技术资料

The study of human erythropoiesis in health and disease requires a robust culture system that consistently and reliably generates large numbers of immature erythroblasts that can be induced to differentiate synchronously. We describe a culture method modified from Leberbauer et al. (2005) and obtain a homogenous population of erythroblasts from peripheral blood mononuclear cells (PBMC) without prior purification of CD34(+) cells. This pure population of immature erythroblasts can be expanded to obtain 4x10(8) erythroblasts from 1x10(8) PBMC after 13-14 days in culture. Upon synchronized differentiation,high levels of enucleation (80-90%) and low levels of cell death (textless10%) are achieved. We compared the yield of erythroblasts obtained from PBMC,CD34(+) cells or PBMC depleted of CD34(+) cells and show that CD34(-) cells represent the most significant early erythroid progenitor population. This culture system may be particularly useful for investigating the pathophysiology of anemic patients where only small blood volumes are available. View Publication

Numerous publications have described the importance of bone morphogenetic protein (BMP) signaling in the specification of hematopoietic tissue in developing embryos. Here we investigate the full role of canonical BMP signaling in both adult and fetal liver hematopoiesis using conditional knockout strategies because conventional disruption of components of the BMP signaling pathway result in early death of the embryo. By targeting both Smad1 and Smad5,we have generated a double-knockout mouse with complete disruption of canonical BMP signaling. Interestingly,concurrent deletion of Smad1 and Smad5 results in death because of extrahematopoietic pathologic changes in the colon. However,Smad1/Smad5-deficient bone marrow cells can compete normally with wild-type cells and display unaffected self-renewal and differentiation capacity when transplanted into lethally irradiated recipients. Moreover,although BMP receptor expression is increased in fetal liver,fetal liver cells deficient in both Smad1 and Smad5 remain competent to long-term reconstitute lethally irradiated recipients in a multilineage manner. In conclusion,canonical BMP signaling is not required to maintain either adult or fetal liver hematopoiesis,despite its crucial role in the initial patterning of hematopoiesis in early embryonic development. View Publication

Mesenchymal stem cells (MSCs) are highly useful in a variety of cell therapies owing to their multipotential differentiation capability. MSCs derived from umbilical cord blood are generally isolated by their plastic adherence without using specific cell surface markers and examined for their osteogenic,adipogenic,and chondrogenic differentiation properties retrospectively. Here,we report 2 subpopulations of MSCs,separated based on aldehyde dehydrogenase (ALDH) activity. MSCs with a high ALDH activity (Alde-High) proliferated more than those with a low ALDH activity (Alde-Low). Alde-High MSCs had a greater ability to differentiate than Alde-Low MSCs in in vitro culture. Transplantation of Alde-High MSCs into fractured mouse femurs enabled early repair of tissues and rapid bone substitution. Alde-High MSCs were also more responsive to hypoxia than Alde-Low MSCs,with the upregulation of Flt-1,CXCR4,and Angiopoietin-2. Thus,MSCs with a high ALDH activity might serve as an effective therapeutic tool for healing fractures within a short period of time. View Publication

Lentiviruses are capable of infecting many cells irrespective of their cycling status,stably inserting DNA copies of the viral RNA genomes into host chromosomes. This property has led to the development of lentiviral vectors for high-efficiency gene transfer to a wide variety of cell types,from slowly proliferating hematopoietic stem cells to terminally differentiated neurons. Regardless of their advantage over gammaretroviral vectors,which can only introduce transgenes into target cells that are actively dividing,lentiviral vectors are still susceptible to chromosomal position effects that result in transgene silencing or variegated expression. In this chapter,various genetic regulatory elements are described that can be incorporated within lentiviral vector backbones to minimize the influences of neighboring chromatin on single-copy transgene expression. The modifications include utilization of strong internal enhancer-promoter sequences,addition of scaffold/matrix attachment regions,and flanking the transcriptional unit with chromatin domain insulators. Protocols are provided to evaluate the performance as well as the relative biosafety of lentiviral vectors containing these elements. View Publication

Determining how normal and leukemic stem cells behave in vivo,in a dynamic and noninvasive way,remains a major challenge. Most optical tracking technologies rely on the use of fluorescent or bioluminescent reporter genes,which need to be stably expressed in the cells of interest. Because gene transfer in primary leukemia samples represents a major risk to impair their capability to engraft in a xenogenic context,we evaluated the possibility to use gene transfer-free labeling technologies. The lipophilic dye 3,3,3',3' tetramethylindotricarbocyanine iodide (DiR) was selected among 4 near-infrared (NIR) staining technologies. Unfortunately we report here a massive transfer of the dye occurring toward the neighbor cells both in vivo and in vitro. We further demonstrate that all lipophilic dyes tested in this study (1,1'-dioctadecyl-3,3,3',3'-tetramethylindotricarbocyanine perchlorate [DiI],DiD,DiR,and PKH26) can give rise to microenvironmental contamination,including when used in suboptimal concentration,after extensive washing procedures and in the absence of phagocytosis or marked cell death. This was observed from all cell types tested. Eventually,we show that this microenvironmental contamination is mediated by both direct cell-cell contacts and diffusible microparticles. We conclude that tracking of labeled cells using non-genetically encoded markers should always be accompanied by drastic cross validation using multimodality approaches. View Publication

UNLABELLED: Human stem cells from adult sources have been shown to contribute to the regeneration of muscle,liver,heart,and vasculature. The mechanisms by which this is accomplished are,however,still not well understood. We tested the engraftment and regenerative potential of human umbilical cord blood-derived ALDH(hi)Lin(-),and ALDH(lo)Lin(-) cells following transplantation to NOD/SCID or NOD/SCID beta2m null mice with experimentally induced acute myocardial infarction. We used combined nanoparticle labeling and whole organ fluorescent imaging to detect human cells in multiple organs 48 hours post transplantation. Engraftment and regenerative effects of cell treatment were assessed four weeks post transplantation. We found that ALDH(hi)Lin(-) stem cells specifically located to the site of injury 48 hours post transplantation and engrafted the infarcted heart at higher frequencies than ALDH(lo)Lin(-) committed progenitor cells four weeks post transplantation. We found no donor derived cardiomyocytes and few endothelial cells of donor origin. Cell treatment was not associated with any detectable functional improvement at the four week endpoint. There was,however,a significant increase in vascular density in the central infarct zone of ALDH(hi)Lin(-) cell-treated mice,as compared to PBS and ALDH(lo)Lin(-) cell-treated mice. CONCLUSIONS: Our data indicate that adult human stem cells do not become a significant part of the regenerating tissue,but rapidly home to and persist only temporarily at the site of hypoxic injury to exert trophic effects on tissue repair thereby enhancing vascular recovery. View Publication

This work describes a genetic approach to isolate small,artificial transmembrane (TM) proteins with biological activity. The bovine papillomavirus E5 protein is a dimeric,44-amino acid TM protein that transforms cells by specifically binding and activating the platelet-derived growth factor beta receptor (PDGFbetaR). We used the E5 protein as a scaffold to construct a retrovirus library expressing approximately 500,000 unique 44-amino acid proteins with randomized TM domains. We screened this library to select small,dimeric TM proteins that were structurally unrelated to erythropoietin (EPO),but specifically activated the human EPO receptor (hEPOR). These proteins did not activate the murine EPOR or the PDGFbetaR. Genetic studies with one of these activators suggested that it interacted with the TM domain of the hEPOR. Furthermore,this TM activator supported erythroid differentiation of primary human hematopoietic progenitor cells in vitro in the absence of EPO. Thus,we have changed the specificity of a protein so that it no longer recognizes its natural target but,instead,modulates an entirely different protein. This represents a novel strategy to isolate small artificial proteins that affect diverse membrane proteins. We suggest the word traptamer" for these transmembrane aptamers." View Publication

OBJECTIVES: In this study,we hypothesized that an antihuman-CD34 antibody immobilized on the surface of commercially available sirolimus-eluting stents (SES) could enhance re-endothelialization compared with SES alone. BACKGROUND: Previous experience with antihuman-CD34 antibody surface modified Genous stents (GS) (OrbusNeich Medical,Fort Lauderdale,Florida) has shown enhanced stent endothelialization in vivo. METHODS: In the phase 1 study,stents were deployed in 21 pig coronary arteries for single stenting (9 vessels: 3 GS,3 SES,and 3 bare-metal stents) and overlapping stenting with various combinations (12 vessels: 4 GS+GS,4 SES+SES,and 4 GS+SES) and harvested at 14 days for scanning electron and confocal microscopy. In phase 2,immobilized anti-CD34 antibody coating was applied on commercially available SES (SES-anti-CD34,n = 7) and compared with GS (n = 8) and SES (n = 7) and examined at 3 and 14 days by scanning electron/confocal microscopy analysis. RESULTS: In phase 1,single stent implantation showed greatest endothelialization in GS (99%) and in bare-metal stent (99%) compared with SES (55%,p = 0.048). In overlapping stents,endothelialization at the overlapping zone was significantly greater in GS+GS (95 +/- 6%) and GS+SES (79 +/- 5%) compared with the SES+SES (36 +/- 14%) group (p = 0.007). In phase 2,SES-anti-CD34 resulted in increased endothelialization compared with SES alone at 3 days (SES-anti-CD34 36 +/- 26%; SES 7 +/- 3%; and GS 76 +/- 8%; p = 0.01),and 14 days (SES-anti-CD34 82 +/- 8%; SES 53 +/- 20%; and GS 98 +/- 2%; p = 0.009). CONCLUSIONS: Immobilization of anti-CD34 antibody on SES enhances endothelialization and may potentially be an effective therapeutic alternative to improve currently available drug-eluting stents. View Publication

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. View Publication

The cell-surface straight and branched repeats of N-acetyllactosamine (LacNAc) units,called poly-LacNAc chains,characterize the histo-blood group i and I antigens,respectively. The transition of straight to branched poly-LacNAc chain (i to I) is determined by the I locus,which expresses 3 IGnT transcripts,IGnTA,IGnTB,and IGnTC. Our previous investigation demonstrated that the i-to-I transition in erythroid differentiation is regulated by the transcription factor CCAAT/enhancer binding protein alpha (C/EBPalpha). In the present investigation,the K-562 cell line was used as a model to show that the i-to-I transition is determined by the phosphorylation status of the C/EBPalpha Ser-21 residue,with dephosphorylated C/EBPalpha Ser-21 stimulating the transcription of the IGnTC gene,consequently resulting in I branching. Results from studies using adult erythropoietic and granulopoietic progenitor cells agreed with those derived using the K-562 cell model,with lentiviral expression of C/EBPalpha in CD34(+) hematopoietic cells demonstrating that the dephosphorylated form of C/EBPalpha Ser-21 induced the expression of I antigen,granulocytic CD15,and also erythroid CD71 antigens. Taken together,these results demonstrate that the regulation of poly-LacNAc branching (I antigen) formation in erythropoiesis and granulopoiesis share a common mechanism,with dephosphorylation of the Ser-21 residue on C/EBPalpha playing the critical role. View Publication

The immunodeficiency disorder,X-linked agammaglobulinemia (XLA),results from mutations in the gene encoding Bruton tyrosine kinase (Btk). Btk is required for pre-B cell clonal expansion and B-cell antigen receptor signaling. XLA patients lack mature B cells and immunoglobulin and experience recurrent bacterial infections only partially mitigated by life-long antibody replacement therapy. In pursuit of definitive therapy for XLA,we tested ex vivo gene therapy using a lentiviral vector (LV) containing the immunoglobulin enhancer (Emu) and Igbeta (B29) minimal promoter to drive B lineage-specific human Btk expression in Btk/Tec(-/-) mice,a strain that reproduces the features of human XLA. After transplantation of EmuB29-Btk-LV-transduced stem cells,treated mice showed significant,albeit incomplete,rescue of mature B cells in the bone marrow,peripheral blood,spleen,and peritoneal cavity,and improved responses to T-independent and T-dependent antigens. LV-treated B cells exhibited enhanced B-cell antigen receptor signaling and an in vivo selective advantage in the peripheral versus central B-cell compartment. Secondary transplantation showed sustained Btk expression,viral integration,and partial functional responses,consistent with long-term stem cell marking; and serial transplantation revealed no evidence for cellular or systemic toxicity. These findings strongly support pursuit of B lineage-targeted LV gene therapy in human XLA. View Publication

Clonal analysis is important for many areas of hematopoietic stem cell research,including in vitro cell expansion,gene therapy,and cancer progression and treatment. A common approach to measure clonality of retrovirally transduced cells is to perform integration site analysis using Southern blotting or polymerase chain reaction-based methods. Although these methods are useful in principle,they generally provide a low-resolution,biased,and incomplete assessment of clonality. To overcome those limitations,we labeled retroviral vectors with random sequence tags or barcodes." On integration� View Publication