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51.
Neural stem cells (NSCs) are capable of self-renewal and differentiation into neurons, astrocytes and oligodendrocytes under specific local microenvironments. In here, we present a set of methods used for three dimensional (3D) differentiation and miRNA analysis of a clonal human neural stem cell (hNSC) line, currently in clinical trials for stroke disability ( and NCT01151124, Clinicaltrials.gov). HNSCs were derived from an ethical approved first trimester human fetal cortex and conditionally immortalized using retroviral integration of a single copy of the c-mycERTAMconstruct. We describe how to measure axon process outgrowth of hNSCs differentiated on 3D scaffolds and how to quantify associated changes in miRNA expression using PCR array. Furthermore we exemplify computational analysis with the aim of selecting miRNA putative targets. SOX5 and NR4A3 were identified as suitable miRNA putative target of selected significantly down-regulated miRNAs in differentiated hNSC. MiRNA target validation was performed on SOX5 and NR4A3 3’UTRs by dual reporter plasmid transfection and dual luciferase assay. NCT02117635相似文献
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Roza K. Sypniewska Nancy J. Millenbaugh Johnathan L. Kiel Robert V. Blystone Heather N. Ringham Patrick A. Mason Frank A. Witzmann 《Bioelectromagnetics》2010,31(8):656-663
A macrophage assay and proteomic screening were used to investigate the biological activity of soluble factors in the plasma of millimeter wave‐exposed rats. NR8383 rat macrophages were incubated for 24 h with 10% plasma from male Sprague–Dawley rats that had been exposed to sham conditions, or exposed to 42 °C environmental heat or 35 GHz millimeter waves at 75 mW/cm2 until core temperature reached 41.0 °C. Two‐dimensional polyacrylamide gel electrophoresis, image analysis, and Western blotting were used to analyze approximately 600 protein spots in the cell lysates for changes in protein abundance and levels of 3‐nitrotyrosine, a marker of macrophage stimulation. Proteins of interest were identified using peptide mass fingerprinting. Compared to plasma from sham‐exposed rats, plasma from environmental heat‐ or millimeter wave‐exposed rats increased the expression of 11 proteins, and levels of 3‐nitrotyrosine in seven proteins, in the NR8383 cells. These altered proteins are associated with inflammation, oxidative stress, and energy metabolism. Findings of this study indicate both environmental heat and 35 GHz millimeter wave exposure elicit the release of macrophage‐activating mediators into the plasma of rats. Bioelectromagnetics 31:656–663, 2010. © 2010 Wiley‐Liss, Inc. 相似文献
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TcrX/Y is one of the twelve two component system (TCS) present in Mycobacterium tuberculosis. We have investigated the TcrX/Y interaction by in silico studies, pull down assay, radioactive phosphotransfer, surface plasmon resonance as well as crosstalk analysis of TcrY with TcrA – a non-cognate response regulator. Sequence alignment of TcrY with other histidine kinases revealed His256 as the residue responsible for autophosphorylation. The modeled structure of TcrX/Y was docked with each other by GRAMM-X revealing the interaction of TcrY/His256 with TcrX/Asp54. TcrY dimerization via the formation of four helix bundle was also observed by protein–protein docking. Autophosphorylation of TcrY has been observed followed by the phosphate transfer from TcrY to TcrX. The phosphorylation process required divalent metal ions like Mg2+ or Ca2+ ions as evident from the radioactive phosphorylation studies. Interaction was not observed between TcrY and TcrA suggesting the signal transduction process is specific in TcrX/Y system. TcrY hydrolyzes ATP and the Km value has been found to be 10 mM which is comparable to that of Hsp104. TcrX/Y interaction has been determined by surface plasmon resonance and dissociation constant (KD) was evaluated to be 3.6 μM. We conclude from our results that TcrX and TcrY are part of the same signal transduction pathway without their involvement in crosstalk with non-cognate counterpart. 相似文献
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Susan R. McGlashan Martin M. Knight Tina T. Chowdhury Purva Joshi Cynthia G. Jensen Sarah Kennedy Charles A. Poole 《Cell biology international》2010,34(5):441-446
The pathways by which chondrocytes of articular cartilage sense their mechanical environment are unclear. Compelling structural evidence suggests that chondrocyte primary cilia are mechanosensory organelles. This study used a 3D agarose culture model to examine the effect of compressive strain on chondrocyte cilia. Chondrocyte/agarose constructs were subjected to cyclic compression (0–15%; 1 Hz) for 0.5–48 h. Additional constructs were compressed for 48 h and allowed to recover for 72 h in uncompressed free‐swelling conditions. Incidence and length of cilia labelled with anti‐acetylated α‐tubulin were examined using confocal microscopy. In free‐swelling chondrocytes, these parameters increased progressively, but showed a significant decrease following 24 or 48 h compression. A 72 h recovery partially reversed this effect. The reduced cilia incidence and length were not due to increased cell division. We therefore propose that control of primary cilia length is an adaptive signalling mechanism in response to varying levels and duration of mechanical loads during joint activity. 相似文献
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Gourlay LJ Sommaruga S Nardini M Sperandeo P Dehò G Polissi A Bolognesi M 《Protein science : a publication of the Protein Society》2010,19(12):2430-2439
Lipopolysaccharide (LPS) biosynthesis represents an underexploited target pathway for novel antimicrobial development to combat the emergence of multidrug‐resistant bacteria. A key player in LPS synthesis is the enzyme D ‐arabinose‐5‐phosphate isomerase (API), which catalyzes the reversible isomerization of D ‐ribulose‐5‐phosphate to D ‐arabinose‐5‐phosphate, a precursor of 3‐deoxy‐D ‐manno‐octulosonate that is an essential residue of the LPS inner core. API is composed of two main domains: an N‐terminal sugar isomerase domain (SIS) and a pair of cystathionine‐β‐synthase domains of unknown function. As the three‐dimensional structure of an enzyme is a prerequisite for the rational development of novel inhibitors, we present here the crystal structure of the SIS domain of a catalytic mutant (K59A) of E. coli D ‐arabinose‐5‐phosphate isomerase at 2.6‐Å resolution. Our structural analyses and comparisons made with other SIS domains highlight several potentially important active site residues. In particular, the crystal structure allowed us to identify a previously unpredicted His residue (H88) located at the mouth of the active site cavity as a possible catalytic residue. On the basis of such structural data, subsequently supported by biochemical and mutational experiments, we confirm the catalytic role of H88, which appears to be a generally conserved residue among two‐domain isomerases. 相似文献
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Zhou J Zhang Y Wen X Cao J Li D Lin Q Wang H Liu Z Duan C Wu K Wang C 《Journal of cellular and molecular medicine》2010,14(11):2641-2645
Recently, the presence of telocytes was demonstrated in human and mammalian tissues and organs (digestive and extra-digestive organs, genitourinary organs, heart, placenta, lungs, pleura, striated muscle). Noteworthy, telocytes seem to play a significant role in the normal function and regeneration of myocardium. By cultures of telocytes in two- and three-dimensional environment we aimed to study the typical morphological features as well as functionality of telocytes, which will provide important support to understand their in vivo roles. Neonatal rat cardiomyocytes were isolated and cultured as seeding cells in vitro in two-dimensional environment. Furthermore, engineered myocardium tissue was constructed from isolated cells in three-dimensional collagen/Matrigel scaffolds. The identification of telocytes was performed by using histological and immunohistochemical methods. The results showed that typical telocytes are distributed among cardiomyocytes, connecting them by long telopodes. Telocytes have a typical fusiform cell body with two or three long moniliform telopodes, as main characteristics. The vital methylene blue staining showed the existence of telocytes in primary culture. Immunohistochemistry demonstrated that some c-kit or CD34 immuno-positive cells in engineered heart tissue had the morphology of telocytes, with a typical fusiform cell body and long moniliform telopodes. Also, a significant number of vimentin+ telocytes were present within engineered heart tissue. We suggest that the model of three-dimensional engineered heart tissue could be useful for the ongoing research on the functional relationships of telocytes with cardiomyocytes. Because the heart has the necessary potential of changing the muscle and non-muscle cells during the lifetime, telocytes might play an active role in the heart regeneration process. Moreover, telocytes might be a useful tool for cardiac tissue engineering. 相似文献