技术资料

ARF GTPases are activated by guanine nucleotide exchange factors (GEFs) of the Sec7 family that promote the exchange of GDP for GTP. Brefeldin A (BFA) is a fungal metabolite that binds to the ARF1*GDP*Sec7 complex and blocks GEF activity at an early stage of the reaction,prior to guanine nucleotide release. The crystal structure of the ARF1*GDP*Sec7*BFA complex shows that BFA binds at the protein-protein interface to inhibit conformational changes in ARF1 required for Sec7 to dislodge the GDP molecule. Based on a comparative analysis of the inhibited complex,nucleotide-free ARF1*Sec7 and ARF1*GDP,we suggest that,in addition to forcing nucleotide release,the ARF1-Sec7 binding energy is used to open a cavity on ARF1 to facilitate the rearrangement of hydrophobic core residues between the GDP and GTP conformations. Thus,the Sec7 domain may act as a dual catalyst,facilitating both nucleotide release and conformational switching on ARF proteins. View Publication

BACKGROUND Inhibition of bone resorption using bisphosphonates is an important step in palliation of complications of advanced cancer,such as hypercalcemia and metastatic bone disease. OBJECTIVE The goal of this article was to describe the pharmacologic properties of zoledronic acid (zoledronate) and discuss findings from preclinical and clinical studies of its use in skeletal disorders. METHODS Relevant English-language literature was identified using the terms zoledronic acid,zoledronate,Zometa,and 118072-93-8 through searches of MEDLINE (1966-June 2003) and International Pharmaceutical Abstracts (1970-June 2003),and abstract proceedings from the American Society of Clinical Oncology (1997-2002). RESULTS Zoledronic acid is a nitrogen-containing bisphosphonate that inhibits bone resorption. It is indicated for the treatment of hypercalcemia of malignancy and for the treatment of patients with multiple myeloma or documented metastasis from solid tumors,in conjunction with standard antineoplastic therapy. The recommended dosage is 4 mg via IV over textgreateror= 15 minutes every 3 or 4 weeks. Compared with pamidronate 90 mg,zoledronic acid 4 and 8 mg provided a higher complete response rate for hypercalcemia of malignancy by day 10 (88.4% and 86.7% vs 69.7%; P = 0.002 and P = 0.015) and longer duration of action (median time to relapse,30 and 40 days vs 17 days; P = 0.001 and P = 0.007). In patients with breast cancer or multiple myeloma,zoledronic acid was as effective as pamidronate in delaying time to a first skeletal-related event (373 days vs 363 days). In patients with hormone-refractory prostate cancer and bone metastases,zoledronic acid 4 mg reduced the proportion of patients who experienced a skeletal-related event (33% vs 44% with placebo; P = 0.021) or a skeletal fracture (13% vs 22% with placebo; P = 0.015). In patients with bone metastases from solid tumors,zoledronic acid delayed the median time to a first skeletal-related event (230 days vs 163 days with placebo; P = 0.023). Common adverse events include fever,nausea,constipation,fatigue,and bone pain. CONCLUSION Zoledronic acid is an effective and generally well-tolerated treatment for hypercalcemia of malignancy and skeletal complications of metastatic bone disease. View Publication

MDM2 binds the p53 tumor suppressor protein with high affinity and negatively modulates its transcriptional activity and stability. Overexpression of MDM2,found in many human tumors,effectively impairs p53 function. Inhibition of MDM2-p53 interaction can stabilize p53 and may offer a novel strategy for cancer therapy. Here,we identify potent and selective small-molecule antagonists of MDM2 and confirm their mode of action through the crystal structures of complexes. These compounds bind MDM2 in the p53-binding pocket and activate the p53 pathway in cancer cells,leading to cell cycle arrest,apoptosis,and growth inhibition of human tumor xenografts in nude mice. View Publication

Meis1 and Hoxa9 expression is upregulated by retroviral integration in murine myeloid leukemias and in human leukemias carrying MLL translocations. Both genes also cooperate to induce leukemia in a mouse leukemia acceleration assay,which can be explained,in part,by their physical interaction with each other as well as the PBX family of homeodomain proteins. Here we show that Meis1-deficient embryos have partially duplicated retinas and smaller lenses than normal. They also fail to produce megakaryocytes,display extensive hemorrhaging,and die by embryonic day 14.5. In addition,Meis1-deficient embryos lack well-formed capillaries,although larger blood vessels are normal. Definitive myeloerythroid lineages are present in the mutant embryos,but the total numbers of colony-forming cells are dramatically reduced. Mutant fetal liver cells also fail to radioprotect lethally irradiated animals and they compete poorly in repopulation assays even though they can repopulate all hematopoietic lineages. These and other studies showing that Meis1 is expressed at high levels in hematopoietic stem cells (HSCs) suggest that Meis1 may also be required for the proliferation/self-renewal of the HSC. View Publication

We have previously shown that dysregulation of fibroblast growth factor receptor 3 (FGFR3) by the t(4;14) translocation is a primary event in multiple myeloma (MM) and that activating mutations of FGFR3 are acquired in some cases. We describe here inhibition of wild-type (WT) and constitutively activated mutant FGFR3 autophosphorylation by the small molecule inhibitor,PD173074. Inhibition of FGFR3 in human myeloma cell lines was associated with decreased viability and tumor cell growth arrest. Further,morphologic,phenotypic,and functional changes typical of plasma cell (PC) differentiation,including increase in light-chain secretion and expression of CD31,were observed and this was followed by apoptosis. Finally,using a mouse model of FGFR3 myeloma,we demonstrate a delay in tumor progression and prolonged survival of mice treated with PD173074. These results indicate that inhibition of FGFR3,even in advanced disease associated with multiple genetic changes,may allow the cell to complete its developmental program and render it sensitive to apoptotic signals. In addition,this represents the validation of a therapeutic target in MM that may benefit patients who have a very poor prognosis with currently available treatments. View Publication

Acute myeloid leukemia (AML) is characterized by the block of differentiation,deregulated apoptosis,and an increased self-renewal of hematopoietic precursors. It is unclear whether the self-renewal of leukemic blasts results from the cumulative effects of blocked differentiation and impaired apoptosis or whether there are mechanisms directly increasing self-renewal. The AML-associated translocation products (AATPs) promyelocytic leukemia/retinoic acid receptor alpha (PML/RAR alpha),promyelocytic leukemia zinc finger (PLZF)/RAR alpha (X-RAR alpha),and AML-1/ETO block hematopoietic differentiation. The AATPs activate the Wnt signaling by up-regulating gamma-catenin. Activation of the Wnt signaling augments self-renewal of hematopoietic stem cells (HSCs). Therefore,we investigated how AATPs influence self-renewal of HSCs and evaluated the role of gamma-catenin in the determination of the phenotype of HSCs expressing AATPs. Here we show that the AATPs directly activate the gamma-catenin promoter. The crucial role of gamma-catenin in increasing the self-renewal of HSCs upon expression of AATPs is demonstrated by (i) the abrogation of replating efficiency upon hindrance of gamma-catenin expression through RNA interference,and (ii) the augmentation of replating efficiency of HSCs upon overexpression of gamma-catenin itself. In addition,the inoculation of gamma-catenin-transduced HSCs into irradiated recipient mice establishes the clinical picture of AML. These data provide the first evidence that the aberrant activation of Wnt signaling by the AATP decisively contributes to the pathogenesis of AML. View Publication

BCR-ABL and v-ABL are oncogenic forms of the Abl tyrosine kinase that can cause leukemias in mice and humans. ABL oncogenes trigger multiple signaling pathways whose contribution to transformation varies among cell types. Activation of phosphoinositide 3-kinase (PI3K) is essential for ABL-dependent proliferation and survival in some cell types,and global PI3K inhibitors can enhance the antileukemia effects of the Abl kinase inhibitor imatinib. Although a significant fraction of BCR-ABL-induced human leukemias are of B-cell origin,little is known about PI3K signaling mechanisms in B-lineage cells transformed by ABL oncogenes. Here we show that activation of class I(A) PI3K and downstream inactivation of FOXO transcription factors are essential for survival of murine pro/pre-B cells transformed by v-ABL or BCR-ABL. In addition,analysis of mice lacking individual PI3K genes indicates that products of the Pik3r1 gene contribute to transformation efficiency by BCR-ABL. These findings establish a role for PI3K signaling in B-lineage transformation by ABL oncogenes. View Publication

The novel immunosuppressant FTY720 activates sphingosine 1-phosphate receptors (S1PRs) that affect responsiveness of lymphocytes to chemokines such as stromal cell-derived factor 1 (SDF-1),resulting in increased lymphocyte homing to secondary lymphoid organs. Since SDF-1 and its receptor CXCR4 are also involved in bone marrow (BM) homing of hematopoietic stem and progenitor cells (HPCs),we analyzed expression of S1PRs and the influence of FTY720 on SDF-1/CXCR4-mediated effects in human HPCs. By reverse transcriptase-polymerase chain reaction (RT-PCR),S1PRs were expressed in mobilized CD34+ HPCs,particularly in primitive CD34+/CD38- cells. Incubation of HPCs with FTY720 resulted in prolonged SDF-1-induced calcium mobilization and actin polymerization,and substantially increased SDF-1-dependent in vitro transendothelial migration,without affecting VLA-4,VLA-5,and CXCR4 expression. In nonobese diabetic-severe combined immunodeficient (NOD/SCID) mice,the number of CD34+/CD38- cells that homed to the BM after 18 hours was significantly raised by pretreatment of animals and cells with FTY720,tending to result in improved engraftment. In addition,in vitro growth of HPCs (week-5 cobblestone area-forming cells [CAFCs]) was 2.4-fold increased. We conclude that activation of S1PRs by FTY720 increases CXCR4 function in HPCs both in vitro and in vivo,supporting homing and proliferation of HPCs. In the hematopoietic microenvironment,S1PRs are involved in migration and maintenance of HPCs by modulating the effects of SDF-1. View Publication

BACKGROUND: Peroxisome proliferator-activated receptor-gamma (PPAR-gamma) agonists inhibit vascular smooth muscle proliferation and migration and improve endothelial function. It is unknown whether PPAR-gamma agonists favorably modulate bone marrow (BM)-derived angiogenic progenitor cells (APCs) to promote endothelial lineage differentiation and early reendothelialization after vascular intervention. METHODS AND RESULTS: C57/BL6 mice,treated with or without rosiglitazone (8 mg/kg per day),a PPAR-gamma agonist,underwent femoral angioplasty. Rosiglitazone treatment attenuated neointimal formation (intima/media ratio: 0.98+/-0.12 [rosiglitazone] versus 3.1+/-0.5 [control]; Ptextless0.001; n=10 per group). Using a BM transplantation model,we identified that 58+/-12% of the cells within the neointima at 4 weeks were derived from the BM. Pure endothelial marker-positive,pure alpha-smooth muscle actin (alphaSMA)-positive,or double-positive APCs could be found both in mouse BM and in human peripheral blood after culture in conditional medium enriched with vascular endothelial growth factor. Rosiglitazone caused a 6-fold (Ptextless0.001) increase in colony formation by human endothelial progenitor cells,promoted the differentiation of APCs toward the endothelial lineage in mouse BM in vivo (0.66+/-0.06% [control] to 0.95+/-0.08% [rosiglitazone]; Ptextless0.05) and in human peripheral blood in vitro (13.2+/-1.5% [control] to 28.4+/-3.3% [rosiglitazone]; Ptextless0.05),and inhibited the differentiation toward the smooth muscle cell lineage. Within the neointima,rosiglitazone also stimulated APCs to differentiate into mature endothelial cells and caused earlier reendothelialization compared with controls (31+/-5 versus 8+/-2 CD31-positive cells per millimeter of neointimal surface on day 14; Ptextless0.01). CONCLUSIONS: Similar to embryonic stem cell-derived progenitors,the adult BM and peripheral blood harbor APCs that are at least bipotential and able to differentiate into endothelial and smooth muscle lineages. The PPAR-gamma agonist rosiglitazone promotes the differentiation of these APCs toward the endothelial lineage and attenuates restenosis after angioplasty. View Publication

The cellular and molecular events regulating the induction and tissue-specific differentiation of endoderm are central to our understanding of the development and function of many organ systems. To define and characterize key components in this process,we have investigated the potential of embryonic stem (ES) cells to generate endoderm following their differentiation to embryoid bodies (EBs) in culture. We found that endoderm can be induced in EBs,either by limited exposure to serum or by culturing in the presence of activin A (activin) under serum-free conditions. By using an ES cell line with the green fluorescent protein (GFP) cDNA targeted to the brachyury locus,we demonstrate that endoderm develops from a brachyury(+) population that also displays mesoderm potential. Transplantation of cells generated from activin-induced brachyury(+) cells to the kidney capsule of recipient mice resulted in the development of endoderm-derived structures. These findings demonstrate that ES cells can generate endoderm in culture and,as such,establish this differentiation system as a unique murine model for studying the development and specification of this germ layer. View Publication

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Erythropoietin (EPO) is the hormone necessary for development of erythrocytes from immature erythroid cells. EPO activates Jun N-terminal kinase (JNK),a member of the mitogen-activated protein kinase (MAPK) family in the EPO-dependent murine erythroid HCD57 cells. Therefore,we tested if JNK activity supported proliferation and/or survival of these cells. Treatment with the JNK inhibitor SP600125 inhibited JNK activity and EPO-dependent proliferation of HCD57 cells and the human EPO-dependent cell lines TF-1 and UT7-EPO. SP600125 also increased the fraction of cells in G2/M. Introduction of a dominant-negative form of JNK1 inhibited EPO-dependent proliferation in HCD57 cells but did not increase the fraction of cells in G2/M. Constitutive JNK activity was observed in primary murine erythroid progenitors. Treatment of primary mouse bone marrow cells with the SP600125 inhibitor reduced the number of erythroid burst-forming units (BFU-e's) but not the more differentiated erythroid colony-forming units (CFU-e's),and SP600125 protected the BFU-e's from apoptosis induced by cytosine arabinoside,demonstrating that the SP600125 inhibited proliferation of the BFU-e's. Therefore,JNK activity appears to be an important regulator of proliferation in immature,primary erythroid cells and 3 erythroid cell lines but may not be required for the survival or proliferation of CFU-e's or proerythroblasts. View Publication