技术资料

In the present study,we combined stem cell technology with a non-absorbable biomaterial for the reconstruction of the ruptured ACL. Towards this purpose,multipotential stromal cells derived either from subcutaneous human adipose tissue (hAT-MSCs) or from induced pluripotent stem cells (iPSCs) generated from human foreskin fibroblasts (hiPSC-MSCs) were cultured on the biomaterial for 21days in vitro to generate a 3D bioartifical ACL graft. Stem cell differentiation towards bone and ligament at the ends and central part of the biomaterial was selectively induced using either BMP-2/FGF-2 or TGF-β/FGF-2 combinations,respectively. The bioartificial ACL graft was subsequently implanted in a swine ACL rupture model in place of the surgically removed normal ACL. Four months post-implantation,the tissue engineered ACL graft generated an ACL-like tissue exhibiting morphological and biochemical characteristics resembling those of normal ACL. View Publication

Disturbances in neuronal differentiation and function are an underlying factor of many brain disorders. Zinc homeostasis and signaling are important mediators for a normal brain development and function,given that zinc deficiency was shown to result in cognitive and emotional deficits in animal models that might be associated with neurodevelopmental disorders. One underlying mechanism of the observed detrimental effects of zinc deficiency on the brain might be impaired proliferation and differentiation of stem cells participating in neurogenesis. Thus,to examine the molecular mechanisms regulating zinc metabolism and signaling in differentiating neurons,using a protocol for motor neuron differentiation,we characterized the expression of zinc homeostasis genes during neurogenesis using human induced pluripotent stem cells (hiPSCs) and evaluated the influence of altered zinc levels on the expression of zinc homeostasis genes,cell survival,cell fate,and neuronal function. Our results show that zinc transporters are highly regulated genes during neuronal differentiation and that low zinc levels are associated with decreased cell survival,altered neuronal differentiation,and,in particular,synaptic function. We conclude that zinc deficiency in a critical time window during brain development might influence brain function by modulating neuronal differentiation. View Publication

CD38,as a cell surface antigen is highly expressed in several hematologic malignancies including multiple myeloma (MM) and has been proven to be a good target for immunotherapy of the disease. CD38 is also a signaling enzyme responsible for the metabolism of two novel calcium messenger molecules. To be able to target this multifunctional protein,we generated a series of nanobodies against CD38 with high affinities. Crystal structures of the complexes of CD38 with the nanobodies were solved,identifying three separate epitopes on the carboxyl domain. Chromobodies,engineered by tagging the nanobody with fluorescence proteins,provide fast,simple and versatile tools for quantifying CD38 expression. Results confirmed that CD38 was highly expressed in malignant MM cells compared with normal white blood cells. The immunotoxin constructed by splicing the nanobody with a bacterial toxin,PE38 shows highly selective cytotoxicity against patient-derived MM cells as well as the cell lines,with half maximal effective concentration reaching as low as 10(-11) molar. The effectiveness of the immunotoxin can be further increased by stimulating CD38 expression using retinoid acid. These results set the stage for the development of clinical therapeutics as well as diagnostic screening for myeloma. View Publication

Thirdhand cigarette smoke (THS) was recently recognized as an environmental health hazard; however,little is known about it effects on cells. Mitochondria are sensitive monitors of cell health and report on environmentally-induced stress. We tested the effects of low levels of THS extracted from terry cloth on mitochondrial morphology and function using stem cells with well-defined mitochondria. Concentrations of THS that did not kill cells caused stress-induced mitochondrial hyperfusion (SIMH),which was characterized by changes in mitochondrial morphology indicative of fusion,increased mitochondrial membrane potential (MMP),increased ATP levels,increased superoxide production,and increased oxidation of mitochondrial proteins. SIMH was accompanied by a decrease in Fis1 expression,a gene responsible for mitochondrial fission,and a decrease in apoptosis-related genes,including Aifm2,Bbc3 and Bid There was also down regulation of Ucp2,Ucp4 and Ucp5,genes that decrease MMP thereby reducing oxidative phosphorylation,while promoting glycolysis. These effects,which collectively accompany SIMH,are a pro-survival mechanism to rescue damaged mitochondria and protect cells from apoptosis. Prolonged exposure to THS caused a reduction in MMP and decreased cell proliferation,which likely leads to apoptosis. View Publication

Organogenesis of the trachea and lungs requires a complex series of mesoderm-endoderm interactions mediated by WNT,BMP,retinoic acid (RA),and hedgehog (Hh),but how these pathways interact in a gene regulatory network is less clear. Using Xenopus embryology,mouse genetics,and human ES cell cultures,we identified a conserved signaling cascade that initiates respiratory lineage specification. We show that RA has multiple roles; first RA pre-patterns the lateral plate mesoderm and then it promotes Hh ligand expression in the foregut endoderm. Hh subsequently signals back to the pre-patterned mesoderm to promote expression of the lung-inducing ligands Wnt2/2b and Bmp4. Finally,RA regulates the competence of the endoderm to activate the Nkx2-1+ respiratory program in response to these mesodermal WNT and BMP signals. These data provide insights into early lung development and a paradigm for how mesenchymal signals are coordinated with epithelial competence during organogenesis. View Publication

Derivation of functional vascular smooth muscle cells (VSMCs) from human induced pluripotent stem cells (hiPSCs) to generate tissue-engineered blood vessels (TEBVs) holds great potential in treating patients with vascular diseases. Herein,hiPSCs were differentiated into alpha-smooth muscle actin ($$-SMA) and calponin-positive VSMCs,which were seeded onto polymer scaffolds in bioreactors for vascular tissue growth. A functional TEBV with abundant collagenous matrix and sound mechanics resulted,which contained cells largely positive for $$-SMA and smooth muscle myosin heavy chain (SM-MHC). Moreover,when hiPSC-derived TEBV segments were implanted into nude rats as abdominal aorta interposition grafts,they remained unruptured and patent with active vascular remodeling,and showed no evidence of teratoma formation during a 2-week proof-of-principle study. Our studies represent the development of the first implantable TEBVs based on hiPSCs,and pave the way for developing autologous or allogeneic grafts for clinical use in patients with vascular disease. View Publication

Human embryonic stem cells (hESCs) and human induced pluripotent stem cells (hiPSCs) are defined as pluripotent in view of their self-renewal ability and potential to differentiate to cells of all three germ layers. Recent studies have indicated that microRNAs (miRNAs) play an important role in the maintenance of pluripotency and cell cycle regulation. We used a microarray based approach to identify miRNAs that were enriched in hESCs when compared to differentiated cells and at the same time showed significant expression changes between different phases of cell cycle. We identified 34 candidate miRNAs and performed functional studies on one of these,miR-1305,which showed the highest expression change during cell cycle transition. Overexpression of miR-1305 induced differentiation of pluripotent stem cells,increased cell apoptosis and sped up G1/S transition,while its downregulation facilitated the maintenance of pluripotency and increased cell survival. Using target prediction software and luciferase based reporter assays we identified POLR3G as a downstream target by which miR-1305 regulates the fine balance between maintenance of pluripotency and onset of differentiation. Overexpression of POLR3G rescued pluripotent stem cell differentiation induced by miR-1305 overexpression. In contrast,knock-down of POLR3G expression abolished the miR-1305-knockdown mediated enhancement of pluripotency,thus validating its role as miR-1305 target in human pluripotent stem cells. Together our data point to an important role for miR-1305 as a novel regulator of pluripotency,cell survival and cell cycle and uncovers new mechanisms and networks by which these processes are intertwined in human pluripotent stem cells. This article is protected by copyright. All rights reserved. View Publication

Human embryonic stem cell line BJNhem20-TetR was generated using non-viral method. The construct pCAG-TetRnls was transfected using microporation procedure. BJNhem20-TetR can subsequently be transfected with any vector harbouring a TetO (Tet operator) sequence to generate doxycycline based inducible line. For example,in human embryonic stem cells,the pSuperior based TetO system has been transfected into a TetR containing line to generate OCT4 knockdown cell line (Zafarana et al.,2009). Thus BJNhem20-TetR can be used as a tool to perturb gene expression in human embryonic stem cells. View Publication

Human iPSC line Oex2054SV.4 was generated from fibroblasts of a patient with an optic atrophy 'plus' phenotype associated with a heterozygous mutation in the OPA1 gene. Reprogramming factors OCT3/4,SOX2,CMYC and KLF4 were delivered using a non-integrative methodology that involves the use of Sendai virus. View Publication

p40,a Lactobacillus rhamnosus GG (LGG)-derived protein,transactivates epidermal growth factor receptor (EGFR) in intestinal epithelial cells,leading to amelioration of intestinal injury and inflammation. To elucidate mechanisms by which p40 regulates mucosal immunity to prevent inflammation,this study aimed to determine the effects and mechanisms of p40 on regulation of a proliferation-inducing ligand (APRIL) expression in intestinal epithelial cells for promoting immunoglobulin A (IgA) production. p40 upregulated April gene expression and protein production in mouse small intestine epithelial (MSIE) cells,which were inhibited by blocking EGFR expression and kinase activity. Enteroids from Egfr(fl/fl),but not Egfr(fl/fl)-Vil-Cre mice with EGFR specifically deleted in intestinal epithelial cells,exhibited increased April gene expression by p40 treatment. p40-conditioned media from MSIE cells increased B-cell class switching to IgA(+) cells and IgA production,which was suppressed by APRIL receptor-neutralizing antibodies. Treatment of B cells with p40 did not show any effects on IgA production. p40 treatment increased April gene expression and protein production in small intestinal epithelial cells,fecal IgA levels,IgA(+)B220(+),IgA(+)CD19(+),and IgA(+) plasma cells in lamina propria of Egfr(fl/fl),but not of Egfr(fl/fl)-Vil-Cre,mice. Thus p40 upregulates EGFR-dependent APRIL production in intestinal epithelial cells,which may contribute to promoting IgA production. View Publication

Human pluripotent stem cells (hPSCs) have gained a solid foothold in basic research and drug industry as they can be used in??vitro to study human development and have potential to offer limitless supply of various somatic cell types needed in drug development. Although the hepatic differentiation of hPSCs has been extensively studied,only a little attention has been paid to the role of the extracellular matrix. In this study we used laminin-511,laminin-521,and fibronectin,found in human liver progenitor cells,as culture matrices for hPSC-derived definitive endoderm cells. We observed that laminin-511 and laminin-521 either alone or in combination support the hepatic specification and that fibronectin is not a vital matrix protein for the hPSC-derived definitive endoderm cells. The expression of the laminin-511/521-specific integrins increased during the definitive endoderm induction and hepatic specification. The hepatic cells differentiated on laminin matrices showed the upregulation of liver-specific markers both at mRNA and protein levels,secreted human albumin,stored glycogen,and exhibited cytochrome P450 enzyme activity and inducibility. Altogether,we found that laminin-511 and laminin-521 can be used as stage-specific matrices to guide the hepatic specification of hPSC-derived definitive endoderm cells. View Publication

The developmental outcomes of preimplantation mammalian embryos are regulated directly by the surrounding microenvironment,and inappropriate concentrations of amino acids,or the loss of amino acid-sensing mechanisms,can be detrimental and impact further development. A specific role for l-proline in the differentiation of embryonic stem (ES) cells,a cell population derived from the blastocyst,has been shown in culture. l-proline acts as a signalling molecule,exerting its effects through cell uptake and subsequent metabolism. Uptake in ES cells occurs predominantly through the sodium-coupled neutral amino acid transporter 2,Slc38a2 (SNAT2). Dynamic expression of amino acid transporters has been shown in the early mammalian embryo,reflecting functional roles for amino acids in embryogenesis. The expression of SNAT2 and family member Slc38a1 (SNAT1) was determined in mouse embryos from the 2-cell stage through to the early post-implantation pre-gastrulation embryo. Key changes in expression were validated in cell culture models of development. Both transporters showed temporal dynamic expression patterns and changes in intracellular localisation as differentiation progressed. Changes in transporter expression likely reflect different amino acid requirements during development. Findings include the differential expression of SNAT1 in the inner and outer cells of the compacted morula and nuclear localisation of SNAT2 in the trophectoderm and placental lineages. Furthermore,SNAT2 expression was up-regulated in the epiblast prior to primitive ectoderm formation,an expression pattern consistent with a role for the transporter in later developmental decisions within the pluripotent lineage. We propose that the differential expression of SNAT2 in the epiblast provides evidence for an l-proline-mediated mechanism contributing to the regulation of embryonic development. View Publication