Hendersonayers3788
Targeted toxins are promising anticancer agents that allow selectively destroying cancer cells due to the increased content of onco-specific markers on their surface. The use of such anti-cancer toxins in medicine is mainly hampered by their high non-specific toxicity, in particular, hepatotoxicity. In our work on human cell line, we have shown that the removal of the DARPin-PE40 translocation toxin domain leads to a decrease in hepatotoxicity. The same effect is also observed when inactivation of the furin cleavage site in the DARPin-PE40 molecule was done. Simultaneous removal of both the translocation domain and the furin cleavage site showed the best results. This toxin modification can be used to create more selective anti-cancer toxins.The effect of melatonin on respiration and production (release) of hydrogen peroxide during succinate oxidation in mitochondria isolated from lupine cotyledons and epicotyls of pea seedlings was studied. It was shown for the first time that melatonin (10-7-10-3 M) had a significant inhibitory effect on the production of peroxide by plant mitochondria, which was characterized by concentration dependence and species specificity. At the same time, melatonin (at a concentration of up to 100 μM) had virtually no effect on mitochondrial respiration rate and respiratory control coefficient. The results confirm the antioxidant function of melatonin and indicate that it is involved in the regulation of ROS levels and maintenance of redox balance in plant mitochondria.The effect of γ-radiation on the level of nuclear DNA damage in onion seedlings (Allium-test) was studied using the comet assay. DNA breaks were first found in cells of onion seedlings exposed to low-dose radiation (≤ 0.1 Gy). Dose dependence of DNA damage parameters showed nonlinear behavior a linear section in the low-dose region (below 0.1 Gy) and a dose-independent plateau in the dose range between 1 and 5 Gy. Thus, the comet assay can be used to estimate the biological effects of low-dose γ-radiation on Allium cepa seedlings.The influence of XRCC1 protein oxidation on the modification of proteins catalyzed by poly(ADP-ribose)polymerases (PARP1 and PARP2) was studied for the first time. XRCC1, PARP1, and PARP2, functioning as scaffold proteins, are responsible for coordination of multistep repair of most abundant DNA lesions. We showed that the XRCC1 oxidation reduces the efficiency of its ADP-ribosylation and the protein affinity for poly(ADP-ribose). The ADP-ribose modification of various XRCC1 forms is enhanced in the presence of DNA polymerase β (Polβ), capable of forming a stable complex with XRCC1. Oxidation suppresses the inhibitory effect of XRCC1 and its complex with Polβ on the automodification of PARP1 and PARP2, which may enhance the efficiency of repair. The results of this study indicate that the oxidation of XRCC1 plays a role in fine regulation of poly(ADP-ribosyl)ation levels of proteins and their coordinating functions in DNA repair.Humanity faces great challenges, such as the rise of bacterial antibiotic resistance and cancer incidence. Thus, the discovery of novel therapeutics from underexplored environments, such as marine habitats, is fundamental. In this study, twelve strains from the phylum Firmicutes and thirty-four strains from the phylum Proteobacteria, isolated from marine sponges of the Erylus genus, collected in Portuguese waters, were tested for bioactivities and the secondary metabolites were characterised. Bioactivity screenings comprised antimicrobial, anti-fungal, anti-parasitic and anti-cancer assays. Selected bioactive extracts were further analysed for already described molecules through high performance liquid chromatography and mass spectrometry. Several bioactivities were observed against the fungus Aspergillusfumigatus, the bacteria (methicillin-resistant Staphylococcus aureus and Escherichia coli), the human liver cancer cell line HepG2 and the parasite Trypanosoma cruzi. Medium scale-up volume extracts confirmed anti-fungal activity by strains Proteus mirabilis #118_13 and Proteus sp. (JX006497) strain #118_20. Anti-parasitic activity was also confirmed in Enterococcus faecalis strain #118_3. Moreover, P. mirabilis #118_13 showed bioactivity in human melanoma cell line A2058 and the human hepatocellular carcinoma cell line HepG2. The dereplication of bioactive extracts showed the existence of a variety of secondary metabolites, with some unidentifiable molecules. This work shows that bacterial communities of sponges are indeed good candidates for drug discovery and, as far as we know, we describe anti-parasitic activity of a strain of E. faecalis and the presence of diketopiperazines in Proteus genus for the first time.Many bacteria and archaea produce the polydisperse fructose polymer levan from sucrose upon biofilm formation via extracellular levansucrases (EC 2.4.1.10). We have investigated levansucrase-release and -activities as well as molecular size of the levan formed by the acetic acid bacterium Gluconobacter albidus TMW 2.1191 at varying environmental pH conditions to obtain insight in the ecological role of its constitutively expressed levansucrase and the produced levan. A buffer system was established enabling the recovery of levansucrase-containing supernatants from preincubated cell suspensions at pH 4.3-pH 5.7. The enzyme solutions were used to produce levans at different pH values and sucrose concentrations. Finally, the amounts and size distributions of the produced levans as well as the corresponding levansucrase activities were determined and correlated with each other. The data revealed that the levansucrase was released into the environment independently of its substrate sucrose, and that more levansucrase was released at pH ≥ 5.0. The glucose release and formation of high molecular weight levans (> 3.5 kDa) from 0.1 M initial sucrose was comparable between pH ~ 4.3-5.7 using equal amounts of released levansucrase. selleck Hence, this type of levansucrase appears to be structurally adapted to changes in the extracellular pH and to exhibit a similar total activity over a wide acidic pH range, while it produced higher amounts of larger levan molecules at higher production pH and sucrose concentrations. These findings indicate the physiological adaptation of G. albidus TMW 2.1191 to efficient colonisation of sucrose-rich habitats via released levansucrases despite changing extracellular pH conditions in course of acid formation.
