GGrantIndex
← Search

Mechanistic roles of BCL11A in globin switching and fetal hemoglobin silencing

$135,703K01FY2015DKNIH

Ut Southwestern Medical Center, Dallas TX

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): The developmental switch from human fetal (3) to adult (2) hemoglobin represents a clinically important example of developmental gene regulation. The transcription factor BCL11A is a newly identified critical regulator of 3-globin silencing and hemoglobin switching. BCL11A, which encodes a zinc-finger repressor protein, binds to sequences within the human 2-globin cluster and reconfigures the locus by modulating chromosomal loop formation. BCL11A controls the developmental silencing of 3-globin genes in primary human erythroid precursors and in mice carrying a human 2-globin cluster transgene. Therefore, focused study of BCL11A and its cooperating factors should allow dissection of the mechanisms involved and may reveal additional targets for reactivation of fetal hemoglobin (HbF) in patients with 2-hemoglobin disorders. In this project, Dr. Xu will test the hypothesis that BCL11A silences HbF expression through cooperating with transcriptional co-repressor complexes and modulating long-range chromosomal interactions. Specifically, this proposal will aim to: 1. Determine target genes of BCL11A by integrative genomic analysis, 2. Dissect in greater depth the molecular mechanisms by which BCL11A modulates 3-globin transcription and hemoglobin switching and 3. Explore the contribution of LSD1/CoREST complexes to BCL11A-mediated silencing of 3-globin expression. Dr. Jian Xu is a postdoctoral fellow at the Howard Hughes Medical Institute, Children's Hospital Boston (CHB) and his proposed 5-year mentored career plan will be performed in the laboratory of Dr. Stuart Orkin in the Division of Hematology/Oncology at CHB. Dr. Xu's background is in molecular and developmental biology, and his long-term career goal is to become an independent investigator with expertise in basic mechanisms of blood cell development and disorders. Under the mentorship of Dr. Orkin, a recognized leader in the fields of transcriptional regulation, hematopoiesis, and stem cell biology, Dr. Xu has developed a research and training platform that will allow him to acquire the experimental skills and knowledge necessary to be productive in both a mentored and independent setting. To accomplish this, Dr. Xu will take advantage of the expertise and resources of the Orkin lab, acquire additional skills and training in relevant research areas, and establish collaboration with a team of experts. The plan is ideally carried out in the Division of Hematology/Oncology at Children's Hospital Boston, given its distinguished record for training research scientists in a rich and collaborative environment.

View original record on NIH RePORTER →