BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Lovastatin, rs7903146, PPARA, calcium channel activity, Diabetes mellitus, Pancreas)
Bookmark Forward

Forced TR2/TR4 expression in sickle cell disease mice confers enhanced fetal hemoglobin synthesis and alleviated disease phenotypes.

Andrew D Campbell, Shuaiying Cui, Lihong Shi, Rebekah Urbonya, Andrea Mathias, Kori Bradley, Kwaku O Bonsu, Rhonda R Douglas, Brittne Halford, Lindsay Schmidt, David Harro, Donald Giacherio, Keiji Tanimoto, Osamu Tanabe, James Douglas Engel

Department of Pediatrics and Infectious Diseases, Division of Pediatric Hematology Oncology, University of Michigan Medical School, Ann Arbor, MI 48109, USA.

Proceedings of the National Academy of Sciences of the United States of America 2011 Nov 15


filter terms:
  • adult (2)
  • anemia sickle cell (1)
  • animals (1)
  • beta thalassemia (1)
  • bone marrow cells (1)
  • cell (1)
  • disease models, animal (1)
  • erythroid cells (2)
  • fetal hemoglobin (4)
  • gene (1)
  • gene expression (2)
  • globin (1)
  • hematocrit (1)
  • hemoglobin (1)
  • hemolysis (1)
  • hepatosplenomegaly (1)
  • human (2)
  • liver necrosis (1)
  • mice (3)
  • missense mutation (1)
  • model animal (2)
  • morbidity (1)
  • mortality (1)
  • mouse (2)
  • nuclear receptor subfamily 2, group c, member 1 (2)
  • nuclear receptor subfamily 2, group c, member 2 (2)
  • nuclear receptors (1)
  • patients (2)
  • phenotype (3)
  • phenotypes (1)
  • red blood cells (1)
  • reticulocyte (1)
  • sickle cell disease (7)
  • spleen (1)
  • TR2 (7)
  • TR4 (7)
  • transcription factors (1)
  • transgenes (1)
  • transgenic mice (2)
  • β globin (1)
  • γ globin (4)
  • ε globin (1)
    • Sizes of these terms reflect their relevance to your search.

    Sickle cell disease (SCD) is a hematologic disorder caused by a missense mutation in the adult β-globin gene. Higher fetal hemoglobin (HbF) levels in red blood cells of SCD patients have been shown to improve morbidity and mortality. We previously found that nuclear receptors TR2 and TR4 repress expression of the human embryonic ε-globin and fetal γ-globin genes in definitive erythroid cells. Because forced expression of TR2/TR4 in murine adult erythroid cells paradoxically enhanced fetal γ-globin gene expression in transgenic mice, we wished to determine if forced TR2/TR4 expression in a SCD model mouse would result in elevated HbF synthesis and thereby alleviate the disease phenotype. In a "humanized" sickle cell model mouse, forced TR2/TR4 expression increased HbF abundance from 7.6% of total hemoglobin to 18.6%, accompanied by increased hematocrit from 23% to 34% and reticulocyte reduction from 61% to 18%, indicating a significant reduction in hemolysis. Moreover, forced TR2/TR4 expression reduced hepatosplenomegaly and liver parenchymal necrosis and inflammation in SCD mice, indicating alleviation of usual pathophysiological characteristics. This article shows that genetic manipulation of nonglobin proteins, or transcription factors regulating globin gene expression, can ameliorate the disease phenotype in a SCD model animal. This proof-of-concept study demonstrates that modulating TR2/TR4 activity in SCD patients may be a promising therapeutic approach to induce persistent HbF accumulation and for treatment of the disease.

    Citation

    Andrew D Campbell, Shuaiying Cui, Lihong Shi, Rebekah Urbonya, Andrea Mathias, Kori Bradley, Kwaku O Bonsu, Rhonda R Douglas, Brittne Halford, Lindsay Schmidt, David Harro, Donald Giacherio, Keiji Tanimoto, Osamu Tanabe, James Douglas Engel. Forced TR2/TR4 expression in sickle cell disease mice confers enhanced fetal hemoglobin synthesis and alleviated disease phenotypes. Proceedings of the National Academy of Sciences of the United States of America. 2011 Nov 15;108(46):18808-13

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 22042865

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.