技术资料

Congenital heart defects are the most common birth defect. The limiting factor in tissue engineering repair strategies is an autologous source of functional cardiomyocytes. Amniotic fluid contains an ideal cell source for prenatal harvest and use in correction of congenital heart defects. This study aims to investigate the potential of amniotic fluid-derived stem cells (AFSC) to undergo non-viral reprogramming into induced pluripotent stem cells (iPSC) followed by growth-factor-free differentiation into functional cardiomyocytes. AFSC from human second trimester amniotic fluid were transfected by non-viral vesicle fusion with modified mRNA of OCT4,KLF4,SOX2,LIN28,cMYC and nuclear GFP over 18 days,then differentiated using inhibitors of GSK3 followed 48 hours later by inhibition of WNT. AFSC-derived iPSC had high expression of OCT4,NANOG,TRA-1-60,and TRA-1-81 after 18 days of mRNA transfection and formed teratomas containing mesodermal,ectodermal,and endodermal germ layers in immunodeficient mice. By Day 30 of cardiomyocyte differentiation,cells contracted spontaneously,expressed connexin 43 and β-myosin heavy chain organized in sarcomeric banding patterns,expressed cardiac troponin T and β-myosin heavy chain,showed upregulation of NKX2.5,ISL-1 and cardiac troponin T with downregulation of POU5F1,and displayed calcium and voltage transients similar to those in developing cardiomyocytes. These results demonstrate that cells from human amniotic fluid can be differentiated through a pluripotent state into functional cardiomyocytes. View Publication

The current in vitro or in vivo intestinal fibrosis models have many limitations. Recent advancements in the isolation and culturing of organoids has led to development of various three-dimensional (3D) intestinal disease models with in vivo physiology. In this study,we generated an organoid-based epithelial to mesenchymal transition (OEMT) model,which could be used as a novel intestinal fibrosis model. Intestinal epithelial organoids (IEOs) were isolated and cultured from the small intestines of normal mice. IEOs were treated with transforming growth factor- β1 (TGF-β1) or Tumor necrosis factor-α (TNF-α) to evaluate their phenotypic change. Raw 264.7 cells (macrophage) stimulated with lipopolysaccharide were co-cultured with IEOs in growth media with or without TGF-β1. TGF-β1 alone slightly induced epithelial to mesenchymal transition (EMT) in the IEOs but mainly disrupted them. Macrophage released cytokines synergistically induced mesenchymal phenotypic changes in TGF-β1 stimulated intestinal organoids. TNF-α and TGF-β1 synergistically induced proliferation of mesenchymal cells as well as EMT in the IEOs. We generated a novel OEMT model based on our finding that TNF-α and TGF-β synergistically induce type 2 EMT in IEOs. This 3D EMT model with in vivo physiology could be used to study EMT associated intestinal fibrosis. View Publication

Common acute lymphoblastic leukemia antigen (CALLA) is a 100-kDa cell-surface glycoprotein expressed on most acute lymphoblastic leukemias and certain other immature lymphoid malignancies and on normal lymphoid progenitors. The latter are either uncommitted to B- or T-cell lineage or committed to only the earliest stages of B- or T-lymphocyte maturation. To elucidate to homogeneity,obtained the NH2-terminal sequence from both the intact protein and derived tryptic and V8 protease peptides and isolated CALLA cDNAs from a Nalm-6 cell line lambda gt10 library using redundant oligonucleotide probes. The CALLA cDNA sequence predicts a 750-amino acid integral membrane protein with a single 24-amino acid hydrophobic segment that could function as both a transmembrane region and a signal peptide. The COOH-terminal 700 amino acids,including six potential N-linked glycosylation sites compose the extracellular protein segment,whereas the 25 NH2-terminal amino acids remaining after cleavage of the initiation methionine form the cytoplasmic tail. CALLA+ cells contain CALLA transcripts of 2.7 to 5.7 kilobases with the major 5.7- and 3.7-kilobase mRNAs being preferentially expressed in specific cell types. View Publication

Using a monoclonal antibody against the microtubule-associated protein tau we compared the distribution and the biochemical maturation of this protein in hippocampal pyramidal neurons in the rat in tau and in culture. In tissue sections from mature animals tau was localized heterogeneously within neurons. It was concentrated in axons; dendrites and somata showed little or no staining. In hippocampal cultures ranging from 12 h to 4 weeks in vitro tau was present in neurons but not in glial cells,as it is in situ. Within cultured neurons,however,tau was not compartmentalized but was present throughout the dendrites,axons and somata. Immunoblotting experiments showed that the biochemical maturation of tau that occurs in situ also failed to occur in culture. The young form of tau persisted,and the adult forms did not develop. In contrast the biochemical maturation and the compartmentalization of microtubule-associated protein 2 occurred normally in hippocampal cultures. These results show that the biochemical maturation and the intraneuronal compartmentalization of these two microtubule-associated proteins are independently controlled. Despite the non-restricted distribution of tau in hippocampal neurons in culture,and despite the presence of only the immature isoform which has a lessened stimulatory effect on microtubule polymerization,axons and dendrites appear to grow normally and to exhibit appropriate functional properties. View Publication

Sinefungin,a natural nucleoside isolated from cultures of Streptomyces incarnatus and S. griseolus,is structurally related to S-adenosylhomocysteine and S-adenosylmethionine. Sinefungin has been shown to inhibit the development of various fungi and viruses,but its major attraction to date resides in its potent antiparasitic activity. This compound has been reported to display antiparasitic activity against malarial,trypanosomal,and leishmanial species. Very little is known about the antiparasitic mode of action of sinefungin. We found that S-adenosylmethionine was capable of reversing the inhibitory growth effects of sinefungin in Leishmania mexicana and that dATP was capable of reversing inhibitory effects of the drug on DNA polymerase activity when pyrophosphate release was measured. However,when incorporation of [3H]dTTP was used to measure DNA polymerase activity,no inhibition could be observed. Inhibition of DNA polymerase activity by sinefungin occurred only during the initial stages of purification of this enzyme,and inhibition by aphidicolin,a known DNA polymerase inhibitor,paralleled the inhibition by sinefungin. Neither sinefungin nor aphidicolin inhibited partially purified DNA polymerase. S-Adenosylmethionine synthetase was partially purified,and sinefungin,at levels active in vitro,had no significant effect. Sinefungin was significantly suppressive against both L. donovani and L. braziliensis panamensis infections in hamsters when compared with meglumine antimonate (Glucantime). View Publication

A simple and efficient procedure for the construction of bifunctional molecules is described and their use in a variety of applications documented. This procedure is based on our observation that mouse IgG1 monoclonal antibodies,when mixed with equimolar amounts of a high-affinity rat monoclonal antibody specific for mouse IgG1,yield uniform cyclic tetramolecular complexes each consisting of two mouse and two rat antibodies as shown by gel electrophoresis and electron microscopy. When solutions of two mouse antibodies (e.g. a and b) are mixed prior to the formation of complexes with the rat antibody,stable bispecific (a X b) complexes together with monospecific (a X a and b X b) complexes are obtained. Bispecific complexes prepared in this way were able to efficiently bind peroxidase to cell surface antigens,and to bind red blood cells to selected nucleated cell types present in heterogeneous populations. Tetrameric antibody complexes are more easily prepared than bispecific antibodies or bifunctional antibodies produced by transfection of myelomas with recombinant genes. They also have the advantage that the antigen-binding properties of the bivalent monoclonal antibodies are not compromised. Tetrameric antibody complexes thus represent a powerful new type of cross-linking reagent that may have a wide spectrum of applications in biology and medicine. View Publication

A cDNA clone encoding a novel hematopoietic growth factor activity produced by a gibbon T cell line has been identified using a mammalian cell expression cloning system. The sequence of this cDNA proved to have significant homology to the sequence encoding murine interleukin 3 (IL-3). The human gene,which was readily identified because of its high degree of homology to the gibbon sequence,also displayed significant homology with the murine IL-3 sequence. The recombinant gibbon IL-3 protein proved to have multipotent colony stimulating activity when tested with normal human bone marrow cells,proving that this primate hematopoietin is not only structurally but also functionally related to murine IL-3. View Publication

In dissociated-cell cultures prepared from the embryonic rat hippocampus,neurons establish both axons and dendrites,which differ in geometry,in ultrastructure,and in synaptic polarity. We have used immunocytochemistry with monoclonal antibodies to study the regional distribution of beta-tubulin and micro-tubule-associated protein 2 (MAP2) in hippocampal cultures and their localization during early stages of axonal and dendritic development. After development for a week or more in culture,when axons and dendrites were well-differentiated,the distribution of these two proteins was quite different. Beta-tubulin was present throughout the nerve cell,in soma,dendrites,and axon. It was also present in all classes of non-neuronal cells,astrocytes,fibroblasts,and a presumptive glial progenitor cell. In contrast,MAP2 was preferentially localized to nerve cells; within neurons,MAP2 was present in soma and dendrites,but little or no immunostaining was detectable in axons. Both beta-tubulin and MAP2 were present in nerve cells at the time of plating. From the earliest stages of process extension,beta-tubulin was present in all neuronal processes,both axons and dendrites. Surprisingly,MAP2 was also initially present in both axons and dendrites,extending as far as the axonal growth cone. With subsequent development,MAP2 staining was selectively lost from the axon so that after 1 week in vitro little or no axonal staining remained. Taken together with earlier results (Cáceres et al.,1984a),these data indicate that the establishment of neuronal polarity,as manifested by the molecular differentiation of the axonal and dendritic cytoskeleton,occurs largely under endogenous control,even under culture conditions in which cell interactions are greatly restricted.(ABSTRACT TRUNCATED AT 250 WORDS) View Publication

Mononuclear cells separated from the blood in fourteen cases of infectious mononucleosis at various intervals from the onset were tested for the presence of surface immunoglobulin and for ability to form spontaneous rosettes with washed sheep red blood cells. The mononucleosis during the acute phase of the illness consisted largely of a T lymphocytosis. The absolute count of T lymphocytes returned to the normal range approximately 2 months after the onset of the illness. B cells (bearing surface immunoglobulin) were only slightly increased in the acute phase. In four cases appreciable numbers of fluorescent rosetting cells were also present,and investigation suggested that these were T cells coated with anti-T-cell autoantibody. During the first 2 weeks of the illness responsiveness to phytohaemagglutinin was severely depressed,but thereafter returned towards normal. It is thought likely that in infectious mononucleosis the vast majority of atypical mononuclear cells are T cells proliferating in response to E-B virus-infected B cells,and cytotoxic towards them. View Publication

We cultured sensory neurons from chick embryos in media containing the alkaloid taxol at concentrations from 7 X 10(-9) to 3.5 X 10(-6) M. When plated at taxol concentrations above 7 X 10(-8) M for 24 h,neurons have short broad extensions that do not elongate on the culture substratum. When actively growing neurites are exposed to these levels of taxol,neurite growth stops immediately and does not recommence. The broad processes of neurons cultured 24 h with taxol contain densely packed arrays of microtubules that loop back at the ends of the process. Neurofilaments are segregated from microtubules into bundles and tangled masses in these taxol-treated neurons. At the ends of neurites treated for 5 min with taxol,microtubules also turn and loop back abnormally toward the perikaryon. In the presence of 7 X 10(-9) M taxol neurites do grow,although they are broader and less branched than normally. The neurites of these cells appear to have normal structure except for a large number of microtubules. Taxol probably stimulates microtubule polymerization in these cultured neurons. At high levels of the drug,this action inhibits neurite initiation and outgrowth by removing free tubulin from the cytoplasm and destroying the normal control of microtubule assembly in growing neurites. The rapid inhibition suggests that microtubule assembly may occur at neurite tips. At lower concentrations,taxol may slightly enhance the mechanisms of microtubule assembly in neurons,and this alteration of normal processes changes the morphogenetic properties of the growing neurites. View Publication

Central stimulant actions of 10 methylxanthines in mice correlate with affinities for adenosine receptors labeled with N6-[3H]cyclohexyladenosine. Affinities of methylxanthines for adenosine receptors are consonant with central levels attained at behaviorally effective doses. The much higher concentrations of methylxanthines required to influence benzodiazepine receptor binding do not correlate with behavioral potency. N6-(L-Phenylisopropyl)adenosine (L-PIA),a metabolically stable analog of adenosine with high affinity for adenosine receptors,is an extremely potent behavioral depressant,reducing locomotor activity of mice at doses as little as 0.05 mumol/kg. The D isomer,which has much less affinity for adenosine receptors,is much less active as a central depressant. Theophylline stimulates locomotor activity and reverses depressant effects of L-PIA. Caffeine or 1,7-dimethylxanthine,when administered alone,elicits biphasic effects,with locomotor depression at lower doses and stimulation at higher doses. When administered with L-PIA,even low doses of caffeine produce marked stimulation. 3-Isobutyl-1-methylxanthine given alone elicits only behavioral depression. However,like theophylline and caffeine,isobutylmethylxanthine reverses the L-PIA-evoked depression,converting it into pronounced locomotor stimulation. The data strongly suggest that the behavioral stimulant effects of methylxanthines involve a blockade of central adenosine receptors. View Publication

A hybrid cell line resulting from the fusion of a Con A-activated normal mouse spleen cell and a transformed mouse T cell (EL-4BU) has been used to prepare and select rat monoclonal antibodies reactive with molecules expressed on the surface of proliferating,as opposed to resting,mouse T cells. In this report,the characterization of two such antigens identified in this way is described. One antigen is a membrane component common to mitogen-activated T and B cells,some bone marrow cells,and various transformed cell lines but is not detectable on either normal thymocytes or the majority of spleen cells by radioimmunoassay or FACS analysis. It has a m.w. of approximately 200,000 daltons under nonreducing conditions and 100,000 daltons under reducing conditions. Antibodies to this antigen precipitate cell-bound transferrin but do not react directly with transferrin itself. It would thus appear that the antigen is the transferrin receptor molecule. The second antigen is not detectable on normal thymocytes,spleen cells,bone marrow cells,or mitogen-stimulated spleen cells but is expressed at high levels on some transformed T cell lines. It,too,appears to be a dimer,with a m.w. of 95,000 daltons under nonreducing conditions,decreasing to 50,000 daltons under reducing conditions. Although the function of the 95,000-dalton antigen is not yet known,its lack of expression on adult T cell populations both before and after activation suggests either a short-lived role at a very early stage of T cell development and/or an association with T cell transformation. View Publication