The potential of rational surface mutagenesis for enhanced protein crystallization is being probed in an ongoing effort. In previous work, it was hypothesized that residues with high conformational entropy such as Glu and Lys are suitable targets for surface mutagenesis, as they are rarely incorporated in crystal contacts or protein-protein interfaces. Previous experiments using Lys-->Ala, Glu-->Ala and Glu-->Asp mutants confirmed that mutated proteins were more likely to crystallize. In the present paper, the usefulness of Lys-->Arg mutations is studied. Several mutations of the globular domain of human RhoGDI were generated, including the single mutants K105R, K113R, K127R, K138R and K141R, the double mutants K(98,99)R and K(199,200)R and the triple mutants K(98,99,105)R and K(135,138,141)R. It is shown that Lys-->Arg mutants are more likely to crystallize than the wild-type protein, although not as likely as Lys-->Ala mutants. Out of the nine mutants tested, five produced diffracting crystals, including the K(199,200)R double mutant, which crystallized in a new space group and exceeded by approximately 1.0 A the resolution of the diffraction of the wild-type crystal. Major crystal contacts in the new lattice were created by the mutated epitope.
The piperidine nitroxides Tempamine and Tempace have been studied for their effect on doxorubicin (DOX) and hydrogen peroxide (H(2)O(2)) cytotoxicity in immortalized B14 cells, a model for neoplastic phenotype. The significance for nitroxide performance of the substituent in position 4 of the piperidine ring was evaluated. The cells were exposed to DOX/H(2)O(2) alone or in combination with the nitroxides Tempamine or Tempace. Two other piperidine nitroxides, Tempo and Tempol, were used for comparison. All the nitroxides except Tempamine modestly reduced DOX cytotoxicity. Tempamine evoked a biphasic response: at concentrations lower than 200 micromol/L the nitroxide decreased DOX cytotoxicity, while at concentrations higher than 200 micromol/L, it enhanced DOX cytotoxicity. In contrast to Tempo and Tempol, Tempamine and Tempace ameliorated hydrogen peroxide cytotoxicity, but none of the nitroxides influenced TBARS stimulated by hydrogen peroxide. The cytoprotective effect of Tempace, Tempo and Tempol in DOX-treated cells correlated with the inhibition of DOX-induced lipid peroxidation. The bioreduction rates of the investigated nitroxides differed significantly and were variously affected by DOX depending on the nitroxide substituent. In combination with DOX, Tempo and Tempol were reduced significantly more slowly, while no influence of DOX on Tempamine and Tempace bioreduction was observed. Our results suggest that the structure of the 4-position substituent is an important factor for biological activity of piperidine nitroxides. Among the investigated nitroxides, Tempace displayed the best protective properties in vitro but Tempamine was the only nitroxide that potentiated cytotoxicity of DOX and did not influence DOX-induced lipid peroxidation. However, this nitroxide showed different performance depending on its concentration and conditions of oxidative stress.
Rhaponticin (3,3 0 ,5-trihydroxy-4 0methoxystilbene 3-O-b-D-glucoside; synonymrhapontin), is a stilbene compound, mainly found in various species of rhubarb (Rheum L.). The aglycone, rhapontigenin, is thought to be the biologically active form of rhaponticin. As a component of rhubarb, rhaponticin may be present in the human diet both in foods and dietary supplements. Although promising reports have been published on the various activities of rhaponticin (see: antioxidant, estrogenic, antithrombotic, anticancer and anti-inflammatory actions), no comprehensive review exists of its anti-inflammatory properties. Therefore, the aim of the present work is to summarize the existing evidence of the anti-inflammatory properties of rhaponticin and provide a prospective insight into research on this stilbenoid.
The attenuation of tumor progression by Pirolin was comparable with the action of quercetin. No negative changes were observed in the heart of animals after Pirolin treatment. Thus, its use in targeting deregulated redox pathways should be further studied.
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