技术资料

Protein geranylgeranyltransferase type I (GGTase-I) is responsible for the posttranslational lipidation of CAAX proteins such as RHOA,RAC1,and cell division cycle 42 (CDC42). Inhibition of GGTase-I has been suggested as a strategy to treat cancer and a host of other diseases. Although several GGTase-I inhibitors (GGTIs) have been synthesized,they have very different properties,and the effects of GGTIs and GGTase-I deficiency are unclear. One concern is that inhibiting GGTase-I might lead to severe toxicity. In this study,we determined the effects of GGTase-I deficiency on cell viability and K-RAS-induced cancer development in mice. Inactivating the gene for the critical beta subunit of GGTase-I eliminated GGTase-I activity,disrupted the actin cytoskeleton,reduced cell migration,and blocked the proliferation of fibroblasts expressing oncogenic K-RAS. Moreover,the absence of GGTase-I activity reduced lung tumor formation,eliminated myeloproliferative phenotypes,and increased survival of mice in which expression of oncogenic K-RAS was switched on in lung cells and myeloid cells. Interestingly,several cell types remained viable in the absence of GGTase-I,and myelopoiesis appeared to function normally. These findings suggest that inhibiting GGTase-I may be a useful strategy to treat K-RAS-induced malignancies. View Publication

Dyskeratosis congenita (DC) is an inherited bone marrow (BM) failure syndrome associated with mutations in telomerase genes and the acquisition of shortened telomeres in blood cells. To investigate the basis of the compromised hematopoiesis seen in DC,we analyzed cells from granulocyte colony-stimulating factor mobilized peripheral blood (mPB) collections from 5 members of a family with autosomal dominant DC with a hTERC mutation. Premobilization BM samples were hypocellular,and percentages of CD34(+) cells in marrow and mPB collections were significantly below values for age-matched controls in 4 DC subjects. Directly clonogenic cells,although present at normal frequencies within the CD34(+) subset,were therefore absolutely decreased. In contrast,even the frequency of long-term culture-initiating cells within the CD34(+) DC mPB cells was decreased,and the telomere lengths of these cells were also markedly reduced. Nevertheless,the different lineages of mature cells were produced in normal numbers in vitro. These results suggest that marrow failure in DC is caused by a reduction in the ability of hematopoietic stem cells to sustain their numbers due to telomere impairment rather than a qualitative defect in their commitment to specific lineages or in the ability of their lineage-restricted progeny to execute normal differentiation programs. View Publication

Because of the wide use of pesticides for domestic and industrial purposes,the evaluation of their potential effects is of major concern for public health. The myelotoxicity of the herbicide propanil (3,4-dichloroproprioanilide) and its metabolite 3,4-dichloroaniline (DCA) is well documented in mice,but evidence that pesticides may severely compromise hematopoiesis in humans is lacking. In this study,an interspecies comparison of in vitro toxicity of these two compounds on murine and human burst- and colony-forming unit-erythrocyte (BFU-E,CFU-E) and colony-forming unit-granulocyte/macrophage (CFU-GM) progenitors,has been carried out. Murine bone marrow progenitors and human cord blood cells were exposed to propanil or DCA in doses ranging from 10 micro M to 1000 micro M,and the toxic effect was detected by a clonogenic assay with continuous exposure to the compounds. The results on murine cells indicate that the erythrocytic lineage is the most sensitive target for propanil and DCA. On the other hand,human progenitors seem to be less sensitive to the toxic effects of both compounds than murine progenitors at the same concentrations (IC(50) values are 305.2 +/- 22.6 micro M [total erythroid colonies] and textgreater500 micro M [CFU-GM] for propanil). Propanil was significantly more toxic to human erythroid progenitors than to human CFU-GM progenitors,as was found for the murine cells,emphasizing the role of the heme pathway as the target for propanil. These data confirm the evidence that the compounds investigated interfere with erythroid colony formation at different stages of the differentiation pathway and have different effects according to the dose. View Publication

INTRODUCTION: The assay of endogenous erythroid colony formation (EEC),a characteristic of polycythemia vera and essential thrombocythemia,is not standardized. In this multicentric study,we tested four semisolid,serum-free,cytokine-free media based on either methylcellulose (M1,M2) or collagen (C1,C2) commercialized for the EEC assay. MATERIALS AND METHODS: Bone marrow mononuclear cells (BMMC) from 73 individuals (62 patients with either polycythemia vera (26),essential thrombocythemia (19),secondary polyglobuly (17) or chronic myeloid leukemia (2) and 11 healthy donors) were grown in parallel in the four media without,or with 0.01 U/ml erythropoietin (EPo). RESULTS: In all four media EEC formation was specific,as it was not observed in cultures of patients with secondary polyglobuly or chronic myeloid leukemia,nor of healthy donors. Analysis of fresh or MGG-stained collagen gel cultures allowed detection of EEC formation significantly more frequently than methylcellulose-based media; addition of 0.01 U/ml of EPo had little or no effect on EEC formation. Collagen-based medium C1 gave better results than the other media tested: the 'C1' EEC assay was positive for 68.2% of polycythemia vera cultures with significantly higher median EEC numbers (6.5/10(5) BMMC for patients with one major criteria of polycythemia vera and 19 and 21/10(5) BMMC for patients with two or three major criteria,respectively). Medium C1 was also better for essential thrombocythemia cultures with 47.4% of positive results but with a low median EEC number (6.7/10(5) BMMC). When associated with the ELISA dosage of serum EPo,the 'C1' EEC assay allowed confirmation or elimination of the diagnosis of polycythemia vera for 91% (20/22) of polyglobulic patients. CONCLUSION: We propose that serum-free collagen-based culture systems be considered to standardize the EEC assay,now part of the new criteria of polycythemia vera. View Publication

Bispecific antibodies directed against tumor-associated target antigens and to surface receptors mediating T-cell activation,such as the TCR/CD3 complex and the costimulatory receptor CD28,are capable of mediating T-cell activation resulting in tumor cell killing. In this study,we used the B-cell-associated antigens CD19 and CD20 as target structures on human leukemic cells. We found that a combination of bispecific antibody fragments (bsFab2) with target x CD3 and target x CD28 specificity induces vigorous autologous T-cell activation and killing of malignant cells in peripheral blood and bone marrow cultures from patients with chronic lymphocytic leukemia and follicular lymphoma. The bsFab2 targeting CD20 were considerably more effective than those binding to CD19. The colony-forming capacity of treated bone marrow was impaired due to large amounts of tumor necrosis factor alpha produced during bsFab2-induced T-cell activation. Neutralizing tumor necrosis factor alpha antibodies were found to reverse this negative effect without affecting T-cell activation and tumor cell killing. CD20 x CD28 bsFab2,when used alone rather than in combination,markedly improved the recognition of leukemic cells by allogeneic T cells. Therefore,these reagents may be capable of enhancing the immunogenicity of leukemic cells in general and,in particular,of increasing the antileukemic activity of allogeneic donor buffy coat cells in relapsed bone marrow transplanted patients. View Publication

Haematopoietic stem cell (HSC) homeostasis is tightly controlled by growth factors,signalling molecules and transcription factors. Definitive HSCs derived during embryogenesis in the aorta-gonad-mesonephros region subsequently colonize fetal and adult haematopoietic organs. To identify new modulators of HSC formation and homeostasis,a panel of biologically active compounds was screened for effects on stem cell induction in the zebrafish aorta-gonad-mesonephros region. Here,we show that chemicals that enhance prostaglandin (PG) E2 synthesis increased HSC numbers,and those that block prostaglandin synthesis decreased stem cell numbers. The cyclooxygenases responsible for PGE2 synthesis were required for HSC formation. A stable derivative of PGE2 improved kidney marrow recovery following irradiation injury in the adult zebrafish. In murine embryonic stem cell differentiation assays,PGE2 caused amplification of multipotent progenitors. Furthermore,ex vivo exposure to stabilized PGE2 enhanced spleen colony forming units at day 12 post transplant and increased the frequency of long-term repopulating HSCs present in murine bone marrow after limiting dilution competitive transplantation. The conserved role for PGE2 in the regulation of vertebrate HSC homeostasis indicates that modulation of the prostaglandin pathway may facilitate expansion of HSC number for therapeutic purposes. View Publication

Individual variation in fetal hemoglobin (HbF,alpha(2)gamma(2)) response underlies the remarkable diversity in phenotypic severity of sickle cell disease and beta thalassemia. HbF levels and HbF-associated quantitative traits (e.g.,F cell levels) are highly heritable. We have previously mapped a major quantitative trait locus (QTL) controlling F cell levels in an extended Asian-Indian kindred with beta thalassemia to a 1.5-Mb interval on chromosome 6q23,but the causative gene(s) are not known. The QTL encompasses several genes including HBS1L,a member of the GTP-binding protein family that is expressed in erythroid progenitor cells. In this high-resolution association study,we have identified multiple genetic variants within and 5' to HBS1L at 6q23 that are strongly associated with F cell levels in families of Northern European ancestry (P = 10(-75)). The region accounts for 17.6% of the F cell variance in northern Europeans. Although mRNA levels of HBS1L and MYB in erythroid precursors grown in vitro are positively correlated,only HBS1L expression correlates with high F cell alleles. The results support a key role for the HBS1L-related genetic variants in HbF control and illustrate the biological complexity of the mechanism of 6q QTL as a modifier of fetal hemoglobin levels in the beta hemoglobinopathies. View Publication

We have previously shown that coculture of human embryonic stem cells (hESCs) for 14 days with immortalized fetal hepatocytes yields CD34(+) cells that can be expanded in serum-free liquid culture into large numbers of megaloblastic nucleated erythroblasts resembling yolk sac-derived cells. We show here that these primitive erythroblasts undergo a switch in hemoglobin (Hb) composition during late terminal erythroid maturation with the basophilic erythroblasts expressing predominantly Hb Gower I (zeta(2)epsilon(2)) and the orthochromatic erythroblasts hemoglobin Gower II (alpha(2)epsilon(2)). This suggests that the switch from Hb Gower I to Hb Gower II,the first hemoglobin switch in humans is a maturation switch not a lineage switch. We also show that extending the coculture of the hESCs with immortalized fetal hepatocytes to 35 days yields CD34(+) cells that differentiate into more developmentally mature,fetal liver-like erythroblasts,that are smaller,express mostly fetal hemoglobin,and can enucleate. We conclude that hESC-derived erythropoiesis closely mimics early human development because the first 2 human hemoglobin switches are recapitulated,and because yolk sac-like and fetal liver-like cells are sequentially produced. Development of a method that yields erythroid cells with an adult phenotype remains necessary,because the most mature cells that can be produced with current systems express less than 2% adult beta-globin mRNA. View Publication

Fetuses with homozygous alpha-thalassemia usually die at the third trimester of pregnancy or soon after birth. Hence,the disease could potentially be a target for fetal gene therapy. We have previously established a mouse model of alpha-thalassemia. These mice mimic the human alpha-thalassemic conditions and can be used as preclinical models for fetal gene therapy. We tested a lentiviral vector containing the HS 2,3,and 4 of the beta-LCR,a central polypurine tract element,and the beta-globin gene promoter directing either the EGFP or the human alpha-globin gene. We showed that the GFP expression was erythroid-specific and detected in BFU-E colonies and the erythroid progenies of CFU-GEMM. For in utero gene delivery,we did yolk sac vessel injection at midgestation of mouse embryos. The recipient mice were analyzed after birth for human alpha-globin gene expression. In the newborn,human alpha-globin gene expression was detected in the liver,spleen,and peripheral blood. The human alpha-globin gene expression was at the peak at 3-4 months,when it reached 20% in some recipients. However,the expression declined at 7 months. Colony-forming assays in these mice showed low abundance of the transduced human alpha-globin gene in their BFU-E and CFU-GEMM and the lack of its transcript. Thus,lentiviral vectors can be an effective vehicle for delivering the human alpha-globin gene into erythroid cells in utero,but,in the mouse model,delivery at late midgestation could not transduce hematopoietic stem cells adequately to sustain gene expression. View Publication