技术资料

Crystalline Mg-Zinc (Zn)-Strontium (Sr) ternary alloys consist of elements naturally present in the human body and provide attractive mechanical and biodegradable properties for a variety of biomedical applications. The first objective of this study was to investigate the degradation and cytocompatibility of four Mg-4Zn-xSr alloys (x=0.15,0.5,1.0,1.5wt%; designated as ZSr41A,B,C,and D respectively) in the direct culture with human umbilical vein endothelial cells (HUVEC) in vitro. The second objective was to investigate,for the first time,the early-stage inflammatory response in cultured HUVECs as indicated by the induction of vascular cellular adhesion molecule-1 (VCAM-1). The results showed that the 24-h in vitro degradation of the ZSr41 alloys containing a β-phase with a Zn/Sr at% ratio ∼1.5 was significantly faster than the ZSr41 alloys with Zn/Sr at% ∼1. Additionally,the adhesion density of HUVECs in the direct culture but not in direct contact with the ZSr41 alloys for up to 24h was not adversely affected by the degradation of the alloys. Importantly,neither culture media supplemented with up to 27.6mM Mg(2+) ions nor media intentionally adjusted up to alkaline pH 9 induced any detectable adverse effects on HUVEC responses. In contrast,the significantly higher,yet non-cytotoxic,Zn(2+) ion concentration from the degradation of ZSr41D alloy was likely the cause for the initially higher VCAM-1 expression on cultured HUVECs. Lastly,analysis of the HUVEC-ZSr41 interface showed near-complete absence of cell adhesion directly on the sample surface,most likely caused by either a high local alkalinity,change in surface topography,and/or surface composition. The direct culture method used in this study was proposed as a valuable tool for studying the design aspects of Zn-containing Mg-based biomaterials in vitro,in order to engineer solutions to address current shortcomings of Mg alloys for vascular device applications. STATEMENT OF SIGNIFICANCE Magnesium (Mg) alloys specifically designed for biodegradable implant applications have been the focus of biomedical research since the early 2000s. Physicochemical properties of Mg alloys make these metallic biomaterials excellent candidates for temporary biodegradable implants in orthopedic and cardiovascular applications. As Mg alloys continue to be investigated for biomedical applications,it is necessary to understand whether Mg-based materials or the alloying elements have the intrinsic ability to direct an immune response to improve implant integration while avoiding cell-biomaterial interactions leading to chronic inflammation and/or foreign body reactions. The present study utilized the direct culture method to investigate for the first time the in vitro transient inflammatory activation of endothelial cells induced by the degradation products of Zn-containing Mg alloys. View Publication

Bone marrow-derived mesenchymal stromal cells (MSC) possess an immune plasticity manifested by either an immunosuppressive or,when activated with IFN-gamma,an APC phenotype. Herein,TLR expression by MSC and their immune regulatory role were investigated. We observed that human MSC and macrophages expressed TLR3 and TLR4 at comparable levels and TLR-mediated activation of MSC resulted in the production of inflammatory mediators such as IL-1beta,IL-6,IL-8/CXCL8,and CCL5. IFN-alpha or IFN-gamma priming up-regulated production of these inflammatory mediators and expression of IFNB,inducible NO synthase (iNOS),and TRAIL upon TLR activation in MSC and macrophages,but failed to induce IL-12 and TNF-alpha production in MSC. Nonetheless,TLR activation in MSC resulted in the formation of an inflammatory site attracting innate immune cells,as evaluated by human neutrophil chemotaxis assays and by the analysis of immune effectors retrieved from Matrigel-embedded MSC injected into mice after in vitro preactivation with cytokines and/or TLR ligands. Hence,TLR-activated MSC are capable of recruiting immune inflammatory cells. In addition,IFN priming combined with TLR activation may increase immune responses induced by Ag-presenting MSC through presentation of Ag in an inflammatory context,a mechanism that could be applied in a cell-based vaccine. View Publication

BACKGROUND The robust generation of human hematopoietic progenitor cells from induced or embryonic pluripotent stem cells would be beneficial for multiple areas of research,including mechanistic studies of hematopoiesis,the development of cellular therapies for autoimmune diseases,induced transplant tolerance,anticancer immunotherapies,disease modeling,and drug/toxicity screening. Over the past years,significant progress has been made in identifying effective protocols for hematopoietic differentiation from pluripotent stem cells and understanding stages of mesodermal,endothelial,and hematopoietic specification. Thus,it has been shown that variations in cytokine and inhibitory molecule treatments in the first few days of hematopoietic differentiation define primitive versus definitive potential of produced hematopoietic progenitor cells. The majority of current feeder-free,defined systems for hematopoietic induction from pluripotent stem cells include prolonged incubations with various cytokines that make the differentiation process complex and time consuming. We established that the application of Wnt agonist CHIR99021 efficiently promotes differentiation of human pluripotent stem cells in the absence of any hematopoietic cytokines to the stage of hemogenic endothelium capable of definitive hematopoiesis. METHODS The hemogenic endothelium differentiation was accomplished in an adherent,serum-free culture system by applying CHIR99021. Hemogenic endothelium progenitor cells were isolated on day 5 of differentiation and evaluated for their endothelial,myeloid,and lymphoid potential. RESULTS Monolayer induction based on GSK3 inhibition,described here,yielded a large number of CD31(+)CD34(+) hemogenic endothelium cells. When isolated and propagated in adherent conditions,these progenitors gave rise to mature endothelium. When further cocultured with OP9 mouse stromal cells,these progenitors gave rise to various cells of myeloid lineages as well as natural killer lymphoid,T-lymphoid,and B-lymphoid cells. CONCLUSION The results of this study substantiate a method that significantly reduces the complexity of current protocols for hematopoietic induction,offers a defined system to study the factors that affect the early stages of hematopoiesis,and provides a new route of lymphoid and myeloid cell derivation from human pluripotent stem cells,thus enhancing their use in translational medicine. View Publication

P-selectin glycoprotein ligand-1 (PSGL-1) is a homodimeric transmembrane mucin on leukocytes. During inflammation,reversible interactions of PSGL-1 with selectins mediate leukocyte rolling on vascular surfaces. The transmembrane domain of PSGL-1 is required for dimerization,and the cytoplasmic domain propagates signals that activate β(2) integrins to slow rolling on integrin ligands. Leukocytes from knock-in ΔCD" mice express a truncated PSGL-1 that lacks the cytoplasmic domain. Unexpectedly� View Publication

Recombinant human erythropoietin (rhEPO) is receiving increasing attention as a potential therapy for prevention of injury and restoration of function in nonhematopoietic tissues. However,the minimum effective dose required to mimic and augment these normal paracrine functions of erythropoietin (EPO) in some organs (e.g.,the brain) is higher than for treatment of anemia. Notably,a dose-dependent risk of adverse effects has been associated with rhEPO administration,especially in high-risk groups,including polycythemia-hyperviscosity syndrome,hypertension,and vascular thrombosis. Of note,several clinical trials employing relatively high dosages of rhEPO in oncology patients were recently halted after an increase in mortality and morbidity,primarily because of thrombotic events. We recently identified a heteromeric EPO receptor complex that mediates tissue protection and is distinct from the homodimeric receptor responsible for the support of erythropoiesis. Moreover,we developed receptor-selective ligands that provide tools to assess which receptor isoform mediates which biological consequence of rhEPO therapy. Here,we demonstrate that rhEPO administration in the rat increases systemic blood pressure,reduces regional renal blood flow,and increases platelet counts and procoagulant activities. In contrast,carbamylated rhEPO,a heteromeric receptor-specific ligand that is fully tissue protective,increases renal blood flow,promotes sodium excretion,reduces injury-induced elevation in procoagulant activity,and does not effect platelet production. These preclinical findings suggest that nonerythropoietic tissue-protective ligands,which appear to elicit fewer adverse effects,may be especially useful in clinical settings for tissue protection. View Publication

BACKGROUND AND PURPOSE: Teratogenic substances induce adverse effects during the development of the embryo. Multilineage differentiation of human embryonic stem cells (hESCs) mimics the development of the embryo in vitro. Here,we propose a transcriptomic approach in hESCs for monitoring specific toxic effects of compounds as an alternative to traditional time-consuming and cost-intensive in vivo tests requiring large numbers of animals. This study was undertaken to explore the adverse effects of cytosine arabinoside (Ara-C) on randomly differentiated hESCs.backslashnbackslashnEXPERIMENTAL APPROACH: Human embryonic stem cells were used to investigate the effects of a developmental toxicant Ara-C. Sublethal concentrations of Ara-C were given for two time points,day 7 and day 14 during the differentiation. Gene expression was assessed with microarrays to determine the dysregulated transcripts in presence of Ara-C.backslashnbackslashnKEY RESULTS: Randomly differentiated hESCs were able to generate the multilineage markers. The low concentration of Ara-C (1 nM) induced the ectoderm and inhibited the mesoderm at day 14. The induction of ectodermal markers such as MAP2,TUBB III,PAX6,TH and NESTIN was observed with an inhibition of mesodermal markers such as HAND2,PITX2,GATA5,MYL4,TNNT2,COL1A1 and COL1A2. In addition,no induction of apoptosis was observed. Gene ontology revealed unique dysregulated biological process related to neuronal differentiation and mesoderm development. Pathway analysis showed the axon guidance pathway to be dysregulated.backslashnbackslashnCONCLUSIONS AND IMPLICATIONS: Our results suggest that hESCs in combination with toxicogenomics offer a sensitive in vitro developmental toxicity model as an alternative to traditional animal experiments. View Publication

Patient-derived induced pluripotent stem cells (iPSCs) provide a novel tool to investigate the pathophysiology of poorly known diseases,in particular those affecting the nervous system,which has been difficult to study for its lack of accessibility. In this emerging and promising field,recent iPSCs studies are mostly used as proof-of-principle" experiments that are confirmatory of previous findings obtained from animal models and postmortem human studies; its promise as a discovery tool is just beginning to be realized. A recent number of studies point to the functional similarities between in vitro neurogenesis and in vivo neuronal development� View Publication

Myocardial ischemia-reperfusion (I/R) injury is unavoidable during cardioplegic arrest and open-heart surgery. Danshen is one of the most popular traditional herbal medicines in China,which has entered the Food and Drug Administration-approved phase III clinical trial. This study was aimed to develop a human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) model to mimic I/R injury and evaluate the cardioprotective effect of regular cardioplegic solution with Danshen. hiPSC-CMs were cultured with the crystalloid cardioplegic solution (Thomas group) and Thomas solution with 2 or 10 µg/mL Danshen (Thomas plus Danshen groups). The cells under normoxic culture condition served as baseline group. Then,the cells were placed in a modular incubator chamber. After 45 min hypoxia and 3 h reoxygenation,hiPSC-CMs subjected to hypoxia/reoxygenation resulted in a sharp increase of reactive oxygen species (ROS) content in Thomas group versus baseline group. Compared with the Thomas group,ROS accumulation was significant suppressed in Thomas plus Danshen groups,which might result from elevating the content of glutathione and enhanced activities of superoxide dismutase and glutathione peroxidase. The enhanced L-type Ca(2+) current in hiPSC-CMs after I/R injury was also significantly decreased by Danshen,and meanwhile intracellular Ca(2+) level was reduced and calcium overload was suppressed. Thomas plus Danshen groups also presented less irregular transients and lower apoptosis rates. As a result,Danshen could improve antioxidant and calcium handling in cardiomyocytes during I/R and lead to reduced arrhythmia events and apoptosis rates. hiPSC-CMs model offered a platform for the future translational study of the cardioplegia. View Publication

DPF2,also named ubi-d4/requiem (REQU),interacts with a protein complex containing OCT4. This paper provides data in support of the research article entitled DPF2 regulates OCT4 protein level and nuclear distribution". The highlights include: (1) Denature-immunoprecipitation assay revealed ubiquitination of OCT4 in pluripotent H9 cells� View Publication