydrocarbon receptor (AhR) signals are required for the maintenance and expansion of postnatal emerging of ILC3 subset [47].…”

Section: Ilc Developmentmentioning

confidence: 99%

Characteristics of innate lymphoid cells (ILCs) and their role in immunological disorders (an update)

Yazdani

Sharifi

Shirvan

et al. 2015

Cellular Immunology

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“…(10,19,21) In brief, with the splice signal for Cbfb1 located inside of exon 5, the GTG was mutated to CTC, and with the splice signal for Cbfb2 at the 3' terminus of exon 5, GTTAG was mutated to AATTC. Cbfb fl/fl/Cre mice were generated by using Cbfb fl/fl mice and Dermo1 Cre knock-in mice, in which Cre is expressed in mesenchymal cells giving rise to both chondrocyte and osteoblast lineages.…”

Section: Micementioning

confidence: 99%

“…(17,18) Cbfb1 and Cbfb2 are formed by alternative splicing using donor splice sites located inside exon 5 and at the 3' terminus of exon 5, respectively, and an acceptor splice site located at the 5' terminus of exon 6. (18) Although Cbfb2 is required for the differentiation of lymphoid tissue inducer cells and the development of mucosa-associated lymphoid tissue, (19,20) the functions of the two isoforms in skeletal development are completely unknown. In this study, we examined the skeletal development of mice lacking the Cbfb1 isoform (Cbfb1 -/-) and mice lacking the Cbfb2 isoform (Cbfb2 -/-).…”

mentioning

confidence: 99%

Cbfb2 Isoform Dominates More Potent Cbfb1 and Is Required for Skeletal Development

Jiang

Qin

Kawane

et al. 2016

Journal of Bone and Mineral Research

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Cbfb is a cotranscription factor that forms a heterodimer with Runx proteins Runx1, Runx2, and Runx3. It is required for fetal liver hematopoiesis and skeletal development. Cbfb has two functional isoforms, Cbfb1 and Cbfb2, which are formed by alternative splicing. To address the biological functions of these isoforms in skeletal development, we examined Cbfb1 -/-and Cbfb2 -/-mouse embryos. Intramembranous and endochondral ossification was retarded and chondrocyte and osteoblast differentiation was inhibited in Cbfb2 -/-embryos but not in Cbfb1 -/-embryos. Cbfb2 mRNA was upregulated in calvariae, limbs, livers, thymuses, and hearts of Cbfb1 -/-embryos but Cbfb1 mRNA was not in those of Cbfb2 -/-embryos, and the total amount of Cbfb1 and Cbfb2 mRNA in Cbfb1 -/-embryos was similar to that in wild-type embryos but was severely reduced in Cbfb2 -/-embryos. The absolute numbers of Cbfb2 mRNA in calvariae, limbs, livers, thymuses, and brains in wild-type embryos were about three times higher than those of Cbfb1 in the respective tissue. The levels of Runx proteins were reduced in calvariae, limbs, and primary osteoblasts from Cbfb2 -/-embryos, but the reduction in Runx2 protein was very mild. Furthermore, the amounts of Runx proteins and Cbfb in Cbfb2 -/-embryos differed similarly among skeletal tissues, livers, and thymuses, suggesting that Runx proteins and Cbfb are mutually required for their stability. Although Cbfb1 -/-embryos developed normally, Cbfb1 induced chondrocyte and osteoblast differentiation and enhanced DNA binding of Runx2 more efficiently than Cbfb2. Our results indicate that modulations in the relative levels of the isoforms may adjust transcriptional activation by Runx2 to appropriate physiological levels. Cbfb2 was more abundant, but Cbfb1 was more potent for enhancing Runx2 activity. Although only Cbfb2 loss generated overt skeletal phenotypes, both may play major roles in skeletal development with functional redundancy.

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Runx1/Cbfβ2 Complexes Are Required for Lymphoid Tissue Inducer Cell Differentiation at Two Developmental Stages

Cited by 50 publications

References 43 publications

Critical role of P1-Runx1 in mouse basophil development

Critical role of P1-Runx1 in mouse basophil development

Characteristics of innate lymphoid cells (ILCs) and their role in immunological disorders (an update)

Cbfb2 Isoform Dominates More Potent Cbfb1 and Is Required for Skeletal Development

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