技术资料

Implanted materials,such as medical devices,provoke the body to initiate an inflammatory reaction,known as the foreign body reaction (FBR),which causes several complications for example in hip prostheses,silicone implants,peritoneal dialysis catheters and left ventricular assist devices. FBR is initiated by macrophage adherence and results in granulation tissue formation. The early immunobiology and development of this tissue is not completely understood,but there are indications from related myofibroblast-forming diseases such as vascular repair and fibrosis that primitive stem cells also play a role in the formation of FBR-tissue. To investigate this,acellular photo-oxidized bovine pericardium patches were implanted intraperitoneally in rats and retrieved at time-points ranging from 6h to 7 days. A significant fraction of Sca-1(+) (6h-2 days),c-kit(+),CD34(+) and CD271(+) (2-3 days) stem/progenitor cells were detected. Colony-forming and differentiation capacity of the primitive stem cells into adipo-,osteo-,and myofibroblasts were shown. The presence of these primitive cells and their myofibroblastic differentiation potential were also confirmed at RNA level. The identification of specific primitive cells during FBR may have important implications for the inflammatory responses to inert materials and their use in tissue prostheses. View Publication

Recently,a number of clinical trials used either mesenchymal stem cells (MSCs) or natural killer (NK) cells in an attempt to improve the effectiveness of hematopoietic stem cell transplantation (HSCT). In view of the relevant role of both MSCs and NK cells in HSCT,we have recently explored the result of possible interactions between the 2 cell types. We found that activated NK cells could kill MSCs,whereas MSCs strongly inhibited interleukin-2 (IL-2)-induced NK-cell proliferation. In this study,we further analyzed the inhibitory effect exerted by MSCs on NK cells. We show that MSCs not only inhibit the cytokine-induced proliferation of freshly isolated NK cells but also prevent the induction of effector functions,such as cytotoxic activity and cytokine production. Moreover,we show that this inhibitory effect is related to a sharp down-regulation of the surface expression of the activating NK receptors NKp30,NKp44,and NKG2D. Finally,we demonstrate that indoleamine 2,3-dioxygenase and prostaglandin E2 represent key mediators of the MSC-induced inhibition of NK cells. View Publication

Mesenchymal stem cells (MSC) establish close interactions with bone marrow sinusoids in a putative perivascular niche. These vessels contain a large storage pool of mature nonproliferating neutrophils. Here,we have investigated the effects of human bone marrow MSC on neutrophil survival and effector functions. MSC from healthy donors,at very low MSC:neutrophil ratios (up to 1:500),significantly inhibited apoptosis of resting and interleukin (IL)-8-activated neutrophils and dampened N-formyl-l-methionin-l-leucyl-l-phenylalanine (f-MLP)-induced respiratory burst. The antiapoptotic activity of MSC did not require cell-to-cell contact,as shown by transwell experiments. Antibody neutralization experiments demonstrated that the key MSC-derived soluble factor responsible for neutrophil protection from apoptosis was IL-6,which signaled by activating STAT-3 transcription factor. Furthermore,IL-6 expression was detected in MSC by real-time reverse transcription-polymerase chain reaction and enzyme-linked immunosorbent assay. Finally,recombinant IL-6 was found to protect neutrophils from apoptosis in a dose-dependent manner. MSC had no effect on neutrophil phagocytosis,expression of adhesion molecules,and chemotaxis in response to IL-8,f-MLP,or C5a. These results support the following conclusions: (a) in the bone marrow niche,MSC likely protect neutrophils of the storage pool from apoptosis,preserving their effector functions and preventing the excessive or inappropriate activation of the oxidative metabolism,and (b) a novel mechanism whereby the inflammatory potential of activated neutrophils is harnessed by inhibition of apoptosis and reactive oxygen species production without impairing phagocytosis and chemotaxis has been identified. View Publication

Mesenchymal stromal cells (MSC) provide a supportive cellular microenvironment and are able to maintain the self-renewal capacity of hematopoietic progenitor cells (HPC). Isolation procedures for MSC vary extensively,and this may influence their biologic properties. In this study,we have compared human MSC isolated from bone marrow (BM) using two culture conditions,from cord blood (CB),and from adipose tissue (AT). The ability to maintain long-term culture-initiating cell frequency and a primitive CD34(+)CD38(-) immunophenotype was significantly higher for MSC derived from BM and CB compared with those from AT. These results were in line with a significantly higher adhesion of HPC to MSC from BM and CB versus MSC from AT. We have compared the cytokine production of MSC by cytokine antibody arrays,enzyme-linked immunosorbent assay,and a cytometric bead array. There were reproducible differences in the chemokine secretion profiles of various MSC preparations,but there was no clear concordance with differences in their potential to maintain primitive function of HPC. Global gene expression profiles of MSC preparations were analyzed and showed that adhesion proteins including cadherin-11,N-cadherin,vascular cell adhesion molecule 1,neural cell adhesion molecule 1,and integrins were highly expressed in MSC preparations derived from BM and CB. Thus,MSC from BM and CB are superior to MSC from AT for maintenance of primitive HPC. The latter property is associated with specific molecular profiles indicating the significance of cell-cell junctions but not with secretory profiles. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

The aims of our study were to verify whether it was possible to generate in vitro,from different adult human tissues,a population of cells that behaved,in culture,as multipotent stem cells and if these latter shared common properties. To this purpose,we grew and cloned finite cell lines obtained from adult human liver,heart,and bone marrow and named them human multipotent adult stem cells (hMASCs). Cloned hMASCs,obtained from the 3 different tissues,expressed the pluripotent state-specific transcription factors Oct-4,NANOG,and REX1,displayed telomerase activity,and exhibited a wide range of differentiation potential,as shown both at a morphologic and functional level. hMASCs maintained a human diploid DNA content,and shared a common gene expression signature,compared with several somatic cell lines and irrespectively of the tissue of isolation. In particular,the pathways regulating stem cell self-renewal/maintenance,such as Wnt,Hedgehog,and Notch,were transcriptionally active. Our findings demonstrate that we have optimized an in vitro protocol to generate and expand cells from multiple organs that could be induced to acquire morphologic and functional features of mature cells even embryologically not related to the tissue of origin. View Publication

Mesenchymal stem cells (MSC) are part of the bone marrow that provides signals supporting survival and growth of bystander hematopoietic stem cells (HSC). MSC modulate also the immune response,as they inhibit proliferation of lymphocytes. In order to investigate whether MSC can support survival of T cells,we investigated MSC capacity of rescuing T lymphocytes from cell death induced by different mechanisms. We observed that MSC prolong survival of unstimulated T cells and apoptosis-prone thymocytes cultured under starving conditions. MSC rescued T cells from activation induced cell death (AICD) by downregulation of Fas receptor and Fas ligand on T cell surface and inhibition of endogenous proteases involved in cell death. MSC dampened also Fas receptor mediated apoptosis of CD95 expressing Jurkat leukemic T cells. In contrast,rescue from AICD was not associated with a significant change of Bcl-2,an inhibitor of apoptosis induced by cell stress. Accordingly,MSC exhibited a minimal capacity of rescuing Jurkat cells from chemically induced apoptosis,a process disrupting the mitochondrial membrane potential regulated by Bcl-2. These results suggest that MSC interfere with the Fas receptor regulated process of programmed cell death. Overall,MSC can inhibit proliferation of activated T cells while supporting their survival in a quiescent state,providing a model of their activity inside the HSC niche. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

Umbilical cord blood (UCB) has been used as a potential source of various kinds of stem cells,including hematopoietic stem cells,mesenchymal stem cells,and endothelial progenitor cells (EPCs),for a variety of cell therapies. Recently,EPCs were introduced for restoring vascularization in ischemic tissues. An appropriate procedure for isolating EPCs from UCB is a key issue for improving therapeutic efficacy and eliminating the unexpected expansion of nonessential cells. Here we report a novel method for isolating EPCs from UCB by a combination of negative immunoselection and cell culture techniques. In addition,we divided EPCs into 2 subpopulations according to the aldehyde dehydrogenase (ALDH) activity. We found that EPCs with low ALDH activity (Alde-Low) possess a greater ability to proliferate and migrate compared to those with high ALDH activity (Alde-High). Moreover,hypoxia-inducible factor proteins are up-regulated and VEGF,CXCR4,and GLUT-1 mRNAs are increased in Alde-Low EPCs under hypoxic conditions,while the response was not significant in Alde-High EPCs. In fact,the introduction of Alde-Low EPCs significantly reduced tissue damage in ischemia in a mouse flap model. Thus,the introduction of Alde-Low EPCs may be a potential strategy for inducing rapid neovascularization and subsequent regeneration of ischemic tissues. 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

AIM: The recently published REPAIR-AMI and ASTAMI trial showed differences in contractile recovery of left ventricular function after infusion of bone marrow-derived cells in acute myocardial infarction. Since the trials used different protocols for cell isolation and storage (REPAIR-AMI: Ficoll,storage in X-vivo 10 medium plus serum; ASTAMI: Lymphoprep,storage in NaCl plus plasma),we compared the functional activity of BMC isolated by the two different protocols. METHODS AND RESULTS: The recovery of total cell number,colony-forming units (CFU),and the number of mesenchymal stem cells were significantly reduced to 77 +/- 4%,83 +/- 16%,and 65 +/- 15%,respectively,when using the ASTAMI protocol compared with the REPAIR protocol. The capacity of the isolated BMC to migrate in response to stromal cell-derived factor 1 (SDF-1) was profoundly reduced when using the ASTAMI cell isolation procedure (42 +/- 8% and 78 +/- 3% reduction in healthy and CAD-patient cells,respectively). Finally,infusion of BMC into a hindlimb ischaemia model demonstrated a significantly blunted blood-flow-recovery by BMC isolated with the ASTAMI protocol (54 +/- 6% of the effect obtained by REPAIR cells). Comparison of the individual steps identified the use of NaCl and plasma for cell storage as major factors for functional impairment of the BMC. CONCLUSION: Cell isolation protocols have a major impact on the functional activity of bone marrow-derived progenitor cells. The assessment of cell number and viability may not entirely reflect the functional capacity of cells in vivo. Additional functional testing appears to be mandatory to assure proper cell function before embarking on clinical cell therapy trials. 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

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

Stem cells exhibit a promiscuous gene expression pattern. We show herein that the early embryo and adult MSCs express B-cell receptor component mRNAs. To examine possible bearings of these genes on the expressing cells,we studied immunoglobulin mu chain-deficient mice. Pregnant mu chain-deficient females were found to produce a higher percentage of defective morulae compared with control females. Structure analysis indicated that the mu mRNA species found in embryos and in mesenchyme consist of the constant region of the mu heavy chain that encodes a recombinant 50-kDa protein. In situ hybridization localized the constant mu gene expression to loose mesenchymal tissues within the day-12.5 embryo proper and the yolk sac. In early embryo and in adult mesenchyme from mu-deficient mice,delta replaced mu chain,implying a possible requirement of these alternative molecules for embryo development and mesenchymal functions. Indeed,overexpression of the mesenchymal-truncated mu heavy chain in 293T cells resulted in specific subcellular localization and in G(1) growth arrest. The lack of such occurrence following overexpression of a complete,rearranged form of mu chain suggests that the mesenchymal version of this mRNA may possess unique functions. View Publication