GATA1 Mutations in Down Syndrome: Implications for Biology and Diagnosis of Children with Transient Myeloproliferative Disorder and Acute Megakaryoblastic Leukemia

Overview

Journal Pediatr Blood Cancer

Specialties Hematology
Oncology
Pediatrics

Date 2004 Sep 25

PMID 15390312

Citations 19

Authors

John D Crispino

Affiliations

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Abstract

Although physicians have known for many decades that children with Down syndrome are predisposed to developing transient myeloproliferative disorder (TMD) and acute megakaryoblastic leukemia (AMKL), many questions regarding these disorders remain unresolved. First, what is the relationship between TMD and AMKL? Second, what specific genetic alterations contribute to the leukemic process? Finally, what factors lead to the increased predisposition to these myeloid disorders? In this review I will summarize important new insights into the biology of TMD and AMKL gained from the recent discovery that GATA1, a gene that encodes an essential hematopoietic transcription factor, is mutated in the leukemic blasts from nearly all patients with these malignancies. In addition, I will discuss whether assaying for the presence of a GATA1 mutation can aid in the diagnosis of these and related megakaryoblastic leukemias. Future research aimed at defining the activity of mutant GATA-1 protein and identifying interacting factors encoded by chromosome 21 will likely lead to an even greater understanding of this intriguing leukemia.

Citing Articles

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PMID: 38350611 PMC: 10864098. DOI: 10.1098/rsob.230319.

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

Tang H, Hu J, Liu L, Lv L, Lu J, Yang J Mol Cytogenet. 2023; 16(1):27.

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Modeling Down Syndrome Myeloid Leukemia by Sequential Introduction of and Mutations in Induced Pluripotent Stem Cells with Trisomy 21.

Barwe S, Sebastian A, Sidhu I, Kolb E, Gopalakrishnapillai A Cells. 2022; 11(4).

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Modeling Transient Abnormal Myelopoiesis Using Induced Pluripotent Stem Cells and CRISPR/Cas9 Technology.

Barwe S, Sidhu I, Kolb E, Gopalakrishnapillai A Mol Ther Methods Clin Dev. 2020; 19:201-209.

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