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891.
892.
Mesenchymal stromal cells (MSC) are an attractive cell-targeting vehicle for gene delivery. MIDGE (an acronym for Minimalistic, Immunologically Defined Gene Expression) construct is relatively safer than the viral or plasmid expression system as the detrimental eukaryotic and prokaryotic gene and sequences have been eliminated. The objective of this study was to test the ability of the human MSC (hMSC) to deliver the erythropoietin (EPO) gene in a nude mice model following nucleofection using a MIDGE construct. hMSC nucleofected with MIDGE encoding the EPO gene was injected subcutaneously in Matrigel at the dorsal flank of nude mice. Subcutaneous implantation of nucleofected hMSC resulted in increased hemoglobin level with presence of human EPO in the peripheral blood of the injected nude mice in the first two weeks post-implantation compared with the control groups. The basal layer of the hair shaft in the dermal layer was found to be significantly positive for immunohistochemical staining of a human EPO antibody. However, only a few basal layers of the hair shaft were found to be positively stained for CD105. In conclusion, hMSC harboring MIDGE-EPO could deliver and transiently express the EPO gene in the nude mice model. These cells could be localized to the hair follicle and secreted EPO protein might have possible role in hair regeneration. 相似文献
893.
Guo W Keckesova Z Donaher JL Shibue T Tischler V Reinhardt F Itzkovitz S Noske A Zürrer-Härdi U Bell G Tam WL Mani SA van Oudenaarden A Weinberg RA 《Cell》2012,148(5):1015-1028
894.
895.
Sullivan RP Leong JW Schneider SE Keppel CR Germino E French AR Fehniger TA 《Journal of immunology (Baltimore, Md. : 1950)》2012,188(7):3019-3030
NK cells are innate immune lymphocytes important for early host defense against infectious pathogens and malignant transformation. MicroRNAs (miRNAs) are small RNA molecules that regulate a wide variety of cellular processes, typically by specific complementary targeting of the 3'UTR of mRNAs. The Dicer1 gene encodes a conserved enzyme essential for miRNA processing, and Dicer1 deficiency leads to a global defect in miRNA biogenesis. In this study, we report a mouse model of lymphocyte-restricted Dicer1 disruption to evaluate the role of Dicer1-dependent miRNAs in the development and function of NK cells. As expected, Dicer1-deficient NK cells had decreased total miRNA content. Furthermore, miRNA-deficient NK cells exhibited reduced survival and impaired maturation defined by cell surface phenotypic markers. However, Dicer1-deficient NK cells exhibited enhanced degranulation and IFN-γ production in vitro in response to cytokines, tumor target cells, and activating NK cell receptor ligation. Moreover, a similar phenotype of increased IFN-γ was evident during acute MCMV infection in vivo. miRs-15a/15b/16 were identified as abundant miRNAs in NK cells that directly target the murine IFN-γ 3'UTR, thereby providing a potential mechanism for enhanced IFN-γ production. These data suggest that the function of miRNAs in NK cell biology is complex, with an important role in NK cell development, survival, or homeostasis, while tempering peripheral NK cell activation. Further study of individual miRNAs in an NK cell specific fashion will provide insight into these complex miRNA regulatory effects in NK cell biology. 相似文献
896.
Yizhou Zhou Daniel Smith Bryan J. Leong Kristoffer Br?nnstr?m Fredrik Almqvist Matthew R. Chapman 《The Journal of biological chemistry》2012,287(42):35092-35103
Amyloids are highly aggregated proteinaceous fibers historically associated with neurodegenerative conditions including Alzheimers, Parkinsons, and prion-based encephalopathies. Polymerization of amyloidogenic proteins into ordered fibers can be accelerated by preformed amyloid aggregates derived from the same protein in a process called seeding. Seeding of disease-associated amyloids and prions is highly specific and cross-seeding is usually limited or prevented. Here we describe the first study on the cross-seeding potential of bacterial functional amyloids. Curli are produced on the surface of many Gram-negative bacteria where they facilitate surface attachment and biofilm development. Curli fibers are composed of the major subunit CsgA and the nucleator CsgB, which templates CsgA into fibers. Our results showed that curli subunit homologs from Escherichia coli, Salmonella typhimurium LT2, and Citrobacter koseri were able to cross-seed in vitro. The polymerization of Escherichia coli CsgA was also accelerated by fibers derived from a distant homolog in Shewanella oneidensis that shares less than 30% identity in primary sequence. Cross-seeding of curli proteins was also observed in mixed colony biofilms with E. coli and S. typhimurium. CsgA was secreted from E. coli csgB− mutants assembled into fibers on adjacent S. typhimurium that presented CsgB on its surfaces. Similarly, CsgA was secreted by S. typhimurium csgB− mutants formed curli on CsgB-presenting E. coli. This interspecies curli assembly enhanced bacterial attachment to agar surfaces and supported pellicle biofilm formation. Collectively, this work suggests that the seeding specificity among curli homologs is relaxed and that heterogeneous curli fibers can facilitate multispecies biofilm development. 相似文献
897.
Sun F Suen PK Zhang Y Liang C Carrie C Whelan J Ward JL Hawkins ND Jiang L Lim BL 《The New phytologist》2012,194(1):206-219
? Overexpression of AtPAP2, a purple acid phosphatase (PAP) with a unique C-terminal hydrophobic motif in Arabidopsis, resulted in earlier bolting and a higher seed yield. Metabolite analysis showed that the shoots of AtPAP2 overexpression lines contained higher levels of sugars and tricarboxylic acid (TCA) metabolites. Enzyme assays showed that sucrose phosphate synthase (SPS) activity was significantly upregulated in the overexpression lines. The higher SPS activity arose from a higher level of SPS protein, and was independent of SnRK1. ? AtPAP2 was found to be targeted to both plastids and mitochondria via its C-terminal hydrophobic motif. Ectopic expression of a truncated AtPAP2 without this C-terminal motif in Arabidopsis indicated that the subcellular localization of AtPAP2 is essential for its biological actions. ? Plant PAPs are generally considered to mediate phosphorus acquisition and redistribution. AtPAP2 is the first PAP shown to modulate carbon metabolism and the first shown to be dual-targeted to both plastids and mitochondria by a C-terminal targeting signal. ? One PAP-like sequence carrying a hydrophobic C-terminal motif could be identified in the genome of the smallest free-living photosynthetic eukaryote, Ostreococcus tauri. This might reflect a common ancestral function of AtPAP2-like sequences in the regulation of carbon metabolism. 相似文献
898.
Blooms of the raphidophyte Chattonella subsalsa have been associated with massive fish‐kill events in several parts of the world. However, there have been few studies into physiological responses of tropical strains that could contribute to bloom outcomes. Such knowledge could provide insight into the C. subsalsa blooms recently documented within tropical coastal waters (e.g., 2010 and 2012 events in Singapore). Strains used in this study were isolated from the East Johor Straits (EJS), Singapore, an enclosed water channel frequently subjected to high levels of eutrophication. These cells were classified within the ‘global’ clade (and distinct from the ‘Adriatic Sea’ clade) based on morphology. The present study examined cellular responses to varying inputs of different forms of nitrogen (N), specifically nitrate, ammonium, and urea. Results from the study indicated that cells were unable to utilize urea as an N‐source, but grew well on a nitrate (Vmax = 0.73 day?1) and ammonium (Vmax = 0.81 day?1) supply. These growth rates were high compared to other strains from around the world, indicating that tropical C. subsalsa could exhibit elevated bloom potential within frequently eutrophic environments such as the EJS. Six pigments were detected in all cultures. These pigments were chlorophylls a and c; fucoxanthin; diadinoxanthin; violaxanthin; and β‐carotene. Chlorophyll‐a and fucoxanthin were the dominant pigments under both nitrate and ammonium regimes. Measurements of chromophoric dissolved organic matter generally increased both in molecular weight and in total content across the N‐concentration ranges. Such outcomes could have consequences for the chemical and optical conditions of the coastal environment. 相似文献
899.
Ninticha Thavoncharoensub Kento Maruyama Choon Han Heh Kok Hoong Leong Hui Shi Yoshiharu Shigematsu 《Nucleosides, nucleotides & nucleic acids》2019,38(8):578-589
8-OxodGTP is generated by the reaction between dGTP and reactive oxygen species and a considered mutagenic nucleotide. It can be incorporated into the duplex DNA during replication processes by the DNA polymerase, and thus the repair enzyme removes oxodGTP from the nucleotide pools in living cells. On the other hand, the γ-modified triphosphates show interesting properties for use as biological tools. Therefore, the γ-N-pyrenylalkyl-oxodGTP derivatives were synthesized and their effect on the enzymatic reactions were evaluated. The γ-N-pyrenylmethyl-oxodGTP was found to be accepted by the DNA polymerase just like oxodGTP, but showed a competitive inhibition property for the human oxodGTPase. 相似文献
900.
Human mesenchymal stem cells (hMSCs) have been shown to trans-differentiate into neuronal-like cells by culture in neuronal induction media, although the mechanism is not well understood. Topography can also influence cellular responses including enhanced differentiation of progenitor cells. As extracellular matrix (ECM) in vivo comprises topography in the nanoscale, we hypothesize that nanotopography could influence stem cell differentiation into specific non-default pathways, such as transdifferentiation of hMSCs. Differentiation and proliferation of hMSCs were studied on nanogratings of 350 nm width. Cytoskeleton and nuclei of hMSCs were aligned and elongated along the nanogratings. Gene profiling and immunostaining showed significant up-regulation of neuronal markers such as microtubule-associated protein 2 (MAP2) compared to unpatterned and micropatterned controls. The combination of nanotopography and biochemical cues such as retinoic acid further enhanced the up-regulation of neuronal marker expressions, but nanotopography showed a stronger effect compared to retinoic acid alone on unpatterned surface. This study demonstrated the significance of nanotopography in directing differentiation of adult stem cells. 相似文献