Sticky connections: extracellular matrix protein recognition and integrin-mediated cellular invasion by Staphylococcus aureus

Staphylococcus aureus is a leading cause of hospital-acquired and often persistent infections. A key feature of pathogenic S. aureus is the expression of an array of extracellular matrix-binding proteins. In particular, the fibronectin-binding proteins FnBP-A and FnBP-B afford the pathogen the ability to connect to cellular integrins and to trigger internalization into host cells. Recent work has highlighted the role of host cell invasion in the pathogenesis of S. aureus, the structure-function relationship of FnBPs, and the host factors required to allow bacterial uptake. Understanding the invasive capacity of S. aureus should open up new avenues to control this microorganism in diverse disease settings.     

CEACAMs: their role in physiology and pathophysiology

Carcinoembryonic antigen-related cell adhesion molecules (CEACAMs) belong to a group of mammalian immunoglobulin-related glycoproteins. They are involved in cell-cell recognition and modulate cellular processes that range from the shaping of tissue architecture and neovascularization to the regulation of insulin homeostasis and T-cell proliferation. CEACAMs have also been identified as receptors for host-specific viruses and bacteria in mice and humans, respectively, making these proteins an interesting example of pathogen-host co-evolution. Forward and reverse genetics in the mouse now provide powerful novel models to elucidate the action of CEACAM family members in vivo.     

Effects of manganese on chlorophyll fluorescence in epiphytic cyano- and chlorolichens

Incubation with 10 mM MnCl₂ for 1 h decreased the effective quantum yield of photochemical energy conversion in photosystem 2 in the bipartite chlorolichen Hypogymnia physodes as well as in the bipartite cyanolichens Leptogium saturninum and Nephroma helveticum, but not in the tripartite lichen Lobaria pulmonaria. Among the bipartite species, Mn sensitivity increased in the order H. physodes < N. helveticum < L. saturninum. This equals the sequence heteromerous chlorolichen < heteromerous cyanolichen < homoiomerous (gelatinous) cyanolichen. MnCl₂ reduced non-photochemical quenching of chlorophyll fluorescence in the bipartite cyanolichens and in H. physodes; in the latter, however, this decrease was limited to light intensities above the adapted growth light intensity. Photochemical quenching was increased in H. physodes, but reduced in the bipartite cyanolichens. The results indicate that the bipartite cyanolichens L. saturninum and N. helveticum are even more sensitive to high Mn concentrations than the chlorolichen H. physodes, the low Mn tolerance of which has been already demonstrated. This agrees with results of field studies from western North America, where conifer bark under cyanolichens (including L. saturninum and N. helveticum) was found to contain less Mn than bark which only supported chlorolichens. The high sensitivity of the bipartite cyanolichens probably results from high sensitivity of the Nostoc photobiont. The high Mn tolerance of L. pulmonaria is probably not due to its being a tripartite lichen, but might be caused by high tolerance of the green-algal primary photobiont Dictyochloropsis, which is, however, not experimentally proven. The high Mn tolerance of the highly SO₂-sensitive L. pulmonaria shows that different mechanisms are responsible for Mn and SO₂ toxicity in lichens.     

Gypsy moth-induced growth decline of Larix sibirica in a forest-steppe ecotone

Effects of a gypsy moth attack on the productivity of Larix sibirica on tree-ring width were analyzed in a case study of a mountain site in the western Khentey in the northern Mongolian forest-steppe ecotone. A major aim of the study was to assess whether reduced productivity by gypsy moth herbivory could contribute to fluctuations of the forest edge to the steppe in larch-dominated woodlands. In the year of the infestation, larch trees at the forest edge lost 90% of their needles and latewood formation was strongly reduced. However, earlywood formation was widely completed before the gypsy moth attack and, therefore, total tree-ring width was not below the average of the five years prior to infestation. In the two years following the gypsy moth invasion, annual stem increment was strongly reduced. Trees growing 30–100 m inside the forest showed a much weaker response of tree-ring widths to the gypsy moth infestation consistent with significantly higher defoliation at forest edge than in the forest interior. Old trees exhibited a stronger growth decline than middle-aged trees, indicating higher infestation of dominant, exposed trees, which are thought to be better accessible to the wind-dispersed gypsy moth larvae hatching in the early growing season on the steppe. Under the current climate, occasional growth reductions are thought to be of little effect on the performance of L. sibirica, as fast-growing competitors of other tree species, which are not or hardly affected by gypsy moth, are absent.     

Differential protein profiling of primary versus immortalized human RPE cells identifies expression patterns associated with cytoskeletal remodeling and cell survival

Functional research of retinal pigment epithelium (RPE) most often relies on utilization of RPE-derived cell lines in vitro. However, no studies about similarities and differences of the respective cell lines exist so far. Thus, we here analyze the proteome of the most popular RPE cell lines: ARPE-19 and hTERT and compare their constitutive and de novo synthesized protein expression profiles to human early passage retinal pigment epithelial cells (epRPE) by 2-D electrophoresis and MALDI-TOF peptide mass fingerprinting. In all three cell lines the baseline protein expression pattern corresponded well to the de novo synthesized cellular proteome. However, comparison of the protein profile of epRPE cells with that of hTERT-RPE cells revealed a higher abundance of proteins related to cell migration, adhesion, and extracellular matrix formation, paralleled by a down-regulation of proteins attributed to cell polarization, and showed an altered expression of detoxification enzymes in hTERT-RPE. ARPE-19 cells, however, exhibited a higher abundance of components of the microtubule cytoskeleton and differences in expression of proteins related to proliferation and cell death. epRPE cells, hTERT-RPE, and ARPE-19 therefore may respond differently with respect to certain functional properties, a finding that should prove valuable for future in vitro studies.     

Dissociation and metal-binding characteristics of yellow lichen substances suggest a relationship with site preferences of lichens

Background and Aims: Many species of lichen-forming fungi contain yellow or orangeextracellular pigments belonging to the dibenzofurans (usnicacid), anthraquinones (e.g. parietin) or pulvinic acid group.These pigments are all equally efficient light screens, leadingus to question the potential ecological and evolutionary significanceof diversity in yellow and orange lichen substances. Here thehypothesis is tested that the different pigments differ in metal-bindingcharacteristics, which suggest that they may contribute to adaptationto sites differing in pH and metal availability. Methods: UV spectroscopy was used to study the dissociation and the pHdependence of the metal-binding behaviour of seven isolatedlichen substances in methanol. Metals applied were selectedmacro- and micro-nutrients (Cu²⁺, Fe²⁺, Fe³⁺, Mg²⁺, Mn²⁺ andZn²⁺). Key Results: All the pigments studied are strong to moderate acids with pK_a1values between 2·8 and 4·5. Metal complexationis common in the lichen substances studied. Complexation takesplace under acidic conditions with usnic acid, but under alkalineconditions with parietin and most compounds of the pulvinicacid group. The pulvinic acid derivative rhizocarpic acid formsmetal complexes both in the acidic and the alkaline range. Conclusions: Metal complexation by lichen substances could be a prerequisitefor lichen substance-mediated control of metal uptake. Assumingsuch an effect at pH values where the affinity of the metalfor the lichen substance is intermediate would explain the strongpreference of lichens with usnic or rhizocarpic acids to acidicsubstrata. Moreover, it would explain the preference of lichenswith parietin and some lichens with compounds of the pulvinicacid group either for nutrient-rich substrata at low pH or forcalcareous substrata.     

No Signs of Long-term Greening Trend in Western Mongolian Grasslands

Ecosystems - Trends for increased vegetation greenness based on satellite-derived data have been repeatedly published for the temperate grassland biome (including forest steppes) of eastern Inner...     

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