Systematic Cellular Disease Models Reveal Synergistic Interaction of Trisomy 21 and GATA1 Mutations in Hematopoietic Abnormalities

Banno, Kimihiko; Omori, Sayaka; Hirata, Katsuya; Nawa, Nobutoshi; Nakagawa, Natsuki; Nishimura, Ken; Ohtaka, Manami; Nakanishi, Mahito; Sakuma, Tetsushi; Yamamoto, Takashi; Toki, Tsutomu; Ito, Etsuro; Yamamoto, Toshiyuki; Kokubu, Chikara; Takeda, Junji; Taniguchi, Hidetoshi; Arahori, Hitomi; Wada, Kazuko; Kitabatake, Yasuji; Ozono, Keiichi

doi:10.1016/j.celrep.2016.04.031

Cited by 79 publications

(124 citation statements)

References 37 publications

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“…We previously generated a patient-derived trisomy 21 iPSC (‘Tri21-GATA1wt’ iPSC) line that contains one paternal and two maternal copies of chromosome 21 (Supplementary Fig. S1), and a partial trisomy 21 iPSC (‘Partial-Tri21-GATA1wt’ iPSCs) line (hereafter referred to as ‘Tri21’ iPSCs and ‘Partial-Tri21’ iPSCs, respectively) 17 . In this Partial-Tri21 iPSC line, a 4-Mb region on HSA21 was selectively deleted only from the paternal chromosome 21 in Tri21 iPSCs, so these genetically modified cells can be used to clarify the parental origin of chromosome 21.…”

Section: Resultsmentioning

confidence: 99%

“…Next, we differentiated the healthy control disomy 21 (Di21), trisomy 21 (Tri21) and corrected disomy 21 iPSC lines into haematopoietic lineages to evaluate their haematopoietic differentiation potential. Recently, we have reported that trisomy 21 augments foetal haematopoiesis through the acceleration of early haematopoietic commitment 17 . The proportion of CD43 + cells in the CD34 + CD38 − Lin − fraction, which represents committed haematopoietic progenitors, was significantly increased in the Tri21 iPSC line compared with that in the Di21 iPSC lines, as reported previously (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Human iPSCs (hiPSCs) were established and cultured as previously described 17 . In brief, iPSCs were generated from either cord blood cells, or dermal fibroblast, a kind gift from Dr. Toshiyuki Yamamoto (Tokyo Women’s Medical University Institute for Integrated Medical Science, Tokyo, Japan), using a Sendaivirus vector encoding tetracistronic factors ( OCT3/4, SOX2, KLF4 and c-Myc ) and maintained on mitomycin C (Sigma)-inactivated mouse embryonic fibroblasts in hES medium containing DMEM/F12 (Wako), 20% KnockOut Serum Replacement (Gibco), 2 mM L-alanyl-L-glutamine (Wako), 1% MEM nonessential amino acid solution (Wako), 0.1 mM 2-mercaptoethanol (Sigma) and 5 ng/mL basic fibroblast growth factor (Katayama Chemical).…”

Section: Methodsmentioning

confidence: 99%

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A Pair of Maternal Chromosomes Derived from Meiotic Nondisjunction in Trisomy 21 Affects Nuclear Architecture and Transcriptional Regulation

Omori

Tanabe

Banno

et al. 2017

Sci Rep

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Eukaryotic genomes are organised into complex higher-order structures within the nucleus, and the three-dimensional arrangement of chromosomes is functionally important for global gene regulation. The existence of supernumerary chromosome 21 in Down syndrome may perturb the nuclear architecture at different levels, which is normally optimised to maintain the physiological balance of gene expression. However, it has not been clearly elucidated whether and how aberrant configuration of chromosomes affects gene activities. To investigate the effects of trisomy 21 on nuclear organisation and gene expression, we performed three-dimensional fluorescent imaging analysis of chromosome-edited human induced pluripotent stem cells (iPSCs), which enabled identification of the parental origin of the three copies of chromosome 21. We found that two copies of maternal chromosomes resulting from meiotic nondisjunction had a higher tendency to form an adjacent pair and were located relatively distant from the nuclear membrane, suggesting the conserved interaction between these homologous chromosomes. Transcriptional profiling of parental-origin-specific corrected disomy 21 iPSC lines indicated upregulated expression of the maternal alleles for a group of genes, which was accompanied by a fluctuating expression pattern. These results suggest the unique effects of a pair of maternal chromosomes in trisomy 21, which may contribute to the pathological phenotype.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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A Pair of Maternal Chromosomes Derived from Meiotic Nondisjunction in Trisomy 21 Affects Nuclear Architecture and Transcriptional Regulation

Omori

Tanabe

Banno

et al. 2017

Sci Rep

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“…ES-sac-mediated in vitro hematopoietic differentiation analyses using the DS models revealed that Ts21 and the GATA1 mutations synergistically contributed to hematopoietic abnormalities. Although another group established isogenic cell lines via the spontaneous loss of chromosome 21 from induced pluripotent stem (iPS) cells derived from a DS patient, they reported the synergistic interaction of Ts21 and GATA1 mutations mainly from an assessment of nonisogenic cell lines with a different genotype [96]. It is crucial to establish isogenic cell lines for disease models harboring chromosome abnormalities.…”

Section: In Vitro Models For Aneuploidy and Cancermentioning

confidence: 99%

Combinations of chromosome transfer and genome editing for the development of cell/animal models of human disease and humanized animal models

et al. 2017

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“…TAM is characterised by increased circulating blast cells that harbor acquired N-terminal truncating mutations in the key hematopoietic transcription factor gene GATA1 (Wechsler et al 2002;Groet et al 2003;Rainis et al 2003;Bhatnagar et al 2016). Furthermore, the interaction between DS, GATA1 mutations and TAM was reported, recently (Banno et al 2016). TAM is usually self-limiting and undergoes spontaneous regression, but 10-20% of neonates with TAM subsequently develop myeloid leukemia in the first 5 years of life.…”

Section: Introductionmentioning

confidence: 99%

Cytokine Profiles in Pericardial Effusion in a Down Syndrome Infant with Transient Abnormal Myelopoiesis

Shitara

Takahashi

Aoki

et al. 2017

Tohoku J. Exp. Med.

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Infants with Down Syndrome (DS) are at risk of developing a transient abnormal myelopoiesis (TAM). TAM is characterised by increased circulating blast cells but usually self-limiting. DS patients with TAM sometimes show fetal hydrops and effusion in body cavities, but the mechanism remains unclear. We report here a case of infant with DS who had pericardial effusion, TAM, and eosinophilia. In her pericardial effusion, white blood cell count was 6.0 × 10 3 /µL, 41% of which were eosinophils. After administration of prednisolone, pericardial effusion gradually decreased, and TAM and eosinophilia improved. In order to elucidate the immunological mechanism, we measured the levels of 17 cytokines in her pericardial effusion fluid and serum. In her pericardial fluid, there were high levels of 12 cytokines, and they were higher than those in her serum. In particular, IL-6 (44,573 pg/mL), IL-8 (4,865 pg/mL), and IL-13 (579.41 pg/mL) were at extremely high levels in her pericardial fluid. After administration of prednisolone, the levels of 8 of the 12 elevated cytokines in her pericardial fluid decreased and all of the elevated cytokines decreased in her serum. Corticosteroids can be effective to reduce cytokine levels and the amount of effusion in patients with DS. It is presumed that effusion seen in DS with TAM could be related to an abnormal production of cytokines at the effusion site.

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Systematic Cellular Disease Models Reveal Synergistic Interaction of Trisomy 21 and GATA1 Mutations in Hematopoietic Abnormalities

Cited by 79 publications

References 37 publications

A Pair of Maternal Chromosomes Derived from Meiotic Nondisjunction in Trisomy 21 Affects Nuclear Architecture and Transcriptional Regulation

A Pair of Maternal Chromosomes Derived from Meiotic Nondisjunction in Trisomy 21 Affects Nuclear Architecture and Transcriptional Regulation

Combinations of chromosome transfer and genome editing for the development of cell/animal models of human disease and humanized animal models

Cytokine Profiles in Pericardial Effusion in a Down Syndrome Infant with Transient Abnormal Myelopoiesis

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