技术资料

OBJECTIVE: In murine hematopoietic tissue,direct repopulation experiments have demonstrated that the side population (SP) represents a remarkable enrichment of hematopoietic stem cells. Human SP has been phenotyped as negative for lineage antigens as well as CD34. However,in the 9 years since the original publication,no long-term hematopoietic reconstitution has been reported for the adult human SP/CD34(-) subset. Elevated levels of aldehyde dehydrogenase (ALDH) have been demonstrated in murine and human progenitor cells when compared to other hematopoietic cells. METHODS: Here,we report the phenotype of human cord blood SP cells. We established the technique of simultaneous phenotyping,Hoechst exclusion,and ALDH labeling on murine tissues. We then performed the simultaneous analysis of phenotype,SP,and ALDH activity on human cord blood and bone marrow cells. Finally,we analyzed the phenotype and functional potential of human cord blood ALDH(+) cells to determine whether Lin(-)/CD34(-) cells are identified via this technique. RESULTS: We demonstrate that human Lin(-)/CD34(-)/ALDH(+) cells are capable of long-term repopulation. Although the SP technique identifies cells that overlap with the ALDH(+) cell population,this is restricted to the CD34(+) cell subset. CONCLUSION: Hoechst exclusion ability does not seem to be the method of choice for the isolation of human hematopoietic stem cells. View Publication

Cited2 (cAMP-responsive elementbinding protein [CBP]/p300-interacting transactivators with glutamic acid [E] and aspartic acid [D]-rich tail 2) is a newly identified transcriptional modulator. Knockout of the Cited2 gene results in embryonic lethality with embryos manifesting heart and neural tube defects. Cited2-/- fetal liver displayed significant reduction in the numbers of Lin(-)c-Kit+Sca-1+ cells,Lin(-)c-Kit+ cells,and progenitor cells of different lineages. Fetal liver cells from Cited2-/- embryos gave rise to markedly reduced number of colonies in the colony-forming unit assay. Primary and secondary transplantation studies showed significantly compromised reconstitution of T-lymphoid,B-lymphoid,and myeloid lineages in mice that received a transplant of Cited2-/- fetal liver cells. Competitive reconstitution experiments further showed that fetal liver hematopoietic stem cell (HSC) function is severely impaired due to Cited2 deficiency. Microarray analysis showed decreased expression of Wnt5a and a panel of myeloid molecular markers such as PRTN3,MPO,Neutrophil elastase,Cathepsin G,and Eosinophil peroxidase in Cited2-/- fetal livers. Decreased expression of Bmi-1,Notch1,LEF-1,Mcl-1,and GATA2 was also observed in Cited2-/- Lin(-)c-Kit+ cells. The present study uncovers for the first time a novel role of Cited2 in the maintenance of hematopoietic homeostasis during embryogenesis and thus provides new insights into the molecular regulation of hematopoietic development. View Publication

Brain tumors can arise following deregulation of signaling pathways normally activated during brain development and may derive from neural stem cells. Given the requirement for Hedgehog in non-neoplastic stem cells,we investigated whether Hedgehog blockade could target the stem-like population in glioblastoma multiforme (GBM). We found that Gli1,a key Hedgehog pathway target,was highly expressed in 5 of 19 primary GBM and in 4 of 7 GBM cell lines. Shh ligand was expressed in some primary tumors,and in GBM-derived neurospheres,suggesting a potential mechanism for pathway activation. Hedgehog pathway blockade by cyclopamine caused a 40%-60% reduction in growth of adherent glioma lines highly expressing Gli1 but not in those lacking evidence of pathway activity. When GBM-derived neurospheres were treated with cyclopamine and then dissociated and seeded in media lacking the inhibitor,no new neurospheres formed,suggesting that the clonogenic cancer stem cells had been depleted. Consistent with this hypothesis,the stem-like fraction in gliomas marked by both aldehyde dehydrogenase activity and Hoechst dye excretion (side population) was significantly reduced or eliminated by cyclopamine. In contrast,we found that radiation treatment of our GBM neurospheres increased the percentage of these stem-like cells,suggesting that this standard therapy preferentially targets better-differentiated neoplastic cells. Most importantly,viable GBM cells injected intracranially following Hedgehog blockade were no longer able to form tumors in athymic mice,indicating that a cancer stem cell population critical for ongoing growth had been removed. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

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The extended substrate specificity of granzyme B (GrB) was used to identify substrates among the chaperone superfamily. This approach identified Hsp90 and Bag1-L as novel GrB substrates,and an additional GrB cleavage site was identified in the Hsc70/Hsp70-Interacting Protein,Hip. Hsp90,Bag1L,and Hip were validated as GrB substrates in vitro,and mutational analysis confirmed the additional cleavage site in Hip. Because the role of Hip in apoptosis is unknown,its proteolysis by GrB was used as a basis to test whether it has anti-apoptotic activity. Previous work on Hip was limited to in vitro characterization; therefore,it was important to demonstrate Hip cleavage in a physiological context and to show its relevance to natural killer (NK) cell-mediated death. Hip is cleaved at both GrB cleavage sites during NK-mediated cell death in a caspase-independent manner,and its cleavage is due solely to GrB and not other granule components. Furthermore,Hip is not cleaved upon stimulation of the Fas receptor in the Jurkat T-cell line,suggesting that Hip is a substrate unique to GrB. RNA interference-mediated reduction of Hip within the K562 cell line rendered the cells more susceptible to NK cell-mediated lysis,indicating that proteolysis by GrB of Hip contributes to death induction. The small effect of RNA interference-mediated Hip deficiency on cytotoxicity is in agreement with the inherent redundancy of NK cell-mediated cell death. The identification of additional members of the chaperone superfamily as GrB substrates and the validation of Hip as an anti-apoptotic protein contribute to understanding the interplay between stress response and apoptosis. View Publication

TCR/CD28 engagement triggers the initiation of a variety of signal transduction pathways that lead to changes in gene transcription. Although reorganization of the actin cytoskeleton is required for T cell activation,the molecular pathways controlled by the actin cytoskeleton are ill defined. To this end,we analyzed TCR/CD28-stimulated signaling pathways in cytochalasin D-treated T cells to determine the cytoskeletal requirements for T cell activation. Cytochalasin D treatment impaired T cell activation by causing a reduction in TCR/CD28-mediated calcium flux,and blocked activation of two regulatory elements within the IL-2 promoter,NFAT/AP-1 and CD28RE/AP. Treatment had no effect on signaling leading to the activation of either AP-1 or NF-kappaB. Significantly,we found that NFAT1 is required for optimal c-rel up-regulation in response to TCR/CD28 stimulation. In fact,NFAT1 could be detected bound at the c-rel promoter in response to TCR/CD28 stimulation,and targeting of NFAT1 using RNA interference in human CD4(+) T cells abrogated c-rel transcription. Overall,these findings establish that disrupting actin cytoskeletal dynamics impairs TCR/CD28-mediated calcium flux required for NFAT1-mediated c-rel transcription and,thus,activation of the CD28RE/AP. View Publication

Mesenchymal stromal cells (MSC) provide a supportive cellular microenvironment and are able to maintain the self-renewal capacity of hematopoietic progenitor cells (HPC). Isolation procedures for MSC vary extensively,and this may influence their biologic properties. In this study,we have compared human MSC isolated from bone marrow (BM) using two culture conditions,from cord blood (CB),and from adipose tissue (AT). The ability to maintain long-term culture-initiating cell frequency and a primitive CD34(+)CD38(-) immunophenotype was significantly higher for MSC derived from BM and CB compared with those from AT. These results were in line with a significantly higher adhesion of HPC to MSC from BM and CB versus MSC from AT. We have compared the cytokine production of MSC by cytokine antibody arrays,enzyme-linked immunosorbent assay,and a cytometric bead array. There were reproducible differences in the chemokine secretion profiles of various MSC preparations,but there was no clear concordance with differences in their potential to maintain primitive function of HPC. Global gene expression profiles of MSC preparations were analyzed and showed that adhesion proteins including cadherin-11,N-cadherin,vascular cell adhesion molecule 1,neural cell adhesion molecule 1,and integrins were highly expressed in MSC preparations derived from BM and CB. Thus,MSC from BM and CB are superior to MSC from AT for maintenance of primitive HPC. The latter property is associated with specific molecular profiles indicating the significance of cell-cell junctions but not with secretory profiles. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

In CD34(+) acute myeloid leukemia (AML),the malignant stem cells reside in the CD38(-) compartment. We have shown before that the frequency of such CD34(+)CD38(-) cells at diagnosis correlates with minimal residual disease (MRD) frequency after chemotherapy and with survival. Specific targeting of CD34(+)CD38(-) cells might thus offer therapeutic options. Previously,we found that C-type lectin-like molecule-1 (CLL-1) has high expression on the whole blast compartment in the majority of AML cases. We now show that CLL-1 expression is also present on the CD34(+)CD38(-) stem- cell compartment in AML (77/89 patients). The CD34(+)CLL-1(+) population,containing the CD34(+)CD38(-)CLL-1(+) cells,does engraft in nonobese diabetic/severe combined immunodeficiency (NOD/SCID) mice with outgrowth to CLL-1(+) blasts. CLL-1 expression was not different between diagnosis and relapse (n = 9). In remission,both CLL-1(-) normal and CLL-1(+) malignant CD34(+)CD38(-) cells were present. A high CLL-1(+) fraction was associated with quick relapse. CLL-1 expression is completely absent both on CD34(+)CD38(-) cells in normal (n = 11) and in regenerating bone marrow controls (n = 6). This AML stem-cell specificity of the anti-CLL-1 antibody under all conditions of disease and the leukemia-initiating properties of CD34(+)CLL-1(+) cells indicate that anti-CLL-1 antibody enables both AML-specific stem-cell detection and possibly antigen-targeting in future. View Publication

Homing of hematopoietic stem cells (HSCs) into the bone marrow (BM) is a prerequisite for establishment of hematopoiesis during development and following transplantation. However,the molecular interactions that control homing of HSCs,in particular,of fetal HSCs,are not well understood. Herein,we studied the role of the alpha6 and alpha4 integrin receptors for homing and engraftment of fetal liver (FL) HSCs and hematopoietic progenitor cells (HPCs) to adult BM by using integrin alpha6 gene-deleted mice and function-blocking antibodies. Both integrins were ubiquitously expressed in FL Lin(-)Sca-1(+)Kit(+) (LSK) cells. Deletion of integrin alpha6 receptor or inhibition by a function-blocking antibody inhibited FL LSK cell adhesion to its extracellular ligands,laminins-411 and -511 in vitro,and significantly reduced homing of HPCs to BM. In contrast,the anti-integrin alpha6 antibody did not inhibit BM homing of HSCs. In agreement with this,integrin alpha6 gene-deleted FL HSCs did not display any homing or engraftment defect compared with wild-type littermates. In contrast,inhibition of integrin alpha4 receptor by a function-blocking antibody virtually abrogated homing of both FL HSCs and HPCs to BM,indicating distinct functions for integrin alpha6 and alpha4 receptors during homing of fetal HSCs and HPCs. View Publication

Myelodysplastic syndromes (MDSs) are a group of hematopoietic stem cell disorders characterized by ineffective hematopoiesis and peripheral blood cytopenias. Lenalidomide has dramatic therapeutic effects in patients with low-risk MDS and a chromosome 5q31 deletion,resulting in complete cytogenetic remission in textgreater60% of patients. The molecular basis of this remarkable drug response is unknown. To gain insight into the molecular targets of lenalidomide we investigated its in vitro effects on growth,maturation,and global gene expression in isolated erythroblast cultures from MDS patients with del(5)(q31). Lenalidomide inhibited growth of differentiating del(5q) erythroblasts but did not affect cytogenetically normal cells. Moreover,lenalidomide significantly influenced the pattern of gene expression in del(5q) intermediate erythroblasts,with the VSIG4,PPIC,TPBG,activin A,and SPARC genes up-regulated by textgreater2-fold in all samples and many genes involved in erythropoiesis,including HBA2,GYPA,and KLF1,down-regulated in most samples. Activin A,one of the most significant differentially expressed genes between lenalidomide-treated cells from MDS patients and healthy controls,has pleiotropic functions,including apoptosis of hematopoietic cells. Up-regulation and increased protein expression of the tumor suppressor gene SPARC is of particular interest because it is antiproliferative,antiadhesive,and antiangiogenic and is located at 5q31-q32,within the commonly deleted region in MDS 5q- syndrome. We conclude that lenalidomide inhibits growth of del(5q) erythroid progenitors and that the up-regulation of SPARC and activin A may underlie the potent effects of lenalidomide in MDS with del(5)(q31). SPARC may play a role in the pathogenesis of the 5q- syndrome. View Publication

Abeta42-lowering nonsteroidal anti-inflammatory drugs (NSAIDs) constitute the founding members of a new class of gamma-secretase modulators that avoid side effects of pan-gamma-secretase inhibitors on NOTCH processing and function,holding promise as potential disease-modifying agents for Alzheimer disease (AD). These modulators are active in cell-free gamma-secretase assays indicating that they directly target the gamma-secretase complex. Additional support for this hypothesis was provided by the observation that certain mutations in presenilin-1 (PS1) associated with early-onset familial AD (FAD) change the cellular drug response to Abeta42-lowering NSAIDs. Of particular interest is the PS1-DeltaExon9 mutation,which provokes a pathogenic increase in the Abeta42/Abeta40 ratio and dramatically reduces the cellular response to the Abeta42-lowering NSAID sulindac sulfide. This FAD PS1 mutant is unusual as a splice-site mutation results in deletion of amino acids Thr(291)-Ser(319) including the endoproteolytic cleavage site of PS1,and an additional amino acid exchange (S290C) at the exon 8/10 splice junction. By genetic dissection of the PS1-DeltaExon9 mutation,we now demonstrate that a synergistic effect of the S290C mutation and the lack of endoproteolytic cleavage is sufficient to elevate the Abeta42/Abeta40 ratio and that the attenuated response to sulindac sulfide results partially from the deficiency in endoproteolysis. Importantly,a wider screen revealed that a diminished response to Abeta42-lowering NSAIDs is common among aggressive FAD PS1 mutations. Surprisingly,these mutations were also partially unresponsive to gamma-secretase inhibitors of different structural classes. This was confirmed in a mouse model with transgenic expression of the PS1-L166P mutation,in which the potent gamma-secretase inhibitor LY-411575 failed to reduce brain levels of soluble Abeta42. In summary,these findings highlight the importance of genetic background in drug discovery efforts aimed at gamma-secretase,suggesting that certain AD mouse models harboring aggressive PS mutations may not be informative in assessing in vivo effects of gamma-secretase modulators and inhibitors. View Publication

CD40 is an integral plasma membrane-associated member of the TNF receptor family that has recently been shown to also reside in the nucleus of both normal B cells and large B-cell lymphoma (LBCL) cells. However,the physiological function of CD40 in the B-cell nucleus has not been examined. In this study,we demonstrate that nuclear CD40 interacts with the NF-kappaB protein c-Rel,but not p65,in LBCL cells. Nuclear CD40 forms complexes with c-Rel on the promoters of NF-kappaB target genes,CD154,BLyS/BAFF,and Bfl-1/A1,in various LBCL cell lines. Wild-type CD40,but not NLS-mutated CD40,further enhances c-Rel-mediated Blys promoter activation as well as proliferation in LBCL cells. Studies in normal B cells and LBCL patient cells further support a nuclear transcriptional function for CD40 and c-Rel. Cooperation between nuclear CD40 and c-Rel appears to be important in regulating cell growth and survival genes involved in lymphoma cell proliferation and survival mechanisms. Modulating the nuclear function of CD40 and c-Rel could reveal new mechanisms in LBCL pathophysiology and provide potential new targets for lymphoma therapy. View Publication