技术资料

Hematopoietic stem cells (HSCs) have the capacity to self-renew and continuously differentiate into all blood cell lineages throughout life. At each branching point during differentiation,interactions with the environment are key in the generation of daughter cells with distinct fates. Here,we examined the role of the cell adhesion molecule JAM-C,a protein known to mediate cellular polarity during spermatogenesis,in hematopoiesis. We show that murine JAM-C is highly expressed on HSCs in the bone marrow (BM). Expression correlates with self-renewal,the highest being on long-term repopulating HSCs,and decreases with differentiation,which is maintained longest among myeloid committed progenitors. Inclusion of JAM-C as a sole marker on lineage-negative BM cells yields HSC enrichments and long-term multilineage reconstitution when transferred to lethally irradiated mice. Analysis of Jam-C-deficient mice showed that two-thirds die within 48 hours after birth. In the surviving animals,loss of Jam-C leads to an increase in myeloid progenitors and granulocytes in the BM. Stem cells and myeloid cells from fetal liver are normal in number and homing to the BM. These results provide evidence that JAM-C defines HSCs in the BM and that JAM-C plays a role in controlling myeloid progenitor generation in the BM. View Publication

The farnesyltransferase inhibitor tipifarnib exhibits modest activity against acute myelogenous leukemia. To build on these results,we examined the effect of combining tipifarnib with other agents. Tipifarnib inhibited signaling downstream of the farnesylated small G protein Rheb and synergistically enhanced etoposide-induced antiproliferative effects in lymphohematopoietic cell lines and acute myelogenous leukemia isolates. We subsequently conducted a phase 1 trial of tipifarnib plus etoposide in adults over 70 years of age who were not candidates for conventional therapy. A total of 84 patients (median age,77 years) received 224 cycles of oral tipifarnib (300-600 mg twice daily for 14 or 21 days) plus oral etoposide (100-200 mg daily on days 1-3 and 8-10). Dose-limiting toxicities occurred with 21-day tipifarnib. Complete remissions were achieved in 16 of 54 (30%) receiving 14-day tipifarnib versus 5 of 30 (17%) receiving 21-day tipifarnib. Complete remissions occurred in 50% of two 14-day tipifarnib cohorts: 3A (tipifarnib 600,etoposide 100) and 8A (tipifarnib 400,etoposide 200). In vivo,tipifarnib plus etoposide decreased ribosomal S6 protein phosphorylation and increased histone H2AX phosphorylation and apoptosis. Tipifarnib plus etoposide is a promising orally bioavailable regimen that warrants further evaluation in elderly adults who are not candidates for conventional induction chemotherapy. These clinical studies are registered at www.clinicaltrials.gov as NCT00112853. View Publication

The retinoid X receptor (RXR) contributes to the regulation of diverse biological pathways via its role as a heterodimeric partner of several nuclear receptors. However,RXR has no established role in the regulation of hematopoietic stem cell (HSC) fate. In this study,we sought to determine whether direct modulation of RXR signaling could impact human HSC self-renewal or differentiation. Treatment of human CD34(+)CD38(-)lin(-) cells with LG1506,a selective RXR modulator,inhibited the differentiation of HSCs in culture and maintained long-term repopulating HSCs in culture that were otherwise lost in response to cytokine treatment. Further studies revealed that LG1506 had a distinct mechanism of action in that it facilitated the recruitment of corepressors to the retinoic acid receptor (RAR)/RXR complex at target gene promoters,suggesting that this molecule was functioning as an inverse agonist in the context of this heterodimer. Interestingly,using combinatorial peptide phage display,we identified unique surfaces presented on RXR when occupied by LG1506 and demonstrated that other modulators that exhibited these properties functioned similarly at both a mechanistic and biological level. These data indicate that the RAR/RXR heterodimer is a critical regulator of human HSC differentiation,and pharmacological modulation of RXR signaling prevents the loss of human HSCs that otherwise occurs in short-term culture. View Publication

We have previously demonstrated that lineage negative cells (Lin(neg)) from umbilical cord blood (UCB) develop into multipotent cells capable of differentiation into bone,muscle,endothelial and neural cells. The objective of this study was to determine the optimal conditions required for Lin(neg) UCB cells to differentiate into neuronal cells and oligodendrocytes. We demonstrate that early neural stage markers (nestin,neurofilament,A2B5 and Sox2) are expressed in Lin(neg) cells cultured in FGF4,SCF,Flt3-ligand reprogramming culture media followed by the early macroglial cell marker O4. Early stage oligodendrocyte markers CNPase,GalC,Olig2 and the late-stage marker MOSP are observed,as is the Schwann cell marker PMP22. In summary,Lin(neg) UCB cells,when appropriately cultured,are able to exhibit characteristics of neuronal and macroglial cells that can specifically differentiate into oligodendrocytes and Schwann cells and express proteins associated with myelin production after in vitro differentiation. View Publication

Using endothelial cells for therapeutic angiogenesis/vasculogenesis of ischemia diseases has led to exploring human embryonic stem cells (hESCs) as a potentially unlimited source for endothelial progenitor cells. With their capacity for self-renewal and pluripotency,hESCs and their derived endothelial cells (hESC-ECs) may be more advantageous than other endothelial cells obtained from diseased populations. However,hESC-ECs' poor differentiation efficiency and poorly characterized in vivo function after transplantation present significant challenges for their future clinical application. This review will focus on the differentiation pathways of hESCs and their therapeutic potential for vascular diseases,as well as the monitoring of transplanted cells' fate via molecular imaging. Finally,cell enhancement strategies to improve the engraftment efficiency of hESC-ECs will be discussed. View Publication

Although recent advances have enabled hematopoietic stem cells (HSCs) to be enriched to near purity,more information about their characteristics will improve our understanding of their development and stage-related functions. Here,using microarray technology,we identified endothelial cell-selective adhesion molecule (ESAM) as a novel marker for murine HSCs in fetal liver. Esam was expressed at high levels within a Rag1(-) c-kit(Hi) Sca1(+) HSC-enriched fraction,but sharply down-regulated with activation of the Rag1 locus,a valid marker for the most primitive lymphoid progenitors in E14.5 liver. The HSC-enriched fraction could be subdivided into 2 on the basis of ESAM levels. Among endothelial antigens on hematopoietic progenitors,ESAM expression showed intimate correlation with HSC activity. The ESAM(Hi) population was highly enriched for multipotent myeloid-erythroid progenitors and primitive progenitors with lymphopoietic activity,and exclusively reconstituted long-term lymphohematopoiesis in lethally irradiated recipients. Tie2(+) c-kit(+) lymphohematopoietic cells in the E9.5-10.5 aorta-gonad-mesonephros region also expressed high levels of ESAM. Furthermore,ESAM was detected on primitive hematopoietic progenitors in adult bone marrow. Interestingly,ESAM expression in the HSC-enriched fraction was up-regulated in aged mice. We conclude that ESAM marks HSC in murine fetal liver and will facilitate studies of hematopoiesis throughout life. View Publication

Current sources of mesenchymal cells,including bone marrow,fat and muscle,all require invasive procurement procedures,and provide relatively low frequencies of progenitors. Here,we describe the non-invasive isolation,and characterization,of a rich source of mesenchymal progenitor cells,which we call human umbilical cord perivascular cells (HUCPVCs). HUCPVCs show a similar immunological phenotype to bone marrow-derived mesenchymal stromal cells (BM-MSCs),since they are non-alloreactive,exhibit immunosuppression,and significantly reduce lymphocyte activation,in vitro. They present a non-hematopoietic myofibroblastic mesenchymal phenotype (CD45-,CD34-,CD105+,CD73+,CD90+,CD44+,CD106+,3G5+,CD146+); with a 1:300 frequency at harvest,a short-doubling time,and a clonogenic frequency of textgreater1:3 in culture. Furthermore,in addition to robust quinti-potential differentiation capacity in vitro,HUCPVCs have been shown to contribute to both musculo-skeletal and dermal wound healing in vivo. View Publication

The discovery of human embryonic stem cells (hESCs) has dramatically increased the tools available to medical scientists interested in regenerative medicine. However,direct injection of hESCs,and cells differentiated from hESCs,into living organisms has thus far been hampered by significant cell death,teratoma formation,and host immune rejection. Understanding the in vivo hESC behavior after transplantation requires novel imaging techniques to longitudinally monitor hESC localization,proliferation,and viability. Molecular imaging has given investigators a high-throughput,inexpensive,and sensitive means for tracking in vivo cell proliferation over days,weeks,and even months. This advancement has significantly increased the understanding of the spatio-temporal kinetics of hESC engraftment,proliferation,and teratoma-formation in living subjects. A major advance in molecular imaging has been the extension of noninvasive reporter gene assays from molecular and cellular biology into in vivo multi-modality imaging platforms. These reporter genes,under control of engineered promoters and enhancers that take advantage of the host cell s transcriptional machinery,are introduced into cells using a variety of vector and non-vector methods. Once in the cell,reporter genes can be transcribed either constitutively or only under specific biological or cellular conditions,depending on the type of promoter used. Transcription and translation of reporter genes into bioactive proteins is then detected with sensitive,noninvasive instrumentation (e.g.,CCD cameras) using signal-generating probes such as D-luciferin. To avoid the need for excitatory light to track stem cells in vivo as is required for fluorescence imaging,bioluminescence reporter gene imaging systems require only an exogenously administered probe to induce light emission. Firefly luciferase,derived from the firefly Photinus pyralis,encodes an enzyme that catalyzes D-luciferin to the optically active metabolite,oxyluciferin. Optical activity can then be monitored with an external CCD camera. Stably transduced cells that carry the reporter construct within their chromosomal DNA will pass the reporter construct DNA to daughter cells,allowing for longitudinal monitoring of hESC survival and proliferation in vivo. Furthermore,because expression of the reporter gene product is required for signal generation,only viable parent and daughter cells will create bioluminescence signal; apoptotic or dead cells will not. In this video,the specific materials and methods needed for tracking stem cell proliferation and teratoma formation with bioluminescence imaging will be described. View Publication

Large-scale manufacture of human embryonic stem cells (hESCs) is prerequisite to their widespread use in biomedical applications. However,current hESC culture strategies are labor-intensive and employ highly variable processes,presenting challenges for scaled production and commercial development. Here we demonstrate that passaging of the hESC lines,HUES7,and NOTT1,with trypsin in feeder-free conditions,is compatible with complete automation on the CompacT SelecT,a commercially available and industrially relevant robotic platform. Pluripotency was successfully retained,as evidenced by consistent proliferation during serial passage,expression of stem cell markers (OCT4,NANOG,TRA1-81,and SSEA-4),stable karyotype,and multi-germlayer differentiation in vitro,including to pharmacologically responsive cardiomyocytes. Automation of hESC culture will expedite cell-use in clinical,scientific,and industrial applications. View Publication

Neurotrophins (NTs) and their receptors play a key role in neurogenesis and survival. The TRK (tropomyosin-related kinase) receptor protein tyrosine kinases (TRKA,TRKB,TRKC) are high-affinity NT receptors that are expressed in a variety of human tissues. Their role in normal and malignant hematopoiesis is poorly understood. In a prospective study involving 94 adult patients we demonstrate for the first time cell-surface expression of the 3 TRKs and constitutive activation in blasts from patients with de novo or secondary acute leukemia. At least one TRK was expressed in 55% of the analyzed cases. We establish a clear correlation between the TRK expression pattern and FAB classification. Although only few point mutations were found in TRK sequences by reverse-transcriptase-polymerase chain reaction (RT-PCR),we observed coexpression of BDNF (ligand for TRKB) in more than 50% of TRKB(+) cases (16/30). Activation of TRKA or TRKB by NGF and BDNF,respectively,efficiently rescued murine myeloid cells from irradiation-induced apoptosis. Coexpression of TRKB/BDNF or TRKA/NGF in murine hematopoietic cells induced leukemia. Moreover,activation of TRKs was important for survival of both human and murine leukemic cells. Our findings suggest that TRKs play an important role in leukemogenesis and may serve as a new drug target. View Publication

BACKGROUND Efficient slow freezing protocols within serum-free and feeder-free culture systems are crucial for the clinical application of human embryonic stem (hES) cells. Frequently,however,hES cells must be cryopreserved as clumps when using conventional slow freezing protocols,leading to lower survival rates during freeze-thaw and limiting their recovery and growth efficiency after thawing,as well as limiting downstream applications that require single cell suspensions. We describe a novel method to increase freeze-thaw survival and proliferation rate of single hES cells in serum-free and feeder-free culture conditions. METHODS hES cells maintained on Matrigel-coated dishes were dissociated into single cells with Accutase and slow freezing. After thawing at 37 degrees C,cells were cultured in mTeSR medium supplemented with 10 microM of Rho-associated kinase inhibitor Y-27632 for 1 day. RESULTS The use of Y-27632 and Accutase significantly increases the survival of single hES cells after thawing compared with a control group (P textless 0.01). Furthermore,by treatment of hES cell aggregates with EGTA to disrupt cell-cell interaction,we show that Y-27632 treatment does not directly affect hES cell apoptosis. Even in the presence of Y-27632,hES cells deficient in cell-cell interaction undergo apoptosis. Y-27632-treated freeze-thawed hES cells retain typical morphology,stable karyotype,expression of pluripotency markers and the potential to differentiate into derivatives of all three germ layers after long-term culture. CONCLUSIONS The method described here allows for cryopreservation of single hES cells in serum-free and feeder-free conditions and therefore we believe this method will be ideal for current and future hES cell applications that are targeted towards a therapeutic end-point. View Publication

We developed a real-time copy number polymerase chain reaction assay for deletions on chromosome 20q (del20q),screened peripheral blood granulocytes from 664 patients with myeloproliferative disorders,and identified 19 patients with del20q (2.9%),of which 14 (74%) were also positive for JAK2-V617F. To examine the temporal relationship between the occurrence of del20q and JAK2-V617F,we performed colony assays in methylcellulose,picked individual burst-forming units-erythroid (BFU-E) and colony-forming units-granulocyte (CFU-G) colonies,and genotyped each colony individually for del20q and JAK2-V617F. In 2 of 9 patients,we found that some colonies with del20q carried only wild-type JAK2,whereas other del20q colonies were JAK2-V617F positive,indicating that del20q occurred before the acquisition of JAK2-V617F. However,in colonies from 3 of 9 patients,we observed the opposite order of events. The lack of a strict temporal order of occurrence makes it doubtful that del20q represents a predisposing event for JAK2-V617F. In 2 patients with JAK2-V617F and 1 patient with MPL-W515L,microsatellite analysis revealed that del20q affected chromosomes of different parental origin and/or 9pLOH occurred at least twice. The fact that rare somatic events,such as del20q or 9pLOH,occurred more than once in subclones from the same patients suggests that the myeloproliferative disorder clone carries a predisposition to acquiring such genetic alterations. View Publication