技术资料

Prior experimental strategies to induce transplantation tolerance have focused largely on modifying adaptive immunity. However,less is known concerning the role of innate immune signaling in the induction of transplantation tolerance. Using a highly immunogenic murine skin transplant model that resists transplantation tolerance induction when innate immunity is preserved,we show that absence of MyD88,a key innate Toll like receptor signal adaptor,abrogates this resistance and facilitates inducible allograft acceptance. In our model,absence of MyD88 impairs inflammatory dendritic cell responses that reduce T cell activation. This effect increases T cell susceptibility to suppression mediated by CD4+ CD25+ regulatory T cells. Therefore,this study provides evidence that absence of MyD88 promotes inducible allograft acceptance and implies that inhibiting innate immunity may be a potential,clinically relevant strategy to facilitate transplantation tolerance. View Publication

MSCs have received attention for their therapeutic potential in a number of disease states,including bone formation,diabetes,stem cell engraftment after marrow transplantation,graft-versus-host disease,and heart failure. Despite this diverse interest,the molecular signals regulating MSC trafficking to sites of injury are unclear. MSCs are known to transiently home to the freshly infarcted myocardium. To identify MSC homing factors,we determined chemokine expression pattern as a function of time after myocardial infarction (MI). We merged these profiles with chemokine receptors expressed on MSCs but not cardiac fibroblasts,which do not home after MI. This analysis identified monocyte chemotactic protein-3 (MCP-3) as a potential MSC homing factor. Overexpression of MCP-3 1 month after MI restored MSC homing to the heart. After serial infusions of MSCs,cardiac function improved in MCP-3-expressing hearts (88.7%,p textless .001) but not in control hearts (8.6%,p = .47). MSC engraftment was not associated with differentiation into cardiac myocytes. Rather,MSC engraftment appeared to result in recruitment of myofibroblasts and remodeling of the collagen matrix. These data indicate that MCP-3 is an MSC homing factor; local overexpression of MCP-3 recruits MSCs to sites of injured tissue and improves cardiac remodeling independent of cardiac myocyte regeneration. View Publication

BACKGROUND: Endothelial progenitor cells (EPCs) are present in peripheral blood and can promote postnatal angiogenesis. The number and function of circulating EPCs are altered in diabetics. This study sought to investigate whether the number and functional properties of EPCs from patients with type II diabetes could be improved by pioglitazone. METHODS: For this randomized controlled study,we recruited 36 type II diabetic patients on metformin monotherapy with a glycohemoglobin A1c of textless7%. Patients were separated into pioglitazone (n = 24) and control (n = 12) groups. The number and functional activity of EPCs,and the brachial artery flow-mediated dilation were determined before and after pioglitazone treatment (8 weeks) as an add-on therapy to metformin. In addition,direct effects of pioglitazone on EPCs were also investigated. RESULTS: After pioglitazone treatment,the numbers of circulating EPCs significantly increased (from 0.44% +/- 0.14% to 0.89% +/- 0.29%,P = .01). The migratory response and the adhesive capacity to fibronectin and collagen were improved by 158%,34%,and 83%,respectively (all P textless .05). Treatment with pioglitazone significantly lowered triglyceride,very low density lipoprotein cholesterol,and high-sensitivity C-reactive protein (hsCRP) levels,and increased high-density lipoprotein levels and insulin sensitivity (all P textless .05). The increase in the number of circulating EPCs and the improvement in the migratory response after pioglitazone treatment were independently correlated to the decrease in hsCRP levels (P textless or = .01). The increase in the adhesive capacity was independently correlated to the decreases in very low density lipoprotein cholesterol (P = .01) and hsCRP levels (P = .03). In addition,pioglitazone was also demonstrated to have direct effects on increasing EPC proliferation and colony formation,and attenuating EPC apoptosis (all P textless .05,versus the controls). There were no significant changes in flow-mediated dilation in either group. CONCLUSIONS: Pioglitazone significantly increased the number and improved the functional properties of EPCs in type II diabetic patients through direct effects and/or anti-inflammation and lipid modification effects. View Publication

BACKGROUND: The purpose of this study was to determine whether murine mesenchymal stem cells (MSC) are able to home to the viable myocardium when injected intravenously and attenuate cardiac dysfunction and ventricular remodeling associated with myocardial infarction. METHODS AND RESULTS: Murine bone marrow cells were negatively selected for lineage markers and adherent MSC differentiated into adipocytes and osteocytes following treatment in culture. Two weeks after coronary occlusion that resulted in a permanent transmural infarct we observed a significant drop in LV systolic pressure,dP/dt(max),dP/dt(min),ESPVR and E(max) and a significant increase in end-diastolic volume in vivo. Femoral vein injection of MSC 1 h after occlusion attenuated the cardiac dysfunction without altering infarct size,or end-diastolic volume. Injected MSC pre-labeled with fluorescent paramagnetic microspheres were observed scattered in noninfarcted regions of the myocardium. Flow cytometry of whole heart digests after intravenous injection of MSC labeled with either fluorescent microspheres or fluorescent PKH26 dye demonstrated that infarcted hearts from mice that received MSC injections contained significantly more cells that integrated into the heart (20x) than those from uninfarcted controls. CONCLUSION: We conclude that intravenously injected MSC were able to home to viable myocardium and preserve systolic function by 2 weeks following ligation. The preserved contractility is likely an MSC-mediated paracrine response since infarct morphology was unchanged and labeled cells observed at two weeks exhibited the same characteristics as the injected MSC. These data underscore the importance of using MSC as a potential therapeutic intervention in preserving cardiac function following infarction. View Publication

Macroautophagy (hereafter referred to as autophagy) is a well-conserved intracellular degradation process. Recent studies examining cells lacking the autophagy genes Atg5 and Atg7 have demonstrated that autophagy plays essential roles in cell survival during starvation,in innate cell clearance of microbial pathogens,and in neural cell maintenance. However,the role of autophagy in T lymphocyte development and survival is not known. Here,we demonstrate that autophagosomes form in primary mouse T lymphocytes. By generating Atg5-/- chimeric mice,we found that Atg5-deficient T lymphocytes underwent full maturation. However,the numbers of total thymocytes and peripheral T and B lymphocytes were reduced in Atg5 chimeras. In the periphery,Atg5-/- CD8+ T lymphocytes displayed dramatically increased cell death. Furthermore,Atg5-/- CD4+ and CD8+ T cells failed to undergo efficient proliferation after TCR stimulation. These results demonstrate a critical role for Atg5 in multiple aspects of lymphocyte development and function and suggest that autophagy may be essential for both T lymphocyte survival and proliferation. View Publication

Hematopoietic stem cells are resistant to HIV-1 infection. Here,we report a novel mechanism by which the cyclin-dependent kinase inhibitor (CKI) p21(Waf1/Cip1/Sdi1) (p21),a known regulator of stem cell pool size,restricts HIV-1 infection of primitive hematopoietic cells. Modifying p21 expression altered HIV-1 infection prior to changes in cell cycling and was selective for p21 since silencing the related CKIs,p27(Kip1) and p18(INK4C),had no effect on HIV-1. We show that p21 blocked viral infection by complexing with HIV-1 integrase and aborting chromosomal integration. A closely related lentivirus with a distinct integrase,SIVmac-251,and the other cell-intrinsic inhibitors of HIV-1,Trim5alpha,PML,Murr1,and IFN-alpha,were unaffected by p21. Therefore,p21 is an endogenous cellular component in stem cells that provides a unique molecular barrier to HIV-1 infection and may explain how these cells remain an uninfected sanctuary" in HIV disease." View Publication

CTLs act as the effector arm of the cell-mediated immune system to kill undesirable cells. Two processes regulate these effector cells to prevent self reactivity: a thymic selection process that eliminates autoreactive clones and a multistage activation or priming process that endows them with a license to kill cognate target cells. Hitherto no subsequent regulatory restrictions have been ascribed for properly primed and activated CTLs that are licensed to kill. In this study we show that CTLs possess a novel postpriming regulatory mechanism(s) that influences the outcome of their encounter with cognate target cells. This mechanism gauges the degree of Ag density,whereupon reaching a certain threshold significant changes occur that induce anergy in the effector T cells. The biological consequences of this Ag-induced postpriming control includes alterations in the expression of cell surface molecules that control immunological synapse activity and cytokine profiles and induce retarded cell proliferation. Most profound is genome-wide microarray analysis that demonstrates changes in the expression of genes related to membrane potential,TCR signal transduction,energy metabolism,and cell cycle control. Thus,a discernible and unique gene expression signature for anergy as a response to high Ag density has been observed. Consequently,activated T cells possess properties of a self-referential sensory organ. These studies identify a new postpriming control mechanism of CTL with anergenic-like properties. This mechanism extends our understanding of the control of immune function and regulation such as peripheral tolerance,viral infections,antitumor immune responses,hypersensitivity,and autoimmunity. View Publication

Conventionally,mesenchymal stem cells (MSC) are generated by plating cells from bone marrow (BM) or other sources into culture flasks and selecting plastic-adherent cells with fibroblastoid morphology. These cells express CD9,CD10,CD13,CD73,CD105,CD166,and other markers but show only a weak or no expression of the embryonic markers stage-specific embryonic antigen-4 (SSEA-4),Oct-4 and nanog-3. Using a novel protocol we prepared MSC from BM and non-amniotic placenta (PL) by culture of Ficoll-selected cells in gelatin-coated flasks in the presence of a serum-free,basic fibroblast growth factor (b-FGF)-containing medium that was originally designed for the expansion of human embryonic stem cells (ESC). MSC generated in gelatin-coated flasks in the presence of ESC medium revealed a four-to fivefold higher proliferation rate than conventionally prepared MSC which were grown in uncoated flasks in serum-containing medium. In contrast,the colony forming unit fibroblast number was only 1.5- to twofold increased in PL-MSC and not affected in BM-MSC. PL-MSC grown in ESC medium showed an increased surface expression of SSEA-4 and frizzled-9 (FZD-9),an increased Oct-4 and nestin mRNA expression,and an induced expression of nanog-3. BM-MSC showed an induced expression of FZD-9,nanog-3,and Oct-4. In contrast to PL-MSC,only BM-MSC expressed the MSC-specific W8B2 antigen. When cultured under appropriate conditions,these MSC gave rise to functional adipocytes and osteoblast-like cells (mesoderm),glucagon and insulin expressing pancreatic-like cells (endoderm),as well as cells expressing the neuronal markers neuron-specific enolase,glutamic acid decarboxylase-67 (GAD),or class III beta-tubulin,and the astrocyte marker glial fibrillary acidic protein (ectoderm). In conclusion,using a novel protocol we demonstrate that adult BM-and neonatal PL-derived MSC can be induced to express high levels of FZD-9,Oct-4,nanog-3,and nestin and are able of multi-lineage differentiation. View Publication

Differences in clinical outcome of simian immunodeficiency virus (SIV) infection in disease-resistant African sooty mangabeys (SM) and disease-susceptible Asian rhesus macaques (RM) prompted us to examine the role of regulatory T cells (Tregs) in these two animal models. Results from a cross-sectional study revealed maintenance of the frequency and absolute number of peripheral Tregs in chronically SIV-infected SM while a significant loss occurred in chronically SIV-infected RM compared to uninfected animals. A longitudinal study of experimentally SIV-infected animals revealed a transient increase in the frequency of Tregs from baseline values following acute infection in RM,but no change in the frequency of Tregs occurred in SM during this period. Further examination revealed a strong correlation between plasma viral load (VL) and the level of Tregs in SIV-infected RM but not SM. A correlation was also noted in SIV-infected RM that control VL spontaneously or in response to antiretroviral chemotherapy. In addition,immunofluorescent cell count assays showed that while Treg-depleted peripheral blood mononuclear cells from RM led to a significant enhancement of CD4+ and CD8+ T-cell responses to select pools of SIV peptides,there was no detectable T-cell response to the same pool of SIV peptides in Treg-depleted cells from SIV-infected SM. Our data collectively suggest that while Tregs do appear to play a role in the control of viremia and the magnitude of the SIV-specific immune response in RM,their role in disease resistance in SM remains unclear. View Publication

T cell activation is predicated on the interaction between the T cell receptor and peptide-major histocompatibility (pMHC) ligands. The factors that determine the stimulatory potency of a pMHC molecule remain unclear. We describe results showing that a peptide exhibiting many hallmarks of a weak agonist stimulates T cells to proliferate more than the wild-type agonist ligand. An in silico approach suggested that the inability to form the central supramolecular activation cluster (cSMAC) could underlie the increased proliferation. This conclusion was supported by experiments that showed that enhancing cSMAC formation reduced stimulatory capacity of the weak peptide. Our studies highlight the fact that a complex interplay of factors determines the quality of a T cell antigen. View Publication

The catalytic domain of the flavin-dependent human histone demethylase lysine-specific demethylase 1 (LSD1) belongs to the family of amine oxidases including polyamine oxidase and monoamine oxidase (MAO). We previously assessed monoamine oxidase inhibitors (MAOIs) for their ability to inhibit the reaction catalyzed by LSD1 [Lee,M. G.,et al. (2006) Chem. Biol. 13,563-567],demonstrating that trans-2-phenylcyclopropylamine (2-PCPA,tranylcypromine,Parnate) was the most potent with respect to LSD1. Here we show that 2-PCPA is a time-dependent,mechanism-based irreversible inhibitor of LSD1 with a KI of 242 microM and a kinact of 0.0106 s-1. 2-PCPA shows limited selectivity for human MAOs versus LSD1,with kinact/KI values only 16-fold and 2.4-fold higher for MAO B and MAO A,respectively. Profiles of LSD1 activity and inactivation by 2-PCPA as a function of pH are consistent with a mechanism of inactivation dependent upon enzyme catalysis. Mass spectrometry supports a role for FAD as the site of covalent modification by 2-PCPA. These results will provide a foundation for the design of cyclopropylamine-based inhibitors that are selective for LSD1 to probe its role in vivo. View Publication

Survivin,which is the smallest member of the inhibitor of apoptosis protein (IAP) family,is a chromosomal passenger protein that mediates the spindle assembly checkpoint and cytokinesis,and also functions as an inhibitor of apoptosis. Frequently overexpressed in human cancers and not expressed in most adult tissues,survivin has been proposed as an attractive target for anticancer therapies and,in some cases,has even been touted as a cancer-specific gene. Survivin is,however,expressed in proliferating adult cells,including human hematopoietic stem cells,T-lymphocytes,and erythroid cells throughout their maturation. Therefore,it is unclear how survivin-targeted anticancer therapies would impact steady-state blood development. To address this question,we used a conditional gene-targeting strategy and abolished survivin expression from the hematopoietic compartment of mice. We show that inducible deletion of survivin leads to ablation of the bone marrow,with widespread loss of hematopoietic progenitors and rapid mortality. Surprisingly,heterozygous deletion of survivin causes defects in erythropoiesis in a subset of the animals,with a dramatic reduction in enucleated erythrocytes and the presence of immature megaloblastic erythroblasts. Our studies demonstrate that survivin is essential for steady-state hematopoiesis and survival of the adult,and further,that a high level of survivin expression is critical for proper erythroid differentiation. View Publication