Advances in molecular characterization of myeloid proliferations associated with Down syndrome

Li, Jixia; Kalev‐Zylinska, Maggie L.

doi:10.3389/fgene.2022.891214

Cited by 7 publications

(32 citation statements)

References 181 publications

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“…Most GATA1 mutations in TAM include either frameshift or nonsense mutations within exon 2, the GATA1 mutations create an early stop codon, resulting in a short isoform of the GATA1 protein that lacks the Nterminal activation domain, which then affect the translation of the GATA1 protein 1,9 . The detection of GATA1 mutations is important for the diagnosis of TAM.…”

Section: Discussionmentioning

confidence: 99%

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Prenatal diagnosis of Down syndrome combined with transient abnormal myelopoiesis in foetuses with a GATA1 gene variant: Two case reports

HUI

Liu

et al. 2023

Preprint

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Background Transient abnormal myelopoiesis (TAM) is a transient haematological disorder of Down syndrome that is characterised by leucocytosis, the presence of blasts, abnormal haematopoiesis and hepatosplenomegaly. It is usually diagnosed within 8 weeks of birth, and the median age of diagnosis is 3–7 days. Case presentation We report two cases of prenatally diagnosed TAM, both with male foetal onset. One case was a rare placental low percentage 21 trisomy mosiacism, resulting in the occurrence of a false negative NIPT. The final diagnosis was made at 36 weeks of gestation when ultrasound revealed significant enlargement of the foetal liver and spleen and an enlarged heart; the foetus eventually died in utero. We detected a placenta with a low percentage (5%-8%) of trisomy 21 mosiacism by CNV-seq and FISH. In another case, foetal oedema was detected by ultrasound at 31 weeks of gestation. Two foetuses were diagnosed with Down syndrome by chromosomal microarray analysis (CMA) via umbilical vein puncture and had significantly elevated cord blood leucocyte counts with large numbers of blasts. The GATA1 Sanger sequencing results suggested the presence of a [NM_002049.4(GATA1):c.220G > A (p. Val74Ile)] hemizygous variant and a [NM_002049.4(GATA1):c.49dupC(p. Gln17ProfsTer23)] hemizygous variant of the GATA1 gene in two cases. Conclusion It seems highly likely that these two identified mutations are the genetic cause of prenatal TAM in foetuses with Down syndrome.

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Section: Discussionmentioning

confidence: 99%

“…Back in 2002, John Crispino's lab rst identi ed an important role for GATA1 mutations in Down syndrome myeloid leukaemia (ML-DS) 8 . More than 100 types of GATA1 mutations have been reported in trisomy 21 9 .…”

Section: Introductionmentioning

confidence: 99%

Prenatal diagnosis of Down syndrome combined with transient abnormal myelopoiesis in foetuses with a GATA1 gene variant: Two case reports

HUI

Liu

et al. 2023

Preprint

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“…These functional miRNAs form the RISC via binding to AGO. Finally, the active complex interacts with the 3′-UTR of target mRNA through complementary pairing of base pairings, causing translational repression or RNA degradation (Figure A). − Through this process, miRNAs were involved in a series of cellular processes, including apoptosis, − oxidative stress, cell proliferation, , inflammation, , hematopoiesis, , and tumorigenesis. , …”

Section: Micrornasmentioning

confidence: 99%

“…A particular miRNA can target various mRNAs to induce translational repression or RNA degradation, and one mRNA can be regulated by multiple different miRNAs . By modulating gene expression at the post-translational level, miRNAs play a critical role in a series of cellular processes, including apoptosis, − oxidative stress, cell proliferation, , inflammation, , hematopoiesis, , and tumorigenesis. , Importantly, miRNAs not only have an intracellular function but also stably exist in biological fluids such as saliva, cerebrospinal fluid, plasma, serum, gingival fluid, and urine. − Therefore, circulating miRNAs are considered biomarkers of disease and can regulate gene expression in distal cells or organs. ,, …”

Section: Introductionmentioning

confidence: 99%

The Role of microRNAs in Arsenic-Induced Human Diseases: A Review

Liu,

Lei

2023

J. Agric. Food Chem.

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MicroRNAs (miRNAs) are noncoding RNAs with 20–22 nucleotides, which are encoded by endogenous genes and are capable of targeting the majority of human mRNAs. Arsenic is regarded as a human carcinogen, which can lead to many adverse health effects including diabetes, skin lesions, kidney disease, neurological impairment, male reproductive injury, and cardiovascular disease (CVD) such as cardiac arrhythmias, ischemic heart failure, and endothelial dysfunction. miRNAs can act as tumor suppressors and oncogenes via directly targeting oncogenes or tumor suppressors. Recently, miRNA dysregulation was considered to be an important mechanism of arsenic-induced human diseases and a potential biomarker to predict the diseases caused by arsenic exposure. Endogenic miRNAs such as miR-21, the miR-200 family, miR-155, and the let-7 family are involved in arsenic-induced human disease by inducing translational repression or RNA degradation and influencing multiple pathways, including mTOR/Arg 1, HIF-1α/VEGF, AKT, c-Myc, MAPK, Wnt, and PI3K pathways. Additionally, exogenous miRNAs derived from plants, such as miR-34a, miR-159, miR-2911, miR-159a, miR-156c, miR-168, etc., among others, can be transported from blood to specific tissue/organ systems in vivo. These exogenous miRNAs might be critical players in the treatment of human diseases by regulating host gene expression. This review summarizes the regulatory mechanisms of miRNAs in arsenic-induced human diseases, including cancers, CVD, and other human diseases. These special miRNAs could serve as potential biomarkers in the management and treatment of human diseases linked to arsenic exposure. Finally, the protective action of exogenous miRNAs, including antitumor, anti-inflammatory, anti-CVD, antioxidant stress, and antivirus are described.

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“…Non-DS children carrying CBFA2T3::GLIS2 , KMT2A rearrangements and NUP98 :: KDM5A have a very poor prognosis ( de Rooij et al, 2016 ; de Rooij et al, 2017 ). Molecular features of ML-DS have been recently reviewed, including by our group ( Boucher et al, 2021 ; de Castro et al, 2021 ; Grimm et al, 2021 ; Li and Kalev-Zylinska, 2022 ). Here, we provide an updated summary of molecular abnormalities and emerging novel therapeutic strategies in pediatric non-DS AMKL.…”

Section: Introductionmentioning

confidence: 99%

Advances in molecular characterization of pediatric acute megakaryoblastic leukemia not associated with Down syndrome; impact on therapy development

Kalev‐Zylinska

2023

Front. Cell Dev. Biol.

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Acute megakaryoblastic leukemia (AMKL) is a rare subtype of acute myeloid leukemia (AML) in which leukemic blasts have megakaryocytic features. AMKL makes up 4%–15% of newly diagnosed pediatric AML, typically affecting young children (less than 2 years old). AMKL associated with Down syndrome (DS) shows GATA1 mutations and has a favorable prognosis. In contrast, AMKL in children without DS is often associated with recurrent and mutually exclusive chimeric fusion genes and has an unfavorable prognosis. This review mainly summarizes the unique features of pediatric non-DS AMKL and highlights the development of novel therapies for high-risk patients. Due to the rarity of pediatric AMKL, large-scale multi-center studies are needed to progress molecular characterization of this disease. Better disease models are also required to test leukemogenic mechanisms and emerging therapies.

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Advances in molecular characterization of myeloid proliferations associated with Down syndrome

Cited by 7 publications

References 181 publications

Prenatal diagnosis of Down syndrome combined with transient abnormal myelopoiesis in foetuses with a GATA1 gene variant: Two case reports

Prenatal diagnosis of Down syndrome combined with transient abnormal myelopoiesis in foetuses with a GATA1 gene variant: Two case reports

The Role of microRNAs in Arsenic-Induced Human Diseases: A Review

Advances in molecular characterization of pediatric acute megakaryoblastic leukemia not associated with Down syndrome; impact on therapy development

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