Christine Desel

Sulforaphane but not ascorbigen, indole-3-carbinole and ascorbic acid activates the transcription factor Nrf2 and induces phase-2 and antioxidant enzymes in human keratinocytes in culture

Please cite this paper as: Sulforaphane but not ascorbigen, indole‐3‐carbinole, and ascorbic acid activates the transcription factor Nrf2 and induces phase‐2 and antioxidant enzymes in human keratinocytes in culture. Experimental Dermatology 2010; 19: 137–144.

The genomic organization of non-LTR retrotransposons (LINEs) from three Beta species and five other angiosperms.

We have isolated and characterized conserved regions of the reverse transcriptase gene from non-LTR retrotransposons, also called long interspersed nuclear elements (LINEs), from Beta vulgaris, B. lomatogona and B. nana. The novel elements show strong homology to other non-LTR retrotransposons from plants, man and animals. LINEs are present in all species of the genus Beta tested, but there was variation in copy number. Analysis by Southern hybridization and fluorescent in situ hybridization revealed the clustered organization of these retroelements in beet species. PCR amplification using degenerate primers to conserved motifs of the predicted LINE protein sequence enabled the cloning of LINEs from both Monocotyledonae (Allium cepa, Oryza sativa and Secale cereale) and Dicotyledonae (Nicotiana tabacum and Antirrhinum majus) indicating that LINEs are a universal feature of plant genomes. A dendrogram of fifteen new and six previously isolated sequences showed the high level of sequence divergence while revealing families characteristic of some genera. The genomic organization of non-LTR retrotransposons was examined more detailed in A. majus and O. sativa.

Spatial patterns of senescence and development-dependent distribution of reactive oxygen species in tobacco (Nicotiana tabacum) leaves

Senescence of tobacco leaves is distributed non-uniformly over a leaf blade. While photosynthetic competence and expression of photosynthesis-associated genes decline in interveinal areas of the leaf lamina with advancing age of the leaf, they are maintained at high levels in the tissue surrounding the veins. In contrast, expression of senescence-associated genes (SAG) was enhanced in both areas of the leaf blade. Accumulation of hydrogen peroxide was shown to precede the phase of senescence initiation in the veinal tissue. In the interveinal tissue, the level of hydrogen peroxide was increased with senescence progression and paralleled by an increase in the level of superoxide anions. It is hypothesized that the spatial differences in superoxide anions are important for the non-uniform down-regulation of photosynthesis-associated genes (PAG), while hydrogen peroxide is responsible for up-regulation of SAG.

Nitration of γ-tocopherol in plant tissues

Nitration of γ-tocopherol has been suggested to be an important mechanism for the regulation and detoxification of reactive nitrogen oxide species in animal tissues. To investigate whether this reaction does also occur in plants, reversed phase high-performance liquid chromatography (HPLC) and mass spectrometry (LC-MS) were used for analysis of 5-nitro-γ-tocopherol (5-NγT) in leaves and seeds. 5-nitro-γ-tocopherol (5-NγT) could be detected in an in vitro system where it was most likely generated by the reaction of γ-tocopherol with a nitric oxide radical. In vivo 5-NγT was identified in leaves of the Arabidopsis mutant line (vte4), which has insertion in the gene encoding γ-tocopherol methyltransferase and consequently lacks α-tocopherol and accumulates high levels of γ-tocopherol. Quantification of NOx in leaves revealed that the vte4 mutant in comparison to wild type and the mutant vte1, which does not contain any tocopherol, has a reduced NOx concentration. The level of 5-NγT in leaves of the vte4 mutant was shown to depend on the developmental stage and on the duration of light exposure. 5-NγT was also detectable in germinating seeds of Brassica napus, Nicotiana tabacum and Arabidopsis thaliana. These seeds have in common high γ-tocopherol contents. The rate of germination at two days after imbibition inversely correlated with the γ-tocopherol content of the seeds. The result suggests that γ-tocopherol or its respective derivative, 5-NγT, may prolong early development by reducing the level of NOx.

A PCR-based assay to detect hAT-like transposon sequences in plants

Despite their potential as endogenous tools for forward and reverse genetics, members of the hobo, Ac, Tam3 (or hAT) superfamily of transposable elements have been characterized in but a limited number of plant species. To expedite their isolation, we developed a PCR-based assay for the detection of hAT-like transposon sequences in plants which was applied to isolate and initially characterize such sequences from Petunia hybrida, Phaseolus vulgaris, Bambusa vulgaris, Brassica napus and Rhododendron simsii.

Cellular uptake, stability, visualization by ‘Naturstoff reagent A’, and multidrug resistance protein 1 gene-regulatory activity of cyanidin in human keratinocytes

There is increasing interest in the role of anthocyanidins as potential skin protective phytochemicals. However, little is known if and to what extent anthocyanidins are taken up by the human skin. In the present study cellular uptake (as determined by HPLC), stability, and gene-regulatory activity of cyanidin were determined in human HaCaT keratinocytes in culture. Using the fluorescent dye Naturstoff reagent A cyanidin was visualized in order to determine its cellular accumulation via flow cytometry and fluorescence microscopy. Cyanidin was rapidly taken up by HaCaT cells at relatively low concentrations. Following incubation, cellular cyanidin levels decreased time-dependently most likely due to degradation into protocatechuic acid and phloroglucinol aldehyde. Confocal laser scanning microscopy data demonstrated that cyanidin was mainly present in the cytoplasm. Cellular uptake of cyanidin was accompanied by an inhibition of multidrug resistance protein 1 (involved in cellular efflux of flavonoids) mRNA-levels indicating its gene-regulatory activity. Naturstoff reagent A seems to be a promising fluorescent dye to visualize cyanidin in keratinocytes.

Effect of CO2 supply on formation of reactive oxygen species in Arabidopsis thaliana

Summary.Light-induced generation of reactive oxygen species (ROS) in 2-week-old leaves of Arabidopsis thaliana was studied by means of the ROS-sensitive dyes nitroblue tetrazolium (NBT) and 5-(and-6)-carboxy-2′,7′-dichlorodihydrofluorescein diacetate (DCF-DA). Superposition of pictures of chlorophyll fluorescence and DCF fluorescence indicated that the origin of ROS was in the chloroplasts. Experiments were done with zero, 0.1, or 10 mM NaHCO3 in the infiltration medium. Energy quenching in photosystem II was higher under low CO2 concentrations as measured by chlorophyll fluorescence. DCF fluorescence showed that CO2 deficiency led to an increase of ROS generation. In contrast, the photosystem II inhibitor 3-(3,4-dichlorophenyl)-1,1-dimethylurea reduced the light-induced increase of DCF fluorescence. This indicates that ROS production does not primarily result from over-reduction of photosystem II as caused by impeding electron flow in the electron transfer chain. More likely, it is an effect of diverting electron flux normally aimed at carboxylation in the Calvin cycle to other sinks more prone to the generation of toxic radicals. There was no significant effect of salicyl hydroxamate (a blocker of the alternative oxidase), showing that the mitochondrial electron transfer chain seems to play a minor role as already indicated by the superposition of chlorophyll and DCF fluorescence.

WHIRLY1 is a major organizer of chloroplast nucleoids

WHIRLY1 is an abundant protein of chloroplast nucleoids, which has also been named pTAC-1 with regard to its detection in the proteome of transcriptionally active chromosomes (TAC). In barley primary foliage leaves, expression of the WHIRLY1 gene is highest at the base whereas protein accumulation is highest in the middle of the leaf where young developing chloroplasts are found. In order to elucidate the function of WHIRLY1 in chloroplast nucleoids, transgenic barley plants with an RNAi-mediated knock-down of the HvWHIRLY1 gene (RNAi-W1) were generated. The homozygous RNAi-W1-7 plants, barely containing traces of the WHIRLY1 protein, were chosen for detailed analyses of nucleoids. Nucleic acid specific-staining with YO-PRO®-1 revealed that in comparison to wild type chloroplasts, which have multiple small nucleoids attached to thylakoids, chloroplasts of the transgenic plants contain large irregularly formed patches of DNA besides nucleoids that are similar in size and shape to those of wild type chloroplasts. In large electron lucent areas, filamentous structures were detected by conventional transmission electron microscopy. Analyses of ptDNA levels by both DNA dot-blot hybridization and quantitative PCR showed that leaves of the transgenic plants have a two- to three-fold higher level of ptDNA than the wild type. The higher ptDNA level in RNAi-W1 plants coincided with an enhanced expression of the gene encoding a putative organelle targeted DNA polymerase in the mid part of primary foliage leaves. Furthermore, overexpression of the barley WHIRLY1 gene in E. coli cells revealed a higher compaction of bacterial nucleoids. These results suggest that WHIRLY1 belongs to the group of plastid nucleoid associated proteins (ptNAP) having a function in compacting a subpopulation of chloroplast nucleoids thereby affecting DNA replication.

ADAM17-overexpressing breast cancer cells selectively targeted by antibody–toxin conjugates

A disintegrin and metalloproteinase 17 (ADAM17) is significantly upregulated not only in malignant cells but also in the pro-inflammatory microenvironment of breast cancer. There, ADAM17 is critically involved in the processing of tumor-promoting proteins. Therefore, ADAM17 appears to be an attractive therapeutic target to address not only tumor cells but also the tumor-promoting environment. In a previous study, we generated a monoclonal anti-ADAM17 antibody (A300E). Although showing no complement-dependent cytotoxicity or antibody-dependent cellular cytotoxicity, the antibody was rapidly internalized by ADAM17-expressing cells and was able to transport a conjugated toxin into target cells. As a result, doxorubicin-coupled A300E or Pseudomonas exotoxin A-loaded A300E was able to kill ADAM17-expressing cells. This effect was strictly dependent on the presence of ADAM17 on the surface of target cells. As a proof of principle, both immunotoxins killed MDA-MB-231 breast cancer cells in an ADAM17-dependent manner. These data suggest that the use of anti-ADAM17 monoclonal antibodies as a carrier might be a promising new strategy for selective anti-cancer drug delivery.

Macin Family of Antimicrobial Proteins Combines Antimicrobial and Nerve Repair Activities

Background: Antimicrobial macin proteins aggregate bacteria and exert nerve repair activities. Results: Structures of theromacin and neuromacin were elucidated. Nerve repair activities and antimicrobial activities of macins were investigated. Conclusion: Theromacin induces the nerve repair capacity of leech plasma. Macins seem to be proliferation factors. Significance: The extended magnitude of macin activities demands reconsidering their potential biological impact on nerve repair/neurons in their hosts. The tertiary structures of theromacin and neuromacin confirmed the macin protein family as a self-contained family of antimicrobial proteins within the superfamily of scorpion toxin-like proteins. The macins, which also comprise hydramacin-1, are antimicrobially active against Gram-positive and Gram-negative bacteria. Despite high sequence identity, the three proteins showed distinct differences with respect to their biological activity. Neuromacin exhibited a significantly stronger capacity to permeabilize the cytoplasmic membrane of Bacillus megaterium than theromacin and hydramacin-1. Accordingly, it is the only macin that displays pore-forming activity and that was potently active against Staphylococcus aureus. Moreover, neuromacin and hydramacin-1 led to an aggregation of bacterial cells that was not observed with theromacin. Analysis of the molecular surface properties of macins allowed confirmation of the barnacle model as the mechanistic model for the aggregation effect. Besides being antimicrobially active, neuromacin and theromacin, in contrast to hydramacin-1, were able to enhance the repair of leech nerves ex vivo. Notably, all three macins enhanced the viability of murine neuroblastoma cells, extending their functional characteristics. As neuromacin appears to be both a functional and structural chimera of hydramacin-1 and theromacin, the putative structural correlate responsible for the nerve repair capacity in leech was located to a cluster of six amino acid residues using the sequence similarity of surface-exposed regions.