技术资料

Activation of a naive T cell is a highly energetic event,which requires a substantial increase in nutrient metabolism. Upon stimulation,T cells increase in size,rapidly proliferate,and differentiate,all of which lead to a high demand for energetic and biosynthetic precursors. Although amino acids are the basic building blocks of protein biosynthesis and contribute to many other metabolic processes,the role of amino acid metabolism in T cell activation has not been well characterized. We have found that glutamine in particular is required for T cell function. Depletion of glutamine blocks proliferation and cytokine production,and this cannot be rescued by supplying biosynthetic precursors of glutamine. Correlating with the absolute requirement for glutamine,T cell activation induces a large increase in glutamine import,but not glutamate import,and this increase is CD28-dependent. Activation coordinately enhances expression of glutamine transporters and activities of enzymes required to allow the use of glutamine as a Krebs cycle substrate in T cells. The induction of glutamine uptake and metabolism requires ERK function,providing a link to TCR signaling. Together,these data indicate that regulation of glutamine use is an important component of T cell activation. Thus,a better understanding of glutamine sensing and use in T cells may reveal novel targets for immunomodulation. View Publication

The 8p11 myeloproliferative syndrome (EMS),also referred to as stem cell leukemia/lymphoma,is a chronic myeloproliferative disorder that rapidly progresses into acute leukemia. Molecularly,EMS is characterized by fusion of various partner genes to the FGFR1 gene,resulting in constitutive activation of the tyrosine kinases in FGFR1. To date,no previous study has addressed the functional consequences of ectopic FGFR1 expression in the potentially most relevant cellular context,that of normal primary human hematopoietic cells. Herein,we report that expression of ZMYM2/FGFR1 (previously known as ZNF198/FGFR1) or BCR/FGFR1 in normal human CD34(+) cells from umbilical-cord blood leads to increased cellular proliferation and differentiation toward the erythroid lineage in vitro. In immunodeficient mice,expression of ZMYM2/FGFR1 or BCR/FGFR1 in human cells induces several features of human EMS,including expansion of several myeloid cell lineages and accumulation of blasts in bone marrow. Moreover,bone marrow fibrosis together with increased extramedullary hematopoiesis is observed. This study suggests that FGFR1 fusion oncogenes,by themselves,are capable of initiating an EMS-like disorder,and provides the first humanized model of a myeloproliferative disorder transforming into acute leukemia in mice. The established in vivo EMS model should provide a valuable tool for future studies of this disorder. View Publication

Embryonic stem cells (ESCs) are derived from the inner cell mass (ICM) of the blastocyst. Because of their ability to differentiate into a variety of cell types,human embryonic stem cells (hESCs) provide an unlimited source of cells for clinical medicine and have begun to be used in clinical trials. Presently,although several hundred hESC lines are available in the word,only few have been widely used in basic and applied research. More and more hESC lines with differing genetic backgrounds are required for establishing a bank of hESCs. Here,we report the first Canadian hESC lines to be generated from cryopreserved embryos and we discuss how we navigated through the Canadian regulatory process. The cryopreserved human zygotes used in this study were cultured to the blastocyst stage,and used to isolate ICM via microsurgery. Unlike previous microsurgery methods,which use specialized glass or steel needles,our method conveniently uses syringe needles for the isolation of ICM and subsequent hESC lines. ICM were cultured on MEF feeders in medium containing FBS or serum replacer (SR). Resulting outgrowths were isolated,cut into several cell clumps,and transferred onto fresh feeders. After more than 30 passages,the two hESC lines established using this method exhibited normal morphology,karyotype,and growth rate. Moreover,they stained positively for a variety of pluripotency markers and could be differentiated both in vitro and in vivo. Both cell lines could be maintained under a variety of culture conditions,including xeno-free conditions we have previously described. We suggest that this microsurgical approach may be conducive to deriving xeno-free hESC lines when outgrown on xeno-free human foreskin fibroblast feeders. View Publication

Reactive oxygen species (ROS) damage brain lipids,carbohydrates,proteins,as well as DNA and may contribute to neurodegeneration. We previously reported that ER- and oxidative stress cause neuronal apoptosis in infantile neuronal ceroid lipofuscinosis (INCL),a lethal neurodegenerative storage disease,caused by palmitoyl-protein thioesterase-1 (PPT1) deficiency. Polyunsaturated fatty acids (PUFA) are essential components of cell membrane phospholipids in the brain and excessive ROS may cause oxidative damage of PUFA leading to neuronal death. Using cultured neurons and neuroprogenitor cells from mice lacking Ppt1,which mimic INCL,we demonstrate that Ppt1-deficient neurons and neuroprogenitor cells contain high levels of ROS,which may cause peroxidation of PUFA and render them incapable of providing protection against oxidative stress. We tested whether treatment of these cells with omega-3 or omega-6 PUFA protects the neurons and neuroprogenitor cells from oxidative stress and suppress apoptosis. We report here that both omega-3 and omega-6 fatty acids protect the Ppt1-deficient cells from ER- as well as oxidative stress and suppress apoptosis. Our results suggest that PUFA supplementation may have neuroprotective effects in INCL. View Publication

Patients with mantle cell lymphoma (MCL) typically respond to initial treatment but subsequently relapse. This pattern suggests that a population of MCL cells is both drug resistant and capable of clonogenic growth. The intracellular enzyme retinaldehyde dehydrogenase (ALDH) provides resistance to several toxic agents. ALDH can also identify stem cells in normal adult tissues and tumorigenic cancer stem cells in several human malignancies. We studied ALDH expression in MCL and found small populations of ALDH(+) cells that were highly clonogenic. Moreover,ALDH(+) MCL cells were relatively quiescent and resistant to a wide range of agents. Normal B cells can be activated by specific unmethylated cytosine-phosphate-guanosine (CpG) DNA motifs through toll-like receptor 9,and we found that the synthetic CpG oligonucleotide 2006 (CpG) reduced the frequency of quiescent ALDH(+) MCL cells,induced terminal plasma cell differentiation,and limited tumor formation in vitro and in vivo. Treatment with CpG also significantly enhanced the activity of the proteasome inhibitor bortezomib that was associated with induction of the unfolded protein response. Our data suggest that CpG may target clonogenic and resistant ALDH(+) cells as well as improve the activity of proteasome inhibitors in MCL. View Publication

CD44+/CD24-/low tumor cells or aldehyde dehydrogenase 1 (ALDH1) positive tumor cells are considered cancer stem cells (CSCs) that possess the properties of self-renewal and tumorigenicity. However,their clinical value and significance in breast cancer remain controversial. A meta-analysis based on published studies was performed with the aim of obtaining an accurate evaluation of the association between the presence of CSCs in clinical samples and clinical outcome. A total of 12 eligible studies with 898 cases and 1,853 controls were included. CSC positive breast cancers,in particular those positive for ALDH1,were significantly associated with high histological grade,estrogen receptor (ER) negativity,progesterone receptor (PR) negativity,and human epidermal growth factor receptor type 2 (HER2) positivity. However,the presence of cancer stem cells was not associated with tumor size or nodal status. ALDH1 positive (RR = 2.83,95% CI: 2.16-3.67,P textless 0.001) and CD44+/CD24-/low tumor cells (RR = 2.32,95% CI: 1.51-3.60,P textless 0.001) were significantly associated with poor overall survival (OS). The stem cell markers are prognostic factors in breast cancer. Larger clinical studies are required to further evaluate the role of these markers in clinical practice. View Publication

The receptor for advanced glycation end products (RAGE) is produced either as a transmembrane or soluble form (sRAGE). Substantial evidence supports a role for RAGE and its ligands in disease. sRAGE is reported to be a competitive,negative regulator of membrane RAGE activation,inhibiting ligand binding. However,some reports indicate that sRAGE is associated with inflammatory disease. We sought to define the biological function of sRAGE on inflammatory cell recruitment,survival,and differentiation in vivo and in vitro. To test the in vivo impact of sRAGE,the recombinant protein was intratracheally administered to mice,which demonstrated monocyte- and neutrophil-mediated lung inflammation. We also observed that sRAGE induced human monocyte and neutrophil migration in vitro. Human monocytes treated with sRAGE produced proinflammatory cytokines and chemokines. Our data demonstrated that sRAGE directly bound human monocytes and monocyte-derived macrophages. Binding of sRAGE to monocytes promoted their survival and differentiation to macrophages. Furthermore,sRAGE binding to cells increased during maturation,which was similar in freshly isolated mouse monocytes compared with mature tissue macrophages. Because sRAGE activated cell survival and differentiation,we examined intracellular pathways that were activated by sRAGE. In primary human monocytes and macrophages,sRAGE treatment activated Akt,Erk,and NF-kappaB,and their activation appeared to be critical for cell survival and differentiation. Our data suggest a novel role for sRAGE in monocyte- and neutrophil-mediated inflammation and mononuclear phagocyte survival and differentiation. View Publication

Regulatory T cells (Tregs) are a suppressive subset of CD4(+) T lymphocytes implicated in the prevention of acute GVHD (aGVHD) after allo-SCT (ASCT). To determine whether increased frequency of Tregs with a skin-homing (cutaneous lymphocyte Ag,CLA(+)) or a gut-homing (α(4)β(7)(+)) phenotype is associated with reduced risk of skin or gut aGVHD,respectively,we quantified circulating CLA(+) or α(4)β(7)(+) on Tregs at the time of neutrophil engraftment in 43 patients undergoing ASCT. Increased CLA(+) Tregs at engraftment was associated with the prevention of skin aGVHD (2.6 vs 1.7%; P=0.038 (no skin aGVHD vs skin aGVHD)),and increased frequencies of CLA(+) and α(4)β(7)(+) Tregs were negatively correlated with severity of skin aGVHD (odds ratio (OR),0.67; 95% confidence interval (CI),0.46-0.98; P=0.041) or gut aGVHD (OR,0.93; 95% CI,0.88-0.99; P=0.031),respectively. This initial report suggests that Treg tissue-homing subsets help to regulate organ-specific risk and severity of aGVHD after human ASCT. These results need to be validated in a larger,multicenter cohort. View Publication

Osteoclasts are resident cells of the bone that are primarily involved in the physiological and pathological remodeling of this tissue. Mature osteoclasts are multinucleated giant cells that are generated from the fusion of circulating precursors originating from the monocyte/macrophage lineage. During inflammatory bone conditions in vivo,de novo osteoclastogenesis is observed but it is currently unknown whether,besides increased osteoclast differentiation from undifferentiated precursors,other cell types can generate a multinucleated giant cell phenotype with bone resorbing activity. In this study,an animal model of calvaria-induced aseptic osteolysis was used to analyze possible bone resorption capabilities of dendritic cells (DCs). We determined by FACS analysis and confocal microscopy that injected GFP-labeled immature DCs were readily recruited to the site of osteolysis. Upon recruitment,the cathepsin K-positive DCs were observed in bone-resorbing pits. Additionally,chromosomal painting identified nuclei from female DCs,previously injected into a male recipient,among the nuclei of giant cells at sites of osteolysis. Finally,osteolysis was also observed upon recruitment of CD11c-GFP conventional DCs in Csf1r(-/-) mice,which exhibit a severe depletion of resident osteoclasts and tissue macrophages. Altogether,our analysis indicates that DCs may have an important role in bone resorption associated with various inflammatory diseases. View Publication

Cryptococcus neoformans is an environmental fungus and an opportunistic human pathogen. Previous studies have demonstrated major alterations in its transcriptional profile as this microorganism enters the hostile environment of the human host. To assess the role of chromatin remodeling in host-induced transcriptional responses,we identified the C. neoformans Gcn5 histone acetyltransferase and demonstrated its function by complementation studies of Saccharomyces cerevisiae. The C. neoformans gcn5Delta mutant strain has defects in high-temperature growth and capsule attachment to the cell surface,in addition to increased sensitivity to FK506 and oxidative stress. Treatment of wild-type cells with the histone acetyltransferase inhibitor garcinol mimics cellular effects of the gcn5Delta mutation. Gcn5 regulates the expression of many genes that are important in responding to the specific environmental conditions encountered by C. neoformans inside the host. Accordingly,the gcn5Delta mutant is avirulent in animal models of cryptococcosis. Our study demonstrates the importance of chromatin remodeling by the conserved histone acetyltransferase Gcn5 in regulating the expression of specific genes that allow C. neoformans to respond appropriately to the human host. View Publication