Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenovirus is endocytosed and efficiently destroyed by human and murine alveolar macrophages (AMs) and rapidly cleared from the lungs of wild-type but not GM-CSF(-/-) mice. We hypothesized that GM-CSF may regulate adenovirus clearance in AMs via the transcription factor PU.1 by redirecting virion trafficking from the nucleus to lysosomes. This hypothesis was tested in murine AM cell lines with altered GM-CSF and/or PU.1 expression including MH-S (GM-CSF(+/+)PU.1(Pos)), mAM (GM-CSF(-/-)/PU.1(Neg)), and mAM(PU.1+) (GM-CSF(-/-)/PU.1(Pos); PU.1-transduced mAM cells) and A549 (an epithelial-like cell line) using a human adenovirus expressing a beta-galactosidase reporter. In PU.1(Neg) mAM and A549 cells, adenovirus efficiently escaped from endosomes, translocated to the nucleus, and expressed the viral reporter in most cells. In marked contrast, in PU.1(Pos) mAM(PU.1+) and MH-S cells, adenovirus failed to escape from endosomes, colocalized exclusively with endosome/lysosome markers (Rab5, Rab7, and Lamp1), and rarely expressed the reporter. Retroviral expression of PU.1 in A549 cells blocked endosomal escape, nuclear translocation and reporter expression. Inhibition of endosome acidification also blocked escape, nuclear translocation, and reporter expression in PU.1(Neg) cells. The effect of PU.1 on viral trafficking and transduction could not be explained by an effect on endosome acidification or on differences in viral load. PU.1 reduced expression of integrin beta(5), a host factor important for endosomal escape of adenovirus, suggesting that PU.1 redirects adenoviral trafficking by modulating integrin signaling. These results demonstrate that PU.1 uncouples infection from internalization in AMs, providing a mechanism for AMs to avoid infection by adenovirus during clearance.
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PMID:PU.1 redirects adenovirus to lysosomes in alveolar macrophages, uncoupling internalization from infection. 1727 51

Gamma-irradiation is a usual method to inactivate whole-cellular anticancer vaccines consisting viable tumor cells. To evaluate the effect of gamma-irradiation to transgene expression in tumor cells we constructed several stably transfected clones of human and mouse cell lines expressing transgenic GM-CSF or GFP under control of IE-CMV promoter. Irradiation of those cells with different doses (ranged from 20 to 100 Gr) of gamma-radiation caused loss of proliferation capacity with survival of the cells population clearly depended on irradiation dose. Cell-cycle staining reveals accumulation of the cells with G2/M DNA content and almost loss of cells in S-phase. Substantial proportion of irradiated cells shows beta-galactosidase activity and morphological changes associated with cell senescence. An irradiated cell shows no changes in the level of mitochondrial dehydrogenase activity regardless irradiation dose exposed. Irradiated cells retain their ability to express transgene. Moreover, amount of the secreted GM-CSF as well as MFI in GFP-expressing cells significantly increases after gamma-irradiation up to 10 fold for cells exposed with 100 Gr. Enhancing of the transgene expression in both human and mouse cells positively correlates with total dose of gamma-irradiation gained by the cells and demonstrates gradual nature. Overall, our results supports using of 100 Gr of gamma-irradiation as the optimal dose for whole-cell anticancer vaccine inactivation.
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PMID:[High-dose gamma-irradiation enhance expression of transgene under control of immediate-early CMV promoter in stably transfected tumor cells]. 1870 9


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