Brunet de la Grange P et al. (NOV 2006)
Blood 108 9 2998--3004
Low SCL/TAL1 expression reveals its major role in adult hematopoietic myeloid progenitors and stem cells.
Stem cell leukemia/T cell acute leukemia 1 (SCL/TAL1) plays a key role in the development of murine primitive hematopoiesis but its functions in adult definitive hematopoiesis are still unclear. Using lentiviral delivery of TAL1-directed shRNA in human hematopoietic cells,we show that decreased expression of TAL1 induced major disorders at different levels of adult hematopoietic cell development. Erythroid and myeloid cell production in cultures was dramatically decreased in TAL1-directed shRNA-expressing cells,whereas lymphoid B-cell development was normal. These results confirm the role of TAL1 in the erythroid compartment and show TLA1's implication in the function of myeloid committed progenitors. Moreover,long-term cultures and transplantation of TAL1-directed shRNA-expressing CD34+ cells into irradiated nonobese diabetic-severe combined immunodeficient (NOD-SCID) mice led to dramatically low levels of human cells of all lineages including the B-lymphoid lineage,strongly suggesting that TAL1 has a role in the early commitment of hematopoietic stem cells (HSCs) in humans. Cultures and transplantation experiments performed with mouse Sca1+ cells gave identical results. Altogether,these observations definitively show that TAL1 participates in the regulation of hematopoiesis from HSCs to myeloid progenitors,and pinpoint TAL1 as a master protein of human and murine adult hematopoiesis.
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产品号#:
03434
03444
18756
18756RF
18056
18056RF
产品名:
MethoCult™ GF M3434
MethoCult™ GF M3434
EasySep™小鼠SCA1正选试剂盒
RoboSep™ 小鼠SCA1正选试剂盒含滤芯吸头
Dumont N et al. (APR 2009)
Immunology 126 4 588--95
Increased secretion of hyperimmune antibodies following lipopolysaccharide stimulation of CD40-activated human B cells in vitro.
Human B cells can be cultured ex vivo for a few weeks,following stimulation of the CD40 cell surface molecule in the presence of recombinant cytokines such as interleukin-4 (IL-4). However,attempts to produce polyclonal antigen-specific human antibodies by in vitro culture of human B cells obtained from immunized donors have not been successful. It has been shown in mice that lipopolysaccharide (LPS) is a potent mitogen for B cells and plays an important role in the generation of antigen-specific antibody responses. Although it has long been believed that LPS has no direct effect on human B cells,recent data indicating that IL-4-activated human B cells are induced to express Toll-like receptor-4,the main LPS receptor,prompted us to study the effects of LPS on the proliferation and antibody secretion of human B cells. Our results showed that LPS caused a reduction in the expansion of CD40-activated human B cells,accompanied by an increase in antigen-specific antibody secretion. This result suggested that some,but not all,B cells were able to differentiate into antibody-secreting cells in response to LPS. This increased differentiation could be explained by the observation that LPS-stimulated human B cells were induced to secrete higher amounts of IL-6,a pleiotropic cytokine well-known for its B-cell differentiation activity. In vivo,the effect of LPS on cytokine secretion by B cells may not only enhance B-cell differentiation but also help to sustain a local ongoing immune response to invading Gram-negative bacteria,until all pathogens have been cleared from the organism.
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产品号#:
14054
18357
18357RF
产品名:
Gekas C et al. (APR 2009)
Blood 113 15 3461--71
Mef2C is a lineage-restricted target of Scl/Tal1 and regulates megakaryopoiesis and B-cell homeostasis.
The basic helix-loop-helix transcription factor stem cell leukemia gene (Scl) is a master regulator for hematopoiesis essential for hematopoietic specification and proper differentiation of the erythroid and megakaryocyte lineages. However,the critical downstream targets of Scl remain undefined. Here,we identified a novel Scl target gene,transcription factor myocyte enhancer factor 2 C (Mef2C) from Scl(fl/fl) fetal liver progenitor cell lines. Analysis of Mef2C(-/-) embryos showed that Mef2C,in contrast to Scl,is not essential for specification into primitive or definitive hematopoietic lineages. However,adult VavCre(+)Mef2C(fl/fl) mice exhibited platelet defects similar to those observed in Scl-deficient mice. The platelet counts were reduced,whereas platelet size was increased and the platelet shape and granularity were altered. Furthermore,megakaryopoiesis was severely impaired in vitro. Chromatin immunoprecipitation microarray hybridization analysis revealed that Mef2C is directly regulated by Scl in megakaryocytic cells,but not in erythroid cells. In addition,an Scl-independent requirement for Mef2C in B-lymphoid homeostasis was observed in Mef2C-deficient mice,characterized as severe age-dependent reduction of specific B-cell progenitor populations reminiscent of premature aging. In summary,this work identifies Mef2C as an integral member of hematopoietic transcription factors with distinct upstream regulatory mechanisms and functional requirements in megakaryocyte and B-lymphoid lineages.
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Puissant A et al. (FEB 2010)
Cancer research 70 3 1042--52
Resveratrol promotes autophagic cell death in chronic myelogenous leukemia cells via JNK-mediated p62/SQSTM1 expression and AMPK activation.
Autophagy that is induced by starvation or cellular stress can enable cancer cell survival by sustaining energy homeostasis and eliminating damaged organelles and proteins. In response to stress,cancer cells have been reported to accumulate the protein p62/SQSTM1 (p62),but its role in the regulation of autophagy is controversial. Here,we report that the plant phytoalexin resveratrol (RSV) triggers autophagy in imatinib-sensitive and imatinib-resistant chronic myelogenous leukemia (CML) cells via JNK-dependent accumulation of p62. JNK inhibition or p62 knockdown prevented RSV-mediated autophagy and antileukemic effects. RSV also stimulated AMPK,thereby inhibiting the mTOR pathway. AMPK knockdown or mTOR overexpression impaired RSV-induced autophagy but not JNK activation. Lastly,p62 expression and autophagy in CD34+ progenitors from patients with CML was induced by RSV,and disrupting autophagy protected CD34+ CML cells from RSV-mediated cell death. We concluded that RSV triggered autophagic cell death in CML cells via both JNK-mediated p62 overexpression and AMPK activation. Our findings show that the JNK and AMPK pathways can cooperate to eliminate CML cells via autophagy.
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