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Sense Oligonucleotides (sense + oligonucleotide)
Selected AbstractsInhibition of Proinflammatory Cytokine Expression by NF-,B (p65) Antisense Oligonucleotide in Helicobacter pylori -Infected MiceHELICOBACTER, Issue 6 2005Sang Gyun Kim ABSTRACT Background.,Helicobacter pylori induces the expression of proinflammatory cytokines in vitro by activating nuclear factor-,B, a transcriptional regulator. However, it has not been clarified whether H. pylori -induced proinflammatory cytokines are also mediated through nuclear factor-,B in vivo. The aim of this study was to evaluate the role of nuclear factor-,B on the expressions of proinflammatory cytokines in H. pylori -infected mice. Materials and Methods., We evaluated nuclear factor-,B (p65) activation in the H. pylori -infected gastric mucosa of mice by immunofluorescent staining using antip65 polyclonal antibody, and the expressions of proinflammatory cytokines with inhibition of nuclear factor-,B pathway by using phosphorothioate antisense and sense oligonucleotide against the nuclear factor-,B (p65). Results., In the H. pylori -infected gastric mucosa of mice, immunofluorescent staining using antip65 polyclonal antibody showed nuclear factor-,B (p65) activation, which was particularly localized to epithelial cells. Tumor necrosis factor-, and interleukin-1, concentrations in gastric mucosa by enzyme-linked immunosorbent assay (ELISA) were elevated in the infected group versus the uninfected group. Pretreatment with nuclear factor-,B (p65) antisense oligonucleotide inhibited the activation of nuclear factor-,B and the expressions of tumor necrosis factor-, and interleukin-1, in H. pylori -infected gastric mucosa. Sense oligonucleotide did not influence on the expression of proinflammatory cytokines. Conclusions.,H. pylori infection was found to activate the expressions of proinflammatory cytokines via nuclear factor-,B in vivo, and this may play an important role in the initiation of H. pylori- induced gastric inflammation. [source] Inhibition of brain-derived neurotrophic factor and glial cell line-derived neurotrophic factor expression reduces dopaminergic sprouting in the injured striatumEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2000P. E. Batchelor Abstract After striatal injury, sprouting dopaminergic fibres grow towards and intimately surround wound macrophages which, together with microglia, express the dopaminergic neurotrophic factors glial cell line-derived neurotrophic factor (GDNF) and brain derived neurotrophic factor (BDNF). To evaluate the importance of these endogenously secreted neurotrophic factors in generating striatal peri-wound dopaminergic sprouting, the peri-wound expression of BDNF or GDNF was inhibited by intrastriatal infusion of antisense oligonucleotides for 2 weeks in mice. Knock-down of both BDNF and GDNF mRNA and protein levels in the wounded striatum were confirmed by in situ hybridization and enzyme-linked immunosorbent assay, respectively. Dopamine transporter immunohisto-chemistry revealed that inhibition of either BDNF or GDNF expression resulted in a marked decrease in the intensity of peri-wound sprouting. Quantification of this effect using [H3]-mazindol autoradiography confirmed that peri-wound sprouting was significantly reduced in mice receiving BDNF or GDNF antisense infusions whilst control infusions of buffered saline or sense oligonucleotides resulted in the pronounced peri-wound sprouting response normally associated with striatal injury. BDNF and GDNF thus appear to be important neurotrophic factors inducing dopaminergic sprouting after striatal injury. [source] Different roles of proteolipids and 70-kDa subunits of V-ATPase in growth and death of cultured human cellsGENES TO CELLS, Issue 6 2003Hong Zhan Background: The vacuolar-type proton-translocating adenosine triphosphatase (V-ATPase) plays important roles in cell growth and tumour progression. V-ATPase is composed of two distinct structures, a hydrophilic catalytic cytosolic sector (V1) and a hydrophobic transmembrane sector (V0). The V1 sector is composed of 5,8 different subunits with the structure A3B3C1D1E1F1G1H1. The V0 sector is composed of 5 different subunits with the structure 1161381191166. The over-expression of 16-kDa proteolipid subunit of V-ATPase in the perinuclear region of the human adventitial fibroblasts promotes phenotypic modulation that contributes to neointimal formation and medial thickening. A relationship between oncogenicity and the expression of the 16-kDa proteolipid has also been suggested in human pancreatic carcinoma tissue. Results: We found that the mRNA levels of the 16-kDa proteolipid but not of the 70-kDa subunit of V-ATPase in human myofibroblasts were more abundant in serum-containing medium (MF(+) cells) than serum-free medium (MF(,) cells). In HeLa cells, the levels of mRNA and protein of the 16-kDa, 21-kDa or 70-kDa were clearly suppressed when the corresponding anti-sense oligonucleotides were administered to the culture medium. The growth rate and viability (mostly due to necrosis) of HeLa cells were reduced markedly by the 16-kDa and 21-kDa anti-sense, but little by the 70-kDa anti-sense, and not at all by any sense oligonucleotides. The localization of 16-kDa/21-kDa proteolipid subunits was different from that of the 70-kDa subunit in HeLa cells. Conclusion: These results suggest that the 16-kDa and 21-kDa proteolipid subunits of the V0 sector play crucial roles in growth and death of cultured human cells. Our results may provide new insights into the mechanism and therapeutic implications for vessel wall hyperplasia and tumorigenesis. [source] | ||||||||||