Glutathione -responsive

Wang J, Zheng Z, Chen L, Tu X, Wang X. Glutathione-responsive biodegradable poly(urea-urethane)s containing L-cystine-based chain extender. J Biomater Sci Polym Ed 2013 24(7) 831 8. 

Figure 42.7 Depiction of the performance of glutathione, disulfide bonds are reduced to a glutathione-responsive drug delivery system thiol groups, which causes the uncapping of consisting of MSNPs capped with PEG through pores and triggers payload release [131], disulfide bonds. In the presence of...

The key to hexavalent chromium s mutagenicity and possible carcinogenicity is the abiHty of this oxidation state to penetrate the cell membrane. The Cr(VI) Species promotes DNA strand breaks and initiates DNA—DNA and DNA-protein cross-links both in cell cultures and in vivo (105,112,128—130). The mechanism of this genotoxic interaction may be the intercellular reduction of Cr(VI) in close proximity to the nuclear membrane. When in vitro reductions of hexavalent chromium are performed by glutathione, the formation of Cr(V) and glutathione thiyl radicals are observed, and these are beHeved to be responsible for the formation of the DNA cross-links (112). 

Apart from monooxygenases, other enzymes concerned wih xenobiotic metabolism may also be induced. Some examples are given in Table 2.5. Induction of glucuronyl transferases is a common response and is associated with phenobarbital-type induction of CYP family 2. Glutathione transferase induction is also associated with this. A variety of compounds, including epoxides such as stilbene oxide and... 

Although it is widely accepted that ischaemia/ reperfusion-induced oxidant stress is associated with a reduction of Na/K ATPase activity, it is difficult to determine which features of this process are responsible for this effect. A classical approach to this type of problem has been to determine the effect of the application of selected metabolites or agents on the activity of the enzyme of interest, an approach that has been exploited for the sarcolemmal Na/K ATPase and glutathione (Haddock et al., 1990). The application of GSH (O.l-l.OmM) induces a concentration-dependent increase in the activity of a bovine isolated ventricular Na/K ATPase preparation (determined by the ouabain-sensitive hydrolysis of ATP to release inorganic phosphate). In the presence of 1 mM GSH there was a 38% stimulation of activity compared to untreated control... 

If cellular redox state, determined by the glutathione status of the heart, plays a role in the modulation of ion transporter activity in cardiac tissue, it is important to identify possible mechanisms by which these effects are mediated. Protein S-,thiolation is a process that was originally used to describe the formation of adducts of proteins with low molecular thiols such as glutathione (Miller etal., 1990). In view of the significant alterations of cardiac glutathione status (GSH and GSSG) and ion-transporter activity during oxidant stress, the process of S-thiolation may be responsible for modifications of protein structure and function. 

Higuchi, M., Cartier, L.J., Chen, M. and HoUoszy, J.O. (1985). Superoxide dismutase and catalase in skeletal muscle adaptive response to exercise. J. Gerontol. 40, 281-286. Hunter, M.I.S., Brzeski, M.S. and de Vane, P.J. (1981). Superoxide dismutase, glutathione peroxidase and thiobarbi-turic acid-reactive compounds in erythrocytes in Duchenne muscular dystrophy. Clin. Chim. Acta 115, 93-98. 

Smith, L.J., Houston, M. and Anderson, J. (1993). Increased levels of glutathione in bronchoalveolar lavage fluid from patients with asthma. Am. Rev. Resp. Dis. 147, 1461-1464. Smith, L.L. (1986). The response of the lung to foreign compounds that produce free radicals. Ann. Rev. Physiol. 48, 681-692. 

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