TY - JOUR
T1 - T lymphoid differentiation in human bone marrow
AU - Klein, Florian
AU - Feldhahn, Niklas
AU - Lee, Sanggyu
AU - Wang, Hui
AU - Ciuffi, Fiammetta
AU - Von Elstermann, Mirko
AU - Toribio, María L.
AU - Sauer, Heinrich
AU - Wartenberg, Maria
AU - Barath, Varun Singh
AU - Krönke, Martin
AU - Wernet, Peter
AU - Rowley, Janet D.
AU - Müschen, Markus
PY - 2003/5/27
Y1 - 2003/5/27
N2 - The unique role of the thymus in the development of T cells was established >4 decades ago. To elucidate how uncommitted lymphoid progenitor cells are instructed to migrate from bone marrow to the thymus to undergo T lymphoid differentiation, we generated and analyzed a genome-wide gene expression profile of CD7+ CD10+ human bone marrow T cell lineage precursors (TLPs) by using the serial analysis of gene expression technique. Unexpectedly, the serial analysis of gene expression profile identified a high number of (pre-) T cell receptor antigen (TCR)-related transcripts in bone marrow TLPs. To determine the configuration of the TCRβ locus in these cells at a quantitative level, we sorted and analyzed bone marrow TLPs from five donors by single-cell PCR. Similar proportions of TLPs harbored TCRβ germ-line alieles, D-J, or V-DJ gene rearrangements. Thus, bone marrow TLPs are heterogenous with respect to TCRβ rearrangement status, suggesting an active recombination machinery that is consistent with the expression of RAG1 RAG2, and TdT in this population. As a hallmark of ongoing TCRβ V-DJ rearrangement, we could amplify broken-ended recombination-signal sequence DNA intermediates from bone marrow TLPs, but not from mature T cells by ligation-mediated PCR. Approximately half of the TCRβ rearrangements were compatible with the expression of a functional pre-TCR, which is in agreement with surface expression of pre-Tα on bone marrow TLPs as shown by confocal laser microscopy and flow cytometry. At a frequency <0.5% of mononucleated cells in human bone marrow, this population is rare, yet it exemplifies T lymphoid differentiation in the human already before immigration into the thymus.
AB - The unique role of the thymus in the development of T cells was established >4 decades ago. To elucidate how uncommitted lymphoid progenitor cells are instructed to migrate from bone marrow to the thymus to undergo T lymphoid differentiation, we generated and analyzed a genome-wide gene expression profile of CD7+ CD10+ human bone marrow T cell lineage precursors (TLPs) by using the serial analysis of gene expression technique. Unexpectedly, the serial analysis of gene expression profile identified a high number of (pre-) T cell receptor antigen (TCR)-related transcripts in bone marrow TLPs. To determine the configuration of the TCRβ locus in these cells at a quantitative level, we sorted and analyzed bone marrow TLPs from five donors by single-cell PCR. Similar proportions of TLPs harbored TCRβ germ-line alieles, D-J, or V-DJ gene rearrangements. Thus, bone marrow TLPs are heterogenous with respect to TCRβ rearrangement status, suggesting an active recombination machinery that is consistent with the expression of RAG1 RAG2, and TdT in this population. As a hallmark of ongoing TCRβ V-DJ rearrangement, we could amplify broken-ended recombination-signal sequence DNA intermediates from bone marrow TLPs, but not from mature T cells by ligation-mediated PCR. Approximately half of the TCRβ rearrangements were compatible with the expression of a functional pre-TCR, which is in agreement with surface expression of pre-Tα on bone marrow TLPs as shown by confocal laser microscopy and flow cytometry. At a frequency <0.5% of mononucleated cells in human bone marrow, this population is rare, yet it exemplifies T lymphoid differentiation in the human already before immigration into the thymus.
UR - http://www.scopus.com/inward/record.url?scp=0037636579&partnerID=8YFLogxK
U2 - 10.1073/pnas.1031503100
DO - 10.1073/pnas.1031503100
M3 - Article
C2 - 12738882
AN - SCOPUS:0037636579
SN - 0027-8424
VL - 100
SP - 6747
EP - 6752
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 11
ER -