Soil-borne fungi alter the apoplastic purinergic signaling in plants by deregulating the homeostasis of extracellular ATP and its metabolite adenosine

Purinergic signaling activated by extracellular nucleotides and their derivative nucleosides trigger sophisticated signaling networks. The outcome of these pathways determine the capacity of the organism to survive under challenging conditions. Both extracellular ATP (eATP) and Adenosine (eAdo) act as primary messengers in mammals, essential for immunosuppressive responses. Despite the clear role of eATP as a plant damage-associated molecular pattern, the function of its nucleoside, eAdo, and of the eAdo/eATP balance in plant stress response remain to be fully elucidated. This is particularly relevant in the context of plant-microbe interaction, where the intruder manipulates the extracellular matrix. Here, we identify Ado as a main molecule secreted by the vascular fungus Fusarium oxysporum. We show that eAdo modulates the plant's susceptibility to fungal colonization by altering the eATP-mediated apoplastic pH homeostasis, an essential physiological player during the infection of this pathogen. Our work indicates that plant pathogens actively imbalance the apoplastic eAdo/eATP levels as a virulence mechanism.

Dose-dependent long-term effects of a single radiation event on behaviour and glial cells

PURPOSE

The increasing use of low-dose ionizing radiation in medicine requires a systematic study of its long-term effects on the brain, behaviour and its possible association with neurodegenerative disease vulnerability. Therefore, we analysed the long-term effects of a single low-dose irradiation exposure at 10 weeks of age compared to medium and higher doses on locomotor, emotion-related and sensorimotor behaviour in mice as well as on hippocampal glial cell populations.

MATERIALS AND METHODS

We determined the influence of radiation dose (0, 0.063, 0.125 or 0.5 Gy), time post-irradiation (4, 12 and 18 months p.i.), sex and genotype (wild type versus mice with Ercc2 DNA repair gene point mutation) on behaviour.

RESULTS

The high dose (0.5 Gy) had early-onset adverse effects at 4 months p.i. on sensorimotor recruitment and late-onset negative locomotor effects at 12 and 18 months p.i. Notably, the low dose (0.063 Gy) produced no early effects but subtle late-onset (18 months) protective effects on sensorimotor recruitment and exploratory behaviour. Quantification and morphological characterization of the microglial and the astrocytic cells of the dentate gyrus 24 months p.i. indicated heightened immune activity after high dose irradiation (0.125 and 0.5 Gy) while conversely, low dose (0.063 Gy) induced more neuroprotective features.

CONCLUSION

This is one of the first studies demonstrating such long-term and late-onset effects on brain and behaviour after a single radiation event in adulthood.

Reaction patterns of monoclonal antibodies to HLA-G in human tissues and on cell lines: a comparative study

We compared the immunohistochemical reaction patterns of HLA-G-specific antibodies 87G, 4H84, G233, 16G1, and BFL.1 on human placentas under three different preparative conditions and on cryosections of other human tissues. Human and murine cell lines, either naturally expressing or transfected with HLA-G, were analyzed for their reaction patterns by immunocytochemistry and flow cytometry. Antibodies HCA2, TP25.99, W6/32 to classical HLA class I, anti-beta(2)-m and various non-HLA-G expressing cell lines were used as controls. The binding ability of the antibodies depends on the histotechnical procedure used. 4H84 and HCA2 bind to HLA-G despite aldehyde fixation and also paraffin embedding. 87G does not bind HLA-G in studies involving fixation with aldehydes. G233 labels HLA-G in aldehyde fixed but not paraffin embedded tissues. By immunocytochemistry HLA-G2 is merely detected with antibodies 4H84 and HCA2. MAb 16G1 binds to HLA-Gsol transfected cell lines only. The HLA-G specificity of mAb BFL.1 was considered as doubtful because it failed to react with most of the HLA-G transfected cell lines. Binding of 87G to the surface of monocytes or U-937 cells stimulated with IFN-gamma and GM-CSF is an Fc-receptor mediated phenomenon.