Study of inherited thrombocytopenia resulting from mutations in ETV6 or RUNX1 using a human pluripotent stem cell model

Inherited thrombocytopenia results in low platelet counts and increased bleeding. Subsets of these patients have monoallelic germline mutations in ETV6 or RUNX1 and a heightened risk of developing hematologic malignancies. Utilizing CRISPR-Cas9, we compared the in vitro phenotype of hematopoietic pr...

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Published in:Stem cell reports 2021-06, Vol.16 (6), p.1458-1467
Main Authors: Borst, Sara, Nations, Catriana C., Klein, Joshua G., Pavani, Giulia, Maguire, Jean Ann, Camire, Rodney M., Drazer, Michael W., Godley, Lucy A., French, Deborah L., Poncz, Mortimer, Gadue, Paul
Format: Article
Language:English
Subjects:
Cells, Cultured
Core Binding Factor Alpha 2 Subunit - genetics
Core Binding Factor Alpha 2 Subunit - metabolism
embryonic stem cells
ETS Translocation Variant 6 Protein
ETV6
Genetic Predisposition to Disease
Hematopoiesis
Humans
Induced Pluripotent Stem Cells - metabolism
iPSCs
megakaryocyte
Megakaryocytes - metabolism
Models, Biological
Mutation
Phenotype
Proto-Oncogene Proteins c-ets - genetics
Proto-Oncogene Proteins c-ets - metabolism
Repressor Proteins - genetics
Repressor Proteins - metabolism
Runx1
Thrombocytopenia - genetics
Thrombocytopenia - metabolism
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cited_by cdi_FETCH-LOGICAL-c463t-1624623523efd8fdab5e244e332fa73f94310558ea4b10203c4ab74c0a5b90373
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container_title Stem cell reports
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creator Borst, Sara
Nations, Catriana C.
Klein, Joshua G.
Pavani, Giulia
Maguire, Jean Ann
Camire, Rodney M.
Drazer, Michael W.
Godley, Lucy A.
French, Deborah L.
Poncz, Mortimer
Gadue, Paul
description Inherited thrombocytopenia results in low platelet counts and increased bleeding. Subsets of these patients have monoallelic germline mutations in ETV6 or RUNX1 and a heightened risk of developing hematologic malignancies. Utilizing CRISPR-Cas9, we compared the in vitro phenotype of hematopoietic progenitor cells and megakaryocytes derived from induced pluripotent stem cell (iPSC) lines harboring mutations in either ETV6 or RUNX1. Both mutant lines display phenotypes consistent with a platelet-bleeding disorder. Surprisingly, these cellular phenotypes were largely distinct. The ETV6-mutant iPSCs yield more hematopoietic progenitor cells and megakaryocytes, but the megakaryocytes are immature and less responsive to agonist stimulation. On the contrary, RUNX1-mutant iPSCs yield fewer hematopoietic progenitor cells and megakaryocytes, but the megakaryocytes are more responsive to agonist stimulation. However, both mutant iPSC lines display defects in proplatelet formation. Our work highlights that, while patients harboring germline ETV6 or RUNX1 mutations have similar clinical phenotypes, the molecular mechanisms may be distinct. [Display omitted] •ETV6-mutant iPSCs yield more HPCs and MKs•RUNX1-mutant iPSCs yield fewer HPCs and MKs•Both ETV6-mutant and RUNX1-mutant MKs display proplatelet formation defects Borst et al. report the first ETV6-mutant iPSC line to model inherited thrombocytopenia with predisposition for hematologic malignancy. Using CRISPR-Cas9 technology, they generate sets of isogenic iPSC lines with patient-specific mutations in ETV6 or RUNX1, both of which lead to thrombocytopenia and high cancer risk. Disparate phenotypes between the two genotypes are identified, suggesting the mechanism of disease is different.
doi_str_mv 10.1016/j.stemcr.2021.04.013
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Subsets of these patients have monoallelic germline mutations in ETV6 or RUNX1 and a heightened risk of developing hematologic malignancies. Utilizing CRISPR-Cas9, we compared the in vitro phenotype of hematopoietic progenitor cells and megakaryocytes derived from induced pluripotent stem cell (iPSC) lines harboring mutations in either ETV6 or RUNX1. Both mutant lines display phenotypes consistent with a platelet-bleeding disorder. Surprisingly, these cellular phenotypes were largely distinct. The ETV6-mutant iPSCs yield more hematopoietic progenitor cells and megakaryocytes, but the megakaryocytes are immature and less responsive to agonist stimulation. On the contrary, RUNX1-mutant iPSCs yield fewer hematopoietic progenitor cells and megakaryocytes, but the megakaryocytes are more responsive to agonist stimulation. However, both mutant iPSC lines display defects in proplatelet formation. Our work highlights that, while patients harboring germline ETV6 or RUNX1 mutations have similar clinical phenotypes, the molecular mechanisms may be distinct. [Display omitted] •ETV6-mutant iPSCs yield more HPCs and MKs•RUNX1-mutant iPSCs yield fewer HPCs and MKs•Both ETV6-mutant and RUNX1-mutant MKs display proplatelet formation defects Borst et al. report the first ETV6-mutant iPSC line to model inherited thrombocytopenia with predisposition for hematologic malignancy. Using CRISPR-Cas9 technology, they generate sets of isogenic iPSC lines with patient-specific mutations in ETV6 or RUNX1, both of which lead to thrombocytopenia and high cancer risk. 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subjects Cells, Cultured
Core Binding Factor Alpha 2 Subunit - genetics
Core Binding Factor Alpha 2 Subunit - metabolism
embryonic stem cells
ETS Translocation Variant 6 Protein
ETV6
Genetic Predisposition to Disease
Hematopoiesis
Humans
Induced Pluripotent Stem Cells - metabolism
iPSCs
megakaryocyte
Megakaryocytes - metabolism
Models, Biological
Mutation
Phenotype
Proto-Oncogene Proteins c-ets - genetics
Proto-Oncogene Proteins c-ets - metabolism
Repressor Proteins - genetics
Repressor Proteins - metabolism
Runx1
Thrombocytopenia - genetics
Thrombocytopenia - metabolism
title Study of inherited thrombocytopenia resulting from mutations in ETV6 or RUNX1 using a human pluripotent stem cell model
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