Marten Hansen scite author profile

Dominant-negative mutations in the transcription factor Growth Factor Independence-1B (GFI1B), such as GFI1B Q287* , cause a bleeding disorder characterized by a plethora of megakaryocyte and platelet abnormalities. The deregulated molecular mechanisms and pathways are unknown. Here we show that both normal and Q287* mutant GFI1B interacted most strongly with the lysine specific demethylase-1 – REST corepressor - histone deacetylase (LSD1-RCOR-HDAC) complex in megakaryoblasts. Sequestration of this complex by GFI1B Q287* and chemical separation of GFI1B from LSD1 induced abnormalities in normal megakaryocytes comparable to those seen in patients. Megakaryocytes derived from GFI1B Q287* -induced pluripotent stem cells also phenocopied abnormalities seen in patients. Proteome studies on normal and mutant-induced pluripotent stem cell-derived megakaryocytes identified a multitude of deregulated pathways downstream of GFI1B Q287* including cell division and interferon signaling. Proteome studies on platelets from GFI1B Q287* patients showed reduced expression of proteins implicated in platelet function, and elevated expression of proteins normally downregulated during megakaryocyte differentiation. Thus, GFI1B and LSD1 regulate a broad developmental program during megakaryopoiesis, and GFI1B Q287* deregulates this program through LSD1-RCOR-HDAC sequestering.

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Human‐induced pluripotent stem cell‐derived blood products: state of the art and future directions

Hansen

Lindern

Akker

et al. 2019

FEBS Letters

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In vitro cultured blood cells for transfusion purposes provide a safe alternative to donor blood, particularly for patients who require recurrent transfusions, and can be used as carriers of therapeutic molecules. In vitro derivation of hematopoietic cell types from human‐induced pluripotent stem cells (iPSCs) allows for a constant, well‐defined production pipeline for such advanced therapeutic and medicinal products. Application of selected iPSC‐derived hematopoietic stem cells and hematopoietic effector cells in transplantation/transfusions would avoid the risk of alloimmunization and blood‐borne diseases, as well as enable the production of enhanced blood cells expressing molecules that enforce blood cell function or endow novel therapeutic properties. Here, we discuss the state of the art approaches to produce erythroid, megakaryoid and myeloid cells from iPSCs and the biological and technical hurdles that we need to overcome prior to therapeutic application.

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Marten Hansen

Tumor-Infiltrating Lymphocyte Therapy or Ipilimumab in Advanced Melanoma

Molecular mechanisms of bleeding disorderassociated GFI1B^Q287* mutation and its affected pathways in megakaryocytes and platelets

Human‐induced pluripotent stem cell‐derived blood products: state of the art and future directions

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Marten Hansen

Tumor-Infiltrating Lymphocyte Therapy or Ipilimumab in Advanced Melanoma

Molecular mechanisms of bleeding disorderassociated GFI1BQ287* mutation and its affected pathways in megakaryocytes and platelets

Human‐induced pluripotent stem cell‐derived blood products: state of the art and future directions

Contact Info

Product

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Molecular mechanisms of bleeding disorderassociated GFI1B^Q287* mutation and its affected pathways in megakaryocytes and platelets