Loss of S100A9 (MRP14) results in reduced interleukin-8-induced CD11b surface expression,a polarized microfilament system,and diminished responsiveness to chemoattractants in vitro

The S100A9 (MRP14) protein is abundantly expressed in myeloid cells and has been associated with various inflammatory diseases. The S100A9-deficient mice described here were viable, fertile, and generally of healthy appearance. The myelopoietic potential of the S100A9-null bone marrow was normal. S100A8, the heterodimerization partner of S100A9 was not detectable in peripheral blood cells, suggesting that even a deficiency in both S100A8 and S100A9 proteins was compatible with viable and mature neutrophils. Surprisingly, the invasion of S100A9-deficient leukocytes into the peritoneum and into the skin in vivo was indistinguishable from that in wild-type mice. However, stimulation of S100A9-deficient neutrophils with interleukin-8 in vitro failed to provoke an up-regulation of CD11b. Migration upon a chemotactic stimulus through an endothelial monolayer was markedly diminished in S100A9-deficient neutrophils. Attenuated chemokinesis of the S100A9-deficient neutrophils was observed by using a three-dimensional collagen matrix migration assay. The altered migratory behavior was associated with a microfilament system that was highly polarized in unstimulated S100A9-deficient neutrophils. Our data suggest that loss of the calcium-binding S100A9 protein reduces the responsiveness of the neutrophils upon chemoattractant stimuli at least in vitro. Alternative pathways for neutrophil emigration may be responsible for the lack of any effect in the two in vivo models we have investigated so far.     

Th1/Th2 cells, their associated molecules and role in pathophysiology

Cytokines, chemokines, and/or chemokine receptors associated with type 1 T helper (Th1) or Th2 cells play a role in different physiological conditions, such as T lymphopoiesis and pregnancy, as well as in pathological conditions, such as unexplained recurrent abortions, proliferative glomerulonephritis, and control of angiogenesis.     

In Vivo Evidence That the Stromelysin-3 Metalloproteinase Contributes in a Paracrine Manner to Epithelial Cell Malignancy

Stromelysin-3 (ST3; Basset, P., J.P. Bellocq, C. Wolf, I. Stoll, P. Hutin, J.M. Limacher, O.L. Podhajcer, M.P. Chenard, M.C. Rio, P. Chambon. 1990. Nature. 348:699–704) is a matrix metalloproteinase (MMP) expressed in mesenchymal cells located close to epithelial cells, during physiological and pathological tissue remodeling processes. In human carcinomas, high ST3 levels are associated with a poor clinical outcome, suggesting that ST3 plays a role during malignant processes. In this study we report the ST3 gene inactivation by homologous recombination. Although ST3 null mice (ST3^−/−) were fertile and did not exhibit obvious alterations in appearance and behavior, the lack of ST3 altered malignant processes. Thus, the suppression of ST3 results in a decreased 7,12-dimethylbenzanthracene-induced tumorigenesis in ST3^−/− mice. Moreover, ST3^−/− fibroblasts have lost the capacity to promote implantation of MCF7 human malignant epithelial cells in nude mice (P < 0.008). Finally, we show that this ST3 paracrine function requires extracellular matrix (ECM)-associated growth factors. Altogether, these findings give evidence that ST3 promotes, in a paracrine manner, homing of malignant epithelial cells, a key process for both primary tumors and metastases. Therefore, ST3 represents an appropriate target for specific MMP inhibitor(s) in future therapeutical approaches directed against the stromal compartment of human carcinomas.     

Evidence for Chronic Low-Grade Systemic Inflammation in Individuals with Agoraphobia from a Population-Based Prospective Study

Background

Anxiety disorders have been linked to an increased risk of incident coronary heart disease in which inflammation plays a key pathogenic role. To date, no studies have looked at the association between proinflammatory markers and agoraphobia.

Methods

In a random Swiss population sample of 2890 persons (35-67 years, 53% women), we diagnosed a total of 124 individuals (4.3%) with agoraphobia using a validated semi-structured psychiatric interview. We also assessed socioeconomic status, traditional cardiovascular risk factors (i.e., body mass index, hypertension, blood glucose levels, total cholesterol/high-density lipoprotein-cholesterol ratio), and health behaviors (i.e., smoking, alcohol consumption, and physical activity), and other major psychiatric diseases (other anxiety disorders, major depressive disorder, drug dependence) which were treated as covariates in linear regression models. Circulating levels of inflammatory markers, statistically controlled for the baseline demographic and health-related measures, were determined at a mean follow-up of 5.5 ± 0.4 years (range 4.7 – 8.5).

Results

Individuals with agoraphobia had significantly higher follow-up levels of C-reactive protein (p = 0.007) and tumor-necrosis-factor-α (p = 0.042) as well as lower levels of the cardioprotective marker adiponectin (p = 0.032) than their non-agoraphobic counterparts. Follow-up levels of interleukin (IL)-1β and IL-6 did not significantly differ between the two groups.

Conclusions

Our results suggest an increase in chronic low-grade inflammation in agoraphobia over time. Such a mechanism might link agoraphobia with an increased risk of atherosclerosis and coronary heart disease, and needs to be tested in longitudinal studies.     

Improving Axial Resolution in Confocal Microscopy with New High Refractive Index Mounting Media

Resolution, high signal intensity and elevated signal to noise ratio (SNR) are key issues for biologists who aim at studying the localisation of biological structures at the cellular and subcellular levels using confocal microscopy. The resolution required to separate sub-cellular biological structures is often near to the resolving power of the microscope. When optimally used, confocal microscopes may reach resolutions of 180 nm laterally and 500 nm axially, however, axial resolution in depth is often impaired by spherical aberration that may occur due to refractive index mismatches. Spherical aberration results in broadening of the point-spread function (PSF), a decrease in peak signal intensity when imaging in depth and a focal shift that leads to the distortion of the image along the z-axis and thus in a scaling error. In this study, we use the novel mounting medium CFM3 (Citifluor Ltd., UK) with a refractive index of 1.518 to minimize the effects of spherical aberration. This mounting medium is compatible with most common fluorochromes and fluorescent proteins. We compare its performance with established mounting media, harbouring refractive indices below 1.500, by estimating lateral and axial resolution with sub-resolution fluorescent beads. We show furthermore that the use of the high refractive index media renders the tissue transparent and improves considerably the axial resolution and imaging depth in immuno-labelled or fluorescent protein labelled fixed mouse brain tissue. We thus propose to use those novel high refractive index mounting media, whenever optimal axial resolution is required.     

Entry of Spiroplasma citri into Circulifer haematoceps Cells Involves Interaction between Spiroplasma Phosphoglycerate Kinase and Leafhopper Actin

Transmission of the phytopathogenic mollicutes, spiroplasmas, and phytoplasmas by their insect vectors mainly depends on their ability to pass through gut cells, to multiply in various tissues, and to traverse the salivary gland cells. The passage of these different barriers suggests molecular interactions between the plant mollicute and the insect vector that regulate transmission. In the present study, we focused on the interaction between Spiroplasma citri and its leafhopper vector, Circulifer haematoceps. An in vitro protein overlay assay identified five significant binding activities between S. citri proteins and insect host proteins from salivary glands. One insect protein involved in one binding activity was identified by liquid chromatography-tandem mass spectrometry (LC-MS/MS) as actin. Confocal microscopy observations of infected salivary glands revealed that spiroplasmas colocated with the host actin filaments. An S. citri actin-binding protein of 44 kDa was isolated by affinity chromatography and identified by LC-MS/MS as phosphoglycerate kinase (PGK). To investigate the role of the PGK-actin interaction, we performed competitive binding and internalization assays on leafhopper cultured cell lines (Ciha-1) in which His₆-tagged PGK from S. citri or purified PGK from Saccharomyces cerevisiae was added prior to the addition of S. citri inoculum. The results suggested that exogenous PGK has no effect on spiroplasmal attachment to leafhopper cell surfaces but inhibits S. citri internalization, demonstrating that the process leading to internalization of S. citri in eukaryotic cells requires the presence of PGK. PGK, regardless of origin, reduced the entry of spiroplasmas into Ciha-1 cells in a dose-dependent manner.Phloem-feeding leafhoppers transmit plant pathogenic mollicutes, spiroplasmas, and phytoplasmas from plant to plant in a persistent propagative manner (26, 43). These phytopathogenic mollicutes are restricted to phloem and to certain vector tissues; thus, their vectors are phloem sap-feeding specialists. After being ingested from plant phloem by their insect vectors, they traverse the insect gut wall, move into the hemolymph, where they multiply, and invade the salivary glands (20, 33, 34, 36). During their movements in the insect vector until its transmission to a new host plant, spiroplasmas and phytoplasmas must traverse two major physical barriers, namely, the insect intestine and the salivary gland (35, 53). Until now, little was known about the molecular and cellular interactions contributing to the crossing of these physical barriers. Several lines of evidence suggest that host-pathogen interactions could be a prerequisite for invasion and colonization of insect vector organs (2, 48, 53). For human and animal pathogenic mollicutes, it is well established that successful colonization of the host cells requires adhesion as the first step. This event is mediated by surface proteins, and among these proteins adhesins play an important role (8, 44). Recently, it was reported that an antigenic membrane protein (Amp) of onion yellow phytoplasma interacts with the insect microfilament complex and that interaction plays an important role in determining the insect vector specificity (48). Several other immunodominant membrane proteins from various phytoplasmas have been mentioned in the literature as candidates for involvement in host-phytoplasma interactions (29, 30).Spiroplasma citri, the first phytopathogenic mollicute available in culture (45), has emerged as an outstanding model for studying spiroplasma interactions with its two hosts: the periwinkle plant and the insect vector Circulifer haematoceps. Following observations of membrane-bound cytoplasmic vesicles of midgut epithelium and salivary gland cells, S. citri was hypothesized to cross these physical barriers by receptor-mediated cell endocytosis (3, 33, 39). Several S. citri protein candidates have been identified as involved in transmission and, for a few of them, in an interaction with leafhopper vector proteins. Spiralin, the most abundant membrane protein, was suspected to be involved in the transmission for two reasons: (i) a S. citri spiralinless mutant was less effective in its transmissibility (19); (ii) spiralin acted in vitro as a lectin able to bind to glycoproteins of insect vectors and therefore might function as a ligand able to interact with leafhopper receptors (32). In addition, the ability of S. citri to be transmitted by C. haematoceps is clearly affected by disruption of a gene predicted to encode a lipoprotein with homology to a solute-binding protein of an ABC transporter (14). The proteome of nontransmissible S. citri strains specifically lacks adhesion-related proteins (ScARPs) and the membrane-associated protein P32 present in the proteome of transmissible strains (12, 13, 31). These proteins are encoded by plasmids pSci1 to -6 (46), which are present only in transmissible strains, and ScARPs share strong similarities with the adhesion-related protein SARP1 of S. citri strain BR3, in which the presence has been correlated to the ability for the spiroplasma to adhere to insect cells in vitro (9, 55). The specific interactions of S. citri with eukaryotic cells remain to be elucidated, but a combination of the effects of several proteins or a complex would be necessary to explain the invasion of a variety of host cell types by S. citri (33).Nevertheless, in the last sequence of events involved in insect vector transmission, the first contact and recognition for the efficient penetration of the salivary gland cells represents an essential step. In the present study, confocal images of infected salivary glands show the localization of S. citri cells along the actin filaments. We report the results of the first attempt to decipher the role of the spiroplasma''s phosphoglycerate kinase (PGK) in the internalization of S. citri in its insect vector''s cells.     

Laccaria bicolor S238N improves Scots pine mineral nutrition by increasing root nutrient uptake from soil minerals but does not increase mineral weathering

The role of ectomycorrhizal fungi on mineral nutrient mobilization and uptake is crucial for tree nutrition and growth in temperate forest ecosystems. By using a “mineral weathering budget” approach, this study aims to quantify the effect of the symbiosis with the ectomycorrhizal model strain Laccaria bicolor S238N on mineral weathering and tree nutrition, carrying out a column experiment with a quartz/biotite substrate. Each column was planted with one Scots pine (Pinus sylvestris L.) non-mycorrhizal or mycorrhizal with L. bicolor, with exception of the abiotic control treatment. The columns were continuously supplied with a nutrient-poor solution. A mineral weathering budget was calculated for K and Mg. The pine shoot growth was significantly increased (73%) when plants were mycorrhizal with L. bicolor. Whatever their mycorrhizal status, pines increased mineral weathering by factors 1.5 to 2.1. No difference between non-mycorrhizal and mycorrhizal pine treatments was revealed, however, mycorrhizal pines assimilated significantly more K and Mg. This suggests that in our experimental conditions, L. bicolor S238N improved shoot growth and K and Mg assimilation in Scots pine mainly by increasing the uptake of dissolved nutrients, linked to a better exploration and exploitation of the soil by the mycorrhizal roots.     

PrPc does not mediate internalization of PrPSc but is required at an early stage for de novo prion infection of Rov cells

We have studied the interactions of exogenous prions with an epithelial cell line inducibly expressing PrPc protein and permissive to infection by a sheep scrapie agent. We demonstrate that abnormal PrP (PrPSc) and prion infectivity are efficiently internalized in Rov cells, whether or not PrPc is expressed. At odds with earlier studies implicating cellular heparan sulfates in PrPSc internalization, we failed to find any involvement of such molecules in Rov cells, indicating that prions can enter target cells by several routes. We further show that PrPSc taken up in the absence of PrPc was unable to promote efficient prion multiplication once PrPc expression was restored in the cells. This observation argues that interaction of PrPSc with PrPc has to occur early, in a specific subcellular compartment(s), and is consistent with the view that the first prion multiplication events may occur at the cell surface.