Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary cultures of chick embryo neurons were exposed to sulphur mustard (HD) and L-nitroarginine methyl ester (L-NAME) and then incubated at either 25 or 37 degrees C. Lowering the temperature of the cultures decreased the 24-h toxicity of HD, but did not increase the efficacy of L-NAME protection. However, the length of time post-HD treatment in which L-NAME was maximally effective in protecting against HD toxicity was dramatically enhanced, out to 12 h after HD exposure. In addition, the persistence of L-NAME protection of the cells against HD was significantly lengthened. Tests conducted in human skin keratinocytes also showed that lowering the incubation temperature of actively proliferating, just-confluent or post-confluent cultures significantly and persistently decreased the cytotoxicity of HD. The persistence of L-NAME protection was increased in non-proliferating cells. Finally, cooling of HD-vapour exposed sites on hairless guinea pigs for 4.5 h decreased the severity of the resultant lesions out to 72 h post-exposure.
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PMID:Effect of lowered temperature on the toxicity of sulphur mustard in vitro and in vivo. 1041 86

The toxicity of sulphur mustard (HD) was characterized in first passage cultures of human neonatal foreskin keratinocytes and then several arginine analogues were investigated to ascertain their efficacies in protecting against HD toxicity in this system. d- and l-nitroarginine methyl ester (d/l-NAME), l-phosphoarginine, and l-nitroarginine were all found to confer concentration-related protective effects against HD in confluent cultures. l-NAME was used to further characterize this protection and was only effective in cultures that were not actively proliferating. This compound was also found to be efficacious when added to the cultures up to several hours after HD exposure, although its continued presence was required in order for protection to be effective. The protective effects of l-thiocitrulline (l-TC) against HD toxicity were also assessed. This arginine analogue was extremely potent in preventing HD toxicity in actively proliferating, just-confluent, and postconfluent cultures in a concentration-dependent fashion (0.1-15 mM), with little HD toxicity apparent at high l-TC concentrations. Protection was prophylactic in nature, with l-TC having almost maximal effect when added to the cultures only 1 min prior to HD culture exposure. Efficacy then declined rapidly so that no protection was evident when l-TC was added 30 min post-HD. The effects of this drug were persistent, with no decrease in protective efficacy up to 4 days after HD exposure, even when l-TC was removed from the cultures. l-TC did not protect against the antimitotic effects of HD; while l-TC-protected cells were subcultured successfully, they displayed no clonogenic activity. Although l-TC is closely related structurally to protective nitroarginine derivatives, the characteristics of l-TC protection against HD were markedly different and suggest that they exert their protective activities at different sites. Administration of l-NAME and l-TC by a variety of routes did not result in consistent protection against topical vapor challenges of HD in hairless guinea pigs. However, both compounds were effective in preventing the toxicity of HD in primary cultures of hairless guinea pig skin keratinocytes, indicating that species differences were not likely to be responsible for the poor efficacy of these compounds in vivo.
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PMID:Effects of selected arginine analogues on sulphur mustard toxicity in human and hairless guinea pig skin keratinocytes. 1066 7

VEGF is an endothelial cell cytokine that promotes angiogenesis and enhances microvascular permeability. Recently, it has been shown that the protein kinase Akt functions in a key intercellular signaling pathway downstream of VEGF. Here, we employed adenovirus-mediated gene transfer in conjunction with the Miles assay in hairless albino guinea pigs to assess the role of Akt signaling in vascular permeability. VEGF-induced vascular permeability was blocked by the transduction of a dominant negative mutant of Akt. Conversely, transduction of a constitutively active form of Akt promoted vascular permeability in a manner similar to VEGF protein administration. This Akt-mediated increase in vascular permeability was inhibited by the eNOS inhibitor L-NAME. These data show that Akt signaling is both necessary and sufficient for vascular permeability in an in vivo model.
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PMID:Akt signaling mediates VEGF/VPF vascular permeability in vivo. 1245 64