技术资料

Identification of rational therapeutic targets is an important strategy to improve the cure rate of diffuse large B-cell lymphoma (DLBCL). We previously showed that inhibition of the phosphodiesterase 4B (PDE4B) unleashes cyclic-AMP (cAMP) inhibitory effects toward the PI3K/AKT pathway and induces apoptosis. These data raised important considerations as to which upstream regulators mediate cAMP inhibition of PI3K/AKT,and how identifying this signaling route could be translated into clinical initiatives. We found that in normal and malignant B cells,cAMP potently inhibit the phosphorylation and activity of the tyrosine kinase SYK. Using genetic models of gain- and loss-of-function,we demonstrated the essential role for PDE4B in controlling these effects in DLBCL. Furthermore,we used a constitutively active SYK mutant to confirm its central role in transducing cAMP effects to PI3K/AKT. Importantly,given SYK credentials as a therapeutic target in B-cell tumors,we explored the role of PDE4B in these responses. In multiple DLBCL models,we found that genetically,hence specifically,inhibiting PDE4B expression significantly improved the efficacy of SYK inhibitors. Our data defined a hitherto unknown role for cAMP in negatively regulating SYK and indicate that combined inhibition of PDE4B and SYK should be actively pursued. View Publication

Correction of murine models of beta-thalassemia has been achieved through high-level globin lentiviral vector gene transfer into mouse hematopoietic stem cells (HSCs). However,transduction of human HSCs is less robust and may be inadequate to achieve therapeutic levels of genetically modified erythroid cells. We therefore developed a double gene lentiviral vector encoding both human gamma-globin under the transcriptional control of erythroid regulatory elements and methylguanine methyltransferase (MGMT),driven by a constitutive cellular promoter. MGMT expression provides cellular resistance to alkylator drugs,which can be administered to kill residual untransduced,diseased HSCs,whereas transduced cells are protected. Mice transplanted with beta-thalassemic HSCs transduced with a gamma-globin/MGMT vector initially had subtherapeutic levels of red cells expressing gamma-globin. To enrich gamma-globin-expressing cells,transplanted mice were treated with the alkylator agent 1,3-bis-chloroethyl-1-nitrosourea. This resulted in significant increases in the number of gamma-globin-expressing red cells and the amount of fetal hemoglobin,leading to resolution of anemia. Selection of transduced HSCs was also obtained when cells were drug-treated before transplantation. Mice that received these cells demonstrated reconstitution with therapeutic levels of gamma-globin-expressing cells. These data suggest that MGMT-based drug selection holds promise as a modality to improve gene therapy for beta-thalassemia. View Publication

The potential for directed differentiation of human-induced pluripotent stem (iPS) cells to functional postmitotic neuronal phenotypes is unknown. Following methods shown to be effective at generating motor neurons from human embryonic stem cells (hESCs),we found that once specified to a neural lineage,human iPS cells could be differentiated to form motor neurons with a similar efficiency as hESCs. Human iPS-derived cells appeared to follow a normal developmental progression associated with motor neuron formation and possessed prototypical electrophysiological properties. This is the first demonstration that human iPS-derived cells are able to generate electrically active motor neurons. These findings demonstrate the feasibility of using iPS-derived motor neuron progenitors and motor neurons in regenerative medicine applications and in vitro modeling of motor neuron diseases. View Publication

Vandetanib is a novel,orally available inhibitor of different intracellular signaling pathways involved in tumor growth,progression,and angiogenesis: vascular endothelial growth factor receptor-2,epidermal growth factor receptor,and REarranged during Transfection tyrosine kinase activity. Phase I clinical trials have shown that vandetanib is well tolerated as a single agent at daily doses textless or =300 mg. In the phase II setting,negative results were observed with vandetanib in small cell lung cancer,metastatic breast cancer,and multiple myeloma. In contrast,three randomized phase II studies showed that vandetanib prolonged the progression-free survival (PFS) time of patients with non-small cell lung cancer (NSCLC) as a single agent when compared with gefitinib or when added to chemotherapy. Rash,diarrhea,hypertension,fatigue,and asymptomatic QTc prolongation were the most common adverse events. Antitumor activity was also observed in medullary thyroid cancer. Four randomized phase III clinical trials in NSCLC are exploring the efficacy of vandetanib in combination with docetaxel,the Zactima in cOmbination with Docetaxel In non-small cell lung Cancer (ZODIAC) trial,or with pemetrexed,the Zactima Efficacy with Alimta in Lung cancer (ZEAL) trial,or as a single agent,the Zactima Efficacy when Studied versus Tarceva (ZEST) and the Zactima Efficacy trial for NSCLC Patients with History of EGFR-TKI chemo-Resistance (ZEPHYR) trials. Based on a press release by the sponsor of these trials,the PFS time was longer with vandetanib in the ZODIAC and ZEAL trials; the ZEST trial was negative for its primary superiority analysis,but was successful according to a preplanned noninferiority analysis of PFS. Ongoing phase II and III clinical trials will better define the appropriate schedule,the optimal setting of evaluation,and the safety of long-term use of vandetanib. View Publication

Proliferation in the nonpregnant human breast is highest in the luteal phase of the menstrual cycle when serum progesterone levels are high,and exposure to progesterone analogues in hormone replacement therapy is known to elevate breast cancer risk,yet the proliferative effects of progesterone in the human breast are poorly understood. In a model of normal human breast,we have shown that progesterone increased incorporation of 5-bromo-2'-deoxyuridine and increased cell numbers by activation of pathways involved in DNA replication licensing,including E2F transcription factors,chromatin licensing and DNA replication factor 1 (Cdt1),and the minichromosome maintenance proteins and by increased expression of proteins involved in kinetochore formation including Ras-related nuclear protein (Ran) and regulation of chromosome condensation 1 (RCC1). Progenitor cells competent to give rise to both myoepithelial and luminal epithelial cells were increased by progesterone,showing that progesterone influences epithelial cell lineage differentiation. Therefore,we have demonstrated that progesterone augments proliferation of normal human breast cells by both activating DNA replication licensing and kinetochore formation and increasing bipotent progenitor numbers. View Publication

Recent evidence indicates that mouse and human embryonic stem cells (ESCs) are fixed at different developmental stages,with the former positioned earlier. We show that a narrow concentration of the naturally occurring short-chain fatty acid,sodium butyrate,supports the extensive self-renewal of mouse and human ESCs,while promoting their convergence toward an intermediate stem cell state. In response to butyrate,human ESCs regress to an earlier developmental stage characterized by a gene expression profile resembling that of mouse ESCs,preventing precocious Xist expression while retaining the ability to form complex teratomas in vivo. Other histone deacetylase inhibitors (HDACi) also support human ESC self-renewal. Our results indicate that HDACi can promote ESC self-renewal across species,and demonstrate that ESCs can toggle between alternative states in response to environmental factors. View Publication

An essential step for therapeutic and research applications of stem cells is the ability to differentiate them into specific cell types. Endodermal cell derivatives,including lung,liver,and pancreas,are of interest for regenerative medicine,but efforts to produce these cells have been met with only modest success. In a screen of 4000 compounds,two cell-permeable small molecules were indentified that direct differentiation of ESCs into the endodermal lineage. These compounds induce nearly 80% of ESCs to form definitive endoderm,a higher efficiency than that achieved by Activin A or Nodal,commonly used protein inducers of endoderm. The chemically induced endoderm expresses multiple endodermal markers,can participate in normal development when injected into developing embryos,and can form pancreatic progenitors. The application of small molecules to differentiate mouse and human ESCs into endoderm represents a step toward achieving a reproducible and efficient production of desired ESC derivatives. View Publication

OBJECTIVE: T lymphocytes play an important role in systemic sclerosis (SSc),a connective tissue disease characterized by inflammation,fibrosis,and vascular damage. While their precise role and antigen specificity are unclear,T cell-derived cytokines likely contribute to the induction of fibrosis. The aim of this study was to establish the role of cytokine dysregulation by T cells in the pathogenesis of SSc. METHODS: To identify relationships between a specific cytokine,T cell subset,and the disease course,we studied a large cohort of patients with diffuse cutaneous SSc (dcSSc) or limited cutaneous SSc (lcSSc). Using Luminex analysis and intracellular cytokine staining,we analyzed the intrinsic ability of CD4+ and CD8+ T cell subsets to produce cytokines following in vitro activation. RESULTS: High levels of the profibrotic type 2 cytokine interleukin-13 (IL-13) were produced following activation of peripheral blood effector CD8+ T cells from SSc patients as compared with normal controls or with patients with rheumatoid arthritis. In contrast,CD4+ T cells showed a lower and more variable level of IL-13 production. This abnormality correlated with the extent of fibrosis and was more pronounced in dcSSc patients than in lcSSc patients. CONCLUSION: Dysregulated IL-13 production by effector CD8+ T cells is important in the pathogenesis of SSc and is critical in the predisposition to more severe forms of cutaneous disease. Our study is the first to identify a specific T cell phenotype that correlates with disease severity in SSc and can be used as a marker of immune dysfunction in SSc and as a novel therapeutic target. View Publication

The development of cell therapies to treat peripheral vascular disease has proven difficult because of the contribution of multiple cell types that coordinate revascularization. We characterized the vascular regenerative potential of transplanted human bone marrow (BM) cells purified by high aldehyde dehydrogenase (ALDH(hi)) activity,a progenitor cell function conserved between several lineages. BM ALDH(hi) cells were enriched for myelo-erythroid progenitors that produced multipotent hematopoietic reconstitution after transplantation and contained nonhematopoietic precursors that established colonies in mesenchymal-stromal and endothelial culture conditions. The regenerative capacity of human ALDH(hi) cells was assessed by intravenous transplantation into immune-deficient mice with limb ischemia induced by femoral artery ligation/transection. Compared with recipients injected with unpurified nucleated cells containing the equivalent of 2- to 4-fold more ALDH(hi) cells,mice transplanted with purified ALDH(hi) cells showed augmented recovery of perfusion and increased blood vessel density in ischemic limbs. ALDH(hi) cells transiently recruited to ischemic regions but did not significantly integrate into ischemic tissue,suggesting that transient ALDH(hi) cell engraftment stimulated endogenous revascularization. Thus,human BM ALDH(hi) cells represent a progenitor-enriched population of several cell lineages that improves perfusion in ischemic limbs after transplantation. These clinically relevant cells may prove useful in the treatment of critical ischemia in humans. View Publication

Adult hematopoietic stem cells (HSCs) are routinely used to reconstitute hematopoiesis after myeloablation; however,transplantation efficacy and multilineage reconstitution can be limited by inadequate HSC number,or poor homing,engraftment,or self-renewal. Here we report that mouse and human HSCs express prostaglandin E2 (PGE2) receptors,and that short-term ex vivo exposure of HSCs to PGE2 enhances their homing,survival,and proliferation,resulting in increased long-term repopulating cell (LTRC) and competitive repopulating unit (CRU) frequency. HSCs pulsed with PGE2 are more competitive,as determined by head-to-head comparison in a competitive transplantation model. Enhanced HSC frequency and competitive advantage is stable and maintained upon serial transplantation,with full multilineage reconstitution. PGE2 increases HSC CXCR4 mRNA and surface expression,enhances their migration to SDF-1 in vitro and homing to bone marrow in vivo,and stimulates HSC entry into and progression through cell cycle. In addition,PGE2 enhances HSC survival,associated with an increase in Survivin mRNA and protein expression and reduction in intracellular active caspase-3. Our results define novel mechanisms of action whereby PGE2 enhances HSC function and supports a strategy to use PGE2 to facilitate hematopoietic transplantation. View Publication

Immunotherapy with the EGFR-specific mAb cetuximab is clinically effective in 10-20% of patients with squamous cell carcinoma of the head and neck (SCCHN). Little information is available about the mechanism(s) underlying patients' differential clinical response to cetuximab-based immunotherapy,although this information may contribute to optimizing the design of cetuximab-based immunotherapy. Our understanding of these mechanisms would benefit from the characterization of the variables which influence the extent of cell dependent-lysis of SCCHN cells incubated with cetuximab in vitro. Therefore,in this study we have investigated the role of FcgammaR IIIa-158 genotype expressed by effector NK cells,cetuximab concentration,and EGFR expression level by SCCHN cells in the extent of their in vitro lysis and in the degree of NK cell activation. PBMC or purified CD56+ NK cells genotyped at IIIa codon 158 and SCCHN cell lines expressing different levels of EGFR have been used as effectors and targets,respectively,in antibody dependent cellular cytotoxicity (ADCC) assays. Furthermore,supernatants from ADCC assays were analyzed for cytokine and chemokine levels using multiplexed ELISA. We found that the extent of lysis of SCCHN cells was influenced by the EGFR expression level,cetuximab concentration,and FcgammaR polymorphism. Effector cells expressing the FcgammaR IIIa-158 VV allele were significantly (P textless 0.0001) more effective than those expressing FcgammaR IIIa VF and FF [corrected] alleles in mediating lysis of SCCHN cells expressed higher levels of the activation markers CD69 and CD107a,and secreted significantly (P textless 0.05) larger amounts of inflammatory cytokines and chemokines. IL-2 or IL-15 treatment increased cetuximab-mediated ADCC by poor binding FcgammaR IIIa 158 FF expressing NK cells. The importance of the FcgammaR IIIa-158 polymorphism in cytotoxicity of SCCHN cells by NK cells supports a potential role for immune activation and may explain patient variability of cetuximab mediated clinical responses. Cellular and secreted immune profiles and FcgammaR genotypes from patients' lymphocytes may provide clinically useful biomarkers of immune activation in cetuximab treated patients. View Publication

Recurrent/metastatic head and neck cancer remains a devastating disease with insufficient treatment options. We investigated the MET receptor tyrosine kinase as a novel target for the treatment of head and neck squamous cell carcinoma (HNSCC). MET/phosphorylated MET and HGF expression was analyzed in 121 tissues (HNSCC/normal) by immunohistochemistry,and in 20 HNSCC cell lines by immunoblotting. The effects of MET inhibition using small interfering RNA/two small-molecule inhibitors (SU11274/PF-2341066) on signaling,migration,viability,and angiogenesis were determined. The complete MET gene was sequenced in 66 head and neck cancer tissue samples and eight cell lines. MET gene copy number was determined in 14 cell lines and 23 tumor tissues. Drug combinations of SU11274 with cisplatin or erlotinib were tested in SCC35/HN5 cell lines. Eighty-four percent of the HNSCC samples showed MET overexpression,whereas 18 of 20 HNSCC cell lines (90%) expressed MET. HGF overexpression was present in 45% of HNSCC. MET inhibition with SU11274/PF-2341066 abrogated MET signaling,cell viability,motility/migration in vitro,and tumor angiogenesis in vivo. Mutational analysis of 66 tumor tissues and 8 cell lines identified novel mutations in the semaphorin (T230M/E168D/N375S),juxtamembrane (T1010I/R988C),and tyrosine kinase (T1275I/V1333I) domains (incidence: 13.5%). Increased MET gene copy number was present with textgreater10 copies in 3 of 23 (13%) tumor tissues. A greater-than-additive inhibition of cell growth was observed when combining a MET inhibitor with cisplatin or erlotinib and synergy may be mediated via erbB3/AKT signaling. MET is functionally important in HNSCC with prominent overexpression,increased gene copy number,and mutations. MET inhibition abrogated MET functions,including proliferation,migration/motility,and angiogenesis. MET is a promising,novel target for HNSCC and combination approaches with cisplatin or EGFR inhibitors should be explored. View Publication