Immunoprophylaxis of respiratory syncytial virus: global experience

In sarcoidosis, host genetic factors are discussed as contributing to disease susceptibility and course. Since tumor necrosis factor (TNF)-α is a central mediator of granuloma formation and since elevated TNF-α levels are found during active phases of sarcoidosis, genetic polymorphisms correlating with influences on TNF-α levels are of special interest. The complete sequencing of the MHC region and the increase in the number of identified gene polymorphisms in this locus associated with TNF-α production offer the opportunity of detecting new genes associated with sarcoidosis and perhaps of defining disease-associated haplotypes that bear the potential of serving as predictive markers for this disease.     

RNA-free DNA Extraction Protocol from PinusTissues for Molecular Biology or HPCE/HPLC Analyses

A simple method for extracting DNA from various in vitro or ex vitro Pinus tissues is described. Good yield and high quality RNA-free DNA ready to use in molecular biology assays or analytical analysis was obtained. DNA quality was measured analyzing absorption spectra between 200 and 300 nm, A_260/280 ratio and HPCE. This protocol was tested with no modification in a wide range of Pinus tissues from recalcitrant in vitro callus to mature field scions improving the results obtained with previous protocols. As the protocol is simple, almost universal and inexpensive it may be used for routine isolation from Pinus tissues. An isolation troubleshooting table was included to facilitate the setting up of reported protocol to other plant species.     

Decorin reverses the repressive effect of autocrine-produced TGF-beta on mouse macrophage activation

Several cytokines or growth factors induce macrophages to proliferate, become activated, differentiate, or die through apoptosis. Like the major macrophage activator IFN-gamma, the extracellular matrix protein decorin inhibits proliferation and protects macrophages from the induction of apoptosis. Decorin enhances the IFN-gamma-induced expression of the IAalpha and IAbeta MHC class II genes. Moreover, it increases the IFN-gamma- or LPS-induced expression of inducible NO synthase, TNF-alpha, IL-1beta, and IL-6 genes and the secretion of these cytokines. Using a number of extracellular matrix proteins, we found a negative correlation between adhesion and proliferation. However, the effects of decorin on macrophage activation do not seem to be mediated through its effect on adhesion or proliferation. Instead, this proteoglycan abolishes the binding of TGF-beta to macrophages, as shown by Scatchard analysis of (125)I-labeled TGF-beta, which, in the absence of decorin, showed a K(d) of 0.11 +/- 0.03 nM and approximately 5000 receptors/cell. This was confirmed when we treated macrophages with Abs to block the endogenously produced TGF-beta, which enhanced macrophage activation in a way similar to decorin. The increase in activation mediated by decorin demonstrates that macrophages are under negative regulation that can be reversed by proteins of the extracellular matrix.     

Exploring natural variation of Pinus pinaster Aiton using metabolomics: Is it possible to identify the region of origin of a pine from its metabolites?

Natural variation of the metabolome of Pinus pinaster was studied to improve understanding of its role in the adaptation process and phenotypic diversity. The metabolomes of needles and the apical and basal section of buds were analysed in ten provenances of P. pinaster, selected from France, Spain and Morocco, grown in a common garden for 5 years. The employment of complementary mass spectrometry techniques (GC‐MS and LC‐Orbitrap‐MS) together with bioinformatics tools allowed the reliable quantification of 2403 molecular masses. The analysis of the metabolome showed that differences were maintained across provenances and that the metabolites characteristic of each organ are mainly related to amino acid metabolism, while provenances were distinguishable essentially through secondary metabolism when organs were analysed independently. Integrative analyses of metabolome, environmental and growth data provided a comprehensive picture of adaptation plasticity in conifers. These analyses defined two major groups of plants, distinguished by secondary metabolism: that is, either Atlantic or Mediterranean provenance. Needles were the most sensitive organ, where strong correlations were found between flavonoids and the water regime of the geographic origin of the provenance. The data obtained point to genome specialization aimed at maximizing the drought stress resistance of trees depending on their origin.