Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Easy accessibility makes the skin extremely attractive for therapeutic gene transfer, but this feature may be equally responsible for inadvertent DNA uptake. Therefore we studied lacZ reporter gene expression after epicutaneous and intracutaneous administration of naked DNA, lipofection and transferrinfection to intact, tape-stripped, and wound-healing skin of hairless mice. Gold particles coated with 1 microg pCMVnlslacZ were inoculated with a gene gun as a positive control. Beta-galactosidase expression by skin cells, i.e., keratinocytes of the upper epithelial layers and single cells in the upper dermis, determined by X-Gal histochemistry was not observed except after ballistic gene transfer. By polymerase chain reaction we detected lacZ DNA after skin bombardment up to 4 weeks. After intracutaneous and epicutaneous application to normal and tape-stripped skin of the various delivery systems lacZ DNA was detectable up to 1 week. Epicutaneous application of the delivery systems to wounded skin resulted in lacZ DNA detectability up to 48 h only. Reverse-transcriptase polymerase chain reaction indicated transcription of the reporter gene after particle bombardment and intracutaneous injection, up to 48 h, but not after epicutaneous application of either delivery system. The possibility of inadvertent uptake of exogeneous DNA by intact and tape-stripped skin is evidenced by the detection of reporter gene DNA after epicutaneous application of naked DNA and DNA complexed to cationic lipids or transferrin-polylysine (transferrinfection). However, the effects of the presence and persistence of foreign genes in the target cells are not clear yet.
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PMID:Uptake of exogenous DNA via the skin. 1060 10

Cerebral amyloid angiopathy (CAA) caused by amyloid beta (Abeta) deposition around brain microvessels results in vascular degenerative changes. Antiangiogenic Abeta properties are known to contribute to the compromised cerebrovascular architecture. Here we hypothesize that Abeta peptides impair angiogenesis by causing endothelial cells to enter senescence at an early stage of vascular development. Wild-type (WT) Abeta and its mutated variant E22Q peptide, endowed with marked vascular tropism, were used in this study. In vivo, in zebrafish embryos, the WT or E22Q peptides reduced embryo survival with an IC(50) of 6.1 and 4.7 microM, respectively. The 2.5 microM concentration, showing minimal toxicity, was chosen. Alkaline phosphatase staining revealed disorganized vessel patterning, narrowing, and reduced branching of vessels. Beta-galactosidase staining and the cyclin-dependent kinase inhibitor p21 expression, indicative of senescence, were increased. In vitro, WT and E22Q reduced endothelial cell survival with an IC(50) of 12.3 and 8.8 microM, respectively. The 5 microM concentration, devoid of acute effects on the endothelium, was applied chronically to long-term cultured human umbilical vein endothelial cells (HUVECs). We observed reduced cumulative population doubling, which coincided with beta-galactosidase accumulation, down-regulation of telomerase reverse-transcriptase mRNA expression, decreased telomerase activity, and p21 activation. Senescent HUVECs showed marked angiogenesis impairment, as Abeta treatment reduced tube sprouting. The endothelial injuries caused by the E22Q peptide were much more aggressive than those induced by the WT peptide. Premature Abeta-induced senescence of the endothelium, producing progressive alterations of microvessel morphology and functions, may represent one of the underlying mechanisms for sporadic or heritable CAA.
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PMID:Abeta peptides accelerate the senescence of endothelial cells in vitro and in vivo, impairing angiogenesis. 2020 41