Reactive oxygen species in photosystem II: relevance for oxidative signaling

Reactive oxygen species (ROS) are formed in photosystem II (PSII) under various types of abiotic and biotic stresses. It is considered that ROS play a role in chloroplast-to-nucleus retrograde signaling, which changes the nuclear gene expression. However, as ROS lifetime and diffusion are restricted due to the high reactivity towards biomolecules (lipids, pigments, and proteins) and the spatial specificity of signal transduction is low, it is not entirely clear how ROS might transduce signal from the chloroplasts to the nucleus. Biomolecule oxidation was formerly connected solely with damage; nevertheless, the evidence appears that oxidatively modified lipids and pigments are be involved in chloroplast-to-nucleus retrograde signaling due to their long diffusion distance. Moreover, oxidatively modified proteins show high spatial specificity; however, their role in signal transduction from chloroplasts to the nucleus has not been proven yet. The review attempts to summarize and evaluate the evidence for the involvement of ROS in oxidative signaling in PSII.

     

Crystal structure of the Bloom's syndrome helicase indicates a role for the HRDC domain in conformational changes

Bloom''s syndrome helicase (BLM) is a member of the RecQ family of DNA helicases, which play key roles in the maintenance of genome integrity in all organism groups. We describe crystal structures of the BLM helicase domain in complex with DNA and with an antibody fragment, as well as SAXS and domain association studies in solution. We show an unexpected nucleotide-dependent interaction of the core helicase domain with the conserved, poorly characterized HRDC domain. The BLM–DNA complex shows an unusual base-flipping mechanism with unique positioning of the DNA duplex relative to the helicase core domains. Comparison with other crystal structures of RecQ helicases permits the definition of structural transitions underlying ATP-driven helicase action, and the identification of a nucleotide-regulated tunnel that may play a role in interactions with complex DNA substrates.     

Design of antimicrobial peptide arenicin analogs with improved therapeutic indices

β‐Hairpin antimicrobial peptides are among the most potent peptide antibiotics of animal origin. Arenicins, isolated earlier from marine polychaeta lugworm Arenicola marina, belong to a family of β‐hairpin antimicrobial peptides and display a broad spectrum of biological activities. However, despite being potent antimicrobials, arenicins are partially unapplicable as therapeutics as a result of their relatively high cytotoxicity against mammalian cells. In this study, a template‐based approach was used to create therapeutically valuable analogs of arenicin‐1 and identify amino acid residues important for antibacterial and cytotoxic activities of the peptide. The plasmids encoding recombinant analogs were constructed by mutagenesis technique based on inverse PCR amplification of the whole arenicin‐1 expression plasmid. The analogs were produced as a part of the fusion proteins in Escherichia coli. It was shown that an obvious reduction in hemolytic activity without lose of antimicrobial activity can be achieved by a single amino acid substitution in the non‐polar face of the molecule with hydrophilic residues such as serine and arginine. As the result, the selective analog with 50‐fold improved therapeutic index was developed. The circular dichroism spectra demonstrated that the secondary structure of the analog was similar to the natural arenicin‐1 in water solution and sodium dodecyl sulfate micelles but significantly differed in the presence of dodecylphosphocholine micelles mimicking mammalian membranes. Similarly to arenicin‐1, the designed analog killed bacteria via induction of the membrane damage, assessed using the fluorescent dye SYTOX Green uptake. Our results afford molecular insight into mechanism of antimicrobial action of the designed arenicin analogs and their possible clinical application. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Lipid‐dependent pore formation by antimicrobial peptides arenicin‐2 and melittin demonstrated by their proton transfer activity

This work presents a comparative study of proton transfer activity (PTA) of two cationic (+6) antimicrobial peptides, β‐structural arenicin‐2 and α‐helical melittin. A new approach was proposed for the detection of passive proton transfer by using proteoliposomes containing bacteriorhodopsin, which creates a small light‐induced electrochemical proton gradient ?ΔpH. Addition of several nanomoles of the peptides lowers ?ΔpH that is proximately indicative of the pore formation. The quantitative analysis of sigmoidal dependences of ?pH on the peptides concentration was carried out using liposomes prepared from PC, PC/PE, PC/PE/PI and PC/PG. Substitution of PC‐containing liposomes with PE‐containing ones, having negative spontaneous curvature, reduced the PTA of α‐helical melittin and increased that of β‐structural arenicin‐2. This result indicates an essential difference in the pore formation by these peptides. Further increase of PTA in response to arenicin‐2 (in contrast to melittin) was observed in the liposomes prepared from PC/PE/PI. The data analysis leads to the conclusion that PTA is influenced by (i) efficiency of the pore assemblage, which depends on the structure of pore‐forming peptides, and the spontaneous curvature of lipids and (ii) the presence of mobile protons in the polar head groups of phospholipids. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Extract of <Emphasis Type="Italic">Microcystis</Emphasis> water bloom affects cellular differentiation in filamentous cyanobacterium <Emphasis Type="Italic">Trichormus variabilis</Emphasis> (Nostocales,Cyanobacteria)

Cyanobacteria produce a wide spectrum of biologically active compounds such as microcystins, whose effects on photoautotrophic organisms and role in the aquatic ecosystems have been most intensively discussed and studied. In our study, we examined effects of semipurified Microcystis extract containing microcystins (0.2–20 nM corresponding to 0.2–20 μg L⁻¹) on age-induced cell differentiation of filamentous cyanobacterium Trichormus variabilis. The heterocyst and akinete formation was significantly decreased after exposure to extract containing 2 or 20 nM of microcystins within 10 days of exposure. To our knowledge, this is the first information about effects of metabolites produced by planktonic cyanobacteria on cell differentiation in filamentous cyanobacteria. Since the effects were induced by environmentally relevant concentrations of microcystins, our observations may indicate not only that microcystins or other bioactive peptides could affect conservation, overwintering, and nitrogen-fixation in filamentous cyanobacteria under environmental conditions but also contribute to the understanding of possible signaling function of cyanobacterial metabolites.     

Occurrence of extra‐pair paternity is connected to social male's MHC‐variability in the scarlet rosefinch Carpodacus erythrinus

Genes of the Major Histocompatibility Complex (MHC) represent an essential component of the vertebrate acquired immune system. In the last decades, the role of MHC genes in mate choice has been subject of particular scientific interest. However, results of studies dealing with this topic in different species are equivocal and mechanisms conducting MHC‐based mate choice are still puzzling. We investigated the impact of MHC class I variability on within‐pair and extra‐pair fertilisation success in a wild population of a socially monogamous passerine bird with considerable rates of extra‐pair paternity, the scarlet rosefinch Carpodacus erythrinus. We found some support for the ‘good‐genes‐as‐heterozygosity model’, as social males of high MHC‐heterozygosity were cheated by their females less frequently than less MHC‐heterozygous males. However, cuckolding males were not more MHC‐heterozygous than the cheated social males, nor were extra‐pair young more MHC‐heterozygous than within‐pair young. We did not find any evidence for mating preferences according to the complementarity model.     

Elasticity and physico-chemical properties during drinking water biofilm formation

Atomic force microscope techniques and multi-staining fluorescence microscopy were employed to study the steps in drinking water biofilm formation. During the formation of a conditioning layer, surface hydrophobic forces increased and the range of characteristic hydrophobic forces diversified with time, becoming progressively complex in macromolecular composition, which in return triggered irreversible cellular adhesion. AFM visualization of 1 to 8 week drinking water biofilms showed a spatially discontinuous and heterogeneous distribution comprising an extensive network of filamentous fungi in which biofilm aggregates were embedded. The elastic modulus of 40-day-old biofilms ranged from 200 to 9000?kPa, and the biofilm deposits with a height >0.5 μm had an elastic modulus <600?kPa, suggesting that the drinking water biofilms were composed of a soft top layer and a basal layer with significantly higher elastic modulus values falling in the range of fungal elasticity.     

Coordination conjugates of therapeutic proteins with drug carriers: a new approach for versatile advanced drug delivery

We present here a general system for the coordination attachment of therapeutic proteins to a drug delivery system and its application in combined therapy. Proof of concept is demonstrated by the synthesis and testing of the targeted drug delivery system for cytostatics, which is based on a combination of the drug carrier Zn-porphyrin-cyclodextrin conjugates and their supramolecular coordination complexes with immunoglobulins. This system can be as readily used for a variety of therapeutic and targeting proteins including PAs, MAs, lectins, and HSA. Moreover, it allows combined photodynamic therapy, cell targeted chemotherapy and immunotherapy. When tested in a mouse model with human C32 carcinoma, the therapeutic superiority of the coordination assembly nanosystem was shown in comparison with the efficacy of building blocks used for the construction of the system.