1: J Exp Med. 2005 Mar 21;201(6):971-9. Epub 2005 Mar 14. 

Interleukin-7 is necessary to maintain the B cell potential in common lymphoid
progenitors.

Dias S, Silva H Jr, Cumano A, Vieira P.

Unite du Developpement des Lymphocytes, Institute National de la Sante et de la
Recherche Medicale U668, Institut Pasteur, 75724 Paris, France.

Interleukin-7 (IL-7) promotes survival and expansion of lymphoid precursors. We
show here that, in addition, IL-7 has a fundamental role, as early as the stage
of the multipotent (B/T/NK) common lymphoid progenitor (CLP), in maintaining the
B cell differentiation program open. CLPs generated in the absence of IL-7 have
normal T/NK differentiation potential, but severely impaired B potential.
Accordingly, CLPs from IL-7-deficient mice express lower amounts of early B cell
factor (EBF) and Pax5 than wild-type CLPs, but similar amounts of GATA-3.
Importantly, induced overexpression of EBF is sufficient to restore the B
potential in these cells. These results indicate that IL-7 directs commitment of
CLPs by modulating EBF expression. This is the first example of a cytokine
influencing lymphoid lineage commitment in multipotent progenitors and
highlights the relevance of the expression of a functional IL-7 receptor at the
CLP stage.

PMID: 15767371 [PubMed - indexed for MEDLINE]


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2: Hum Cell. 2004 Jun;17(2):85-92. 

Transcription factor expression in cell lines derived from natural killer-cell
and natural killer-like T-cell leukemia-lymphoma.

Matsuo Y, Drexler HG, Harashima A, Okochi A, Shimizu N, Orita K.

Fujisaki Cell Center, Hayashibara Biochemical Labs, Okayama 702-8006, Japan.
yomatsuo@hayashibara.co.jp

Although a number of transcription factors (TFs) have been identified that play
a pivotal role in the development of hematopoietic lineages, only little is
known about factors that may influence development and lineage commitment of
natural killer (NK) or NK-like T (NKT)-cells. Obviously to fully appreciate the
NK- and NKT-cell differentiation process, it is important to identify and
characterize the TFs effecting the NK- and NKT-cell lineage. Furthermore, these
TFs may play a role in NK- or NKT-cell leukemias, in which the normal
differentiation program is presumably disturbed. The present study analyzed the
expression of the following 13 TFs: AML1, CEBPA, E2A, ETS1, GATA1, GATA2, GATA3,
IKAROS, IRF1, PAX5, PU1, TBET and TCF1 in 7 malignant NK-cell lines together
with 5 malignant NKT-cell lines, 5 T-cell acute lymphoblastic leukemia (ALL)
cell lines including 3 gamma/delta T-cell receptor (TCR) type and 2 alpha/beta
TCR type, and 3 B-cell precursor (BCP) leukemia cell lines. AML1, E2A, ETS1,
IKAROS and IRF1 were found to be positive for all cell lines tested whereas
GATA1 turned out to be universally negative. CEBPA, PAX5 and PU1 were negative
for all cell lines tested except in the three positive BCP-cell lines. GATA2 was
positive for 3/5 T-cell lines but negative for the other cell lines. GATA3 was
positive for 7/7 NK-, 4/5 NKT-, 5/5 T- and 2/3 BCP-cell lines. TBET was positive
for all NK- and NKT-cell lines and negative for all T- and BCP-cell lines except
one BCP-cell line. In contrast to the expression of TBET, TCF1 was negative for
all NK- and NKT-cell lines, being positive for 4/5 T- and 1/3 BCP-cell lines.
Expression analysis of TFs revealed that NK- and NKT-cell lines showed identical
profiles, clearly distinct from those of the other T-ALL or BCP-ALL
leukemia-derived cell lines..

PMID: 15369140 [PubMed - indexed for MEDLINE]


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3: J Immunol. 2004 Sep 15;173(6):3935-44. 

Analysis of Notch1 function by in vitro T cell differentiation of Pax5 mutant
lymphoid progenitors.

Hoflinger S, Kesavan K, Fuxa M, Hutter C, Heavey B, Radtke F, Busslinger M.

Research Institute of Molecular Pathology, Vienna Biocenter, Vienna, Austria.

Signaling through the Notch1 receptor is essential for T cell development in the
thymus. Stromal OP9 cells ectopically expressing the Notch ligand Delta-like1
mimic the thymic environment by inducing hemopoietic stem cells to undergo in
vitro T cell development. Notch1 is also expressed on Pax5-/- pro-B cells, which
are clonable lymphoid progenitors with a latent myeloid potential. In this
study, we demonstrate that Pax5-/- progenitors efficiently differentiate in
vitro into CD4+CD8+ alphabeta and gammadelta T cells upon coculture with
OP9-Delta-like1 cells. In vitro T cell development of Pax5-/- progenitors
strictly depends on Notch1 function and progresses through normal developmental
stages by expressing T cell markers and rearranging TCRbeta, gamma, and delta
loci in the correct temporal sequence. Notch-stimulated Pax5-/- progenitors
efficiently down-regulate the expression of B cell-specific genes, consistent
with a role of Notch1 in preventing B lymphopoiesis in the thymus. At the same
time, Notch signaling rapidly induces cell surface expression of the c-Kit
receptor and transcription of the target genes Deltex1 and pre-Talpha
concomitant with the activation of TCR Vbeta germline transcription and the
regulatory genes GATA3 and Tcf1. These data suggest that Notch1 acts upstream of
GATA3 and Tcf1 in early T cell development and regulates Vbeta-DJbeta
rearrangements by controlling the chromatin accessibility of Vbeta genes at the
TCRbeta locus. Copyright 2004 The American Association of Immunologists, Inc.

PMID: 15356142 [PubMed - indexed for MEDLINE]


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4: EMBO J. 2003 Aug 1;22(15):3887-97. 

Myeloid lineage switch of Pax5 mutant but not wild-type B cell progenitors by
C/EBPalpha and GATA factors.

Heavey B, Charalambous C, Cobaleda C, Busslinger M.

Research Institute of Molecular Pathology, Vienna Biocenter,Dr. Bohr-Gasse 7,
A-1030 Vienna, Austria.

The developmental potential of hematopoietic progenitors is restricted early on
to either the erythromyeloid or lymphoid lineages. The broad developmental
potential of Pax5(-/-) pro-B cells is in apparent conflict with such a strict
separation, although these progenitors realize the myeloid and erythroid
potential with lower efficiency compared to the lymphoid cell fates. Here we
demonstrate that ectopic expression of the transcription factors C/EBPalpha,
GATA1, GATA2 and GATA3 strongly promoted in vitro macrophage differentiation and
myeloid colony formation of Pax5(-/-) pro-B cells. GATA2 and GATA3 expression
also resulted in efficient engraftment and myeloid development of Pax5(-/-)
pro-B cells in vivo. The myeloid transdifferentiation of Pax5(-/-) pro-B cells
was accompanied by the rapid activation of myeloid genes and concomitant
repression of B-lymphoid genes by C/EBPalpha and GATA factors. These data
identify the Pax5(-/-) pro-B cells as lymphoid progenitors with a latent myeloid
potential that can be efficiently activated by myeloid transcription factors.
The same regulators were unable to induce a myeloid lineage switch in Pax5(+/+)
pro-B cells, indicating that Pax5 dominates over myeloid transcription factors
in B-lymphocytes.

PMID: 12881423 [PubMed - indexed for MEDLINE]


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