Parathymosin affects the binding of linker histone H1 to nucleosomes and remodels chromatin structure

Linker histone H1 is the major factor that stabilizes higher order chromatin structure and modulates the action of chromatin-remodeling enzymes. We have previously shown that parathymosin, an acidic, nuclear protein binds to histone H1 in vitro and in vivo. Confocal laser scanning microscopy reveals a nuclear punctuate staining of the endogenous protein in interphase cells, which is excluded from dense heterochromatic regions. Using an in vitro chromatin reconstitution system under physiological conditions, we show here that parathymosin (ParaT) inhibits the binding of H1 to chromatin in a dose-dependent manner. Consistent with these findings, H1-containing chromatin assembled in the presence of ParaT has reduced nucleosome spacing. These observations suggest that interaction of the two proteins might result in a conformational change of H1. Fluorescence spectroscopy and circular dichroism-based measurements on mixtures of H1 and ParaT confirm this hypothesis. Human sperm nuclei challenged with ParaT become highly decondensed, whereas overexpression of green fluorescent protein- or FLAG-tagged protein in HeLa cells induces global chromatin decondensation and increases the accessibility of chromatin to micrococcal nuclease digestion. Our data suggest a role of parathymosin in the remodeling of higher order chromatin structure through modulation of H1 interaction with nucleosomes and point to its involvement in chromatin-dependent functions.     

Cholesterol-dependent lipid assemblies regulate the activity of the ecto-nucleotidase CD39

CD39 (ecto-nucleoside triphosphate diphosphohydrolase-1; E-NTPDase1) is a plasma membrane ecto-enzyme that regulates purinergic receptor signaling by controlling the levels of extracellular nucleotides. In blood vessels this enzyme exhibits a thromboregulatory role through the control of platelet aggregation. CD39 is localized in caveolae, which are plasma membrane invaginations with distinct lipid composition, similar to dynamic lipid microdomains, called rafts. Cholesterol is enriched together with sphingolipids in both rafts and caveolae, as well as in other specialized domains of the membrane, and plays a key role in their function. Here, we examine the potential role of cholesterol-enriched domains in CD39 function. Using polarized Madin-Darby canine kidney (MDCK) cells and caveolin-1 gene-disrupted mice, we show that caveolae are not essential either for the enzymatic activity of CD39 or for its targeting to plasma membrane. On the other hand, flotation experiments using detergent-free or detergent-based approaches indicate that CD39 associates, at least in part, with distinct lipid assemblies. In the apical membrane of MDCK cells, which lacks caveolae, CD39 is localized in microvilli, which are also cholesterol and raft-dependent membrane domains. Interfering with cholesterol levels using drugs that either deplete or sequester membrane cholesterol results in a strong inhibition of the enzymatic and anti-platelet activity of CD39. The effects of cholesterol depletion are completely reversed by replenishment of membranes with pure cholesterol, but not by cholestenone. These data suggest a functional link between the localization of CD39 in cholesterol-rich domains of the membrane and its role in thromboregulation.     

The ENPI Horizon 2020 Capacity Building/Mediterranean Environment Programme to de-pollute the Mediterranean by the year 2020 (ENPI H2020 CB/MEP)

The paper explains the content, structure, activities and contribution of the capacity building component of the Horizon 2020 Initiative, a major undertaking supported by the EU Neighbourhood policy instrument. The Mediterranean environment is one of the richest and at the same time most vulnerable in the world. A staggering 80% of its pollution comes from land based sources: municipal waste, urban waste and water, and industrial emissions. In 2006, the European Mediterranean Environment Ministers meeting in Cairo committed themselves to a targeted de-pollution of the Mediterranean Sea by 2020, known as the “Horizon 2020 Initiative”. Within this framework, the Horizon 2020 Capacity Building/Mediterranean Environment Programme (H2020 CB/MEP) is one of its three operational components (the other two include the investments for pollution reduction infrastructures and pollution monitoring). It aims at supporting the implementation of the Horizon 2020 Initiative Road Map and Work Plan through a large number (~140) of capacity building and awareness raising activities, while strengthening institutions on environmental mainstreaming and H2020 priority areas. Environmental mainstreaming acts as an umbrella under which the three H2020 priorities are developed horizontally, cross cutting all capacity building activities so as to facilitate and create the enabling environment for the proper implementation, not only of the capacity building component of H2020 but also of the entire Initiative. It is expected that the H2020 CB/MEP will provide by the end of 2012 capacity building for an average of 200–300 persons per country, which means about 3500 individuals in the entire region.     

Signal transduction pathways through cytoprotective, apoptotic and hypertrophic stimuli: a comparative study in adult cardiac myocytes

In response to pathophysiological stresses, cardiac myocytes undergo hypertrophic growth or apoptosis. Multiple signalling pathways have been implicated in these responses and among them, kinases such as mitogen‐activated protein kinases (MAPKs) and Akt. However, the distinction between signalling pathways originally believed to be specific for either hypertrophy, apoptosis or cell survival is fading. The existing data, coming from different experimental systems, often are conflicting. In this study, we sought to compare aspects of intracellular signalling activated by diverse stimuli in a single experimental system, adult rat cardiac myocytes. Furthermore, we assessed the role of these stimuli in eliciting a particular cell phenotype, i.e. whether they promote hypertrophy, cell survival or apoptosis. The results demonstrate that the hypertrophic agonist phenylephrine is the most potent activator of MAPKs/mitogen and stress‐ activated kinase MSK1, although its effect on Akt phosphorylation is relatively minor. The pro‐apoptotic concentration of H₂O₂ activates strongly both MAPKs and PI3K/Akt pathways. Insulin‐like growth factor‐1 has a minimal effect on phosphorylation of MAPKs/MSK1, but it is a potent activator of Akt. In conclusion, hypertrophic, pro‐survival or apoptotic stimuli operate through the same signalling pathways with different time course and amplitude of kinase activation. Thus, to determine the effect of different stimuli on cell fate, it is important to assess signalling pathways as a network and not as a single pathway. Copyright © 2011 John Wiley & Sons, Ltd.     

Regulation of protein kinase C delta by phorbol ester, endothelin-1, and platelet-derived growth factor in cardiac myocytes

Protein kinase C (PKC) delta is regulated allosterically by phosphatidylserine and diacylglycerol (which promote its translocation to the membrane) and by phosphorylation of Ser/Thr and Tyr residues. Although phosphorylation on Thr-505/Ser-643/Ser-662 may simply "prime" PKCdelta for activation, it could be regulatory. We examined the regulation of PKCdelta in cardiac myocytes by endothelin-1 (Gq protein-coupled receptor agonist) and platelet-derived growth factor (receptor tyrosine kinase agonist) in comparison with phorbol 12-myristate 13-acetate (PMA). All increased phosphorylation of PKCdelta(Thr-505/Ser-643) and of Tyr residues, although to differing extents. De novo phosphorylation occurred mainly after translocation of PKCdelta to the particulate fraction, and phosphorylations of Thr-505/Ser-643 versus Tyr residues were essentially independent events. Following chromatographic separation of the PKCdelta subspecies, activities were correlated with immunoreactivity profiles of total and phosphorylated forms. In unstimulated cells, approximately 25% of PKCdelta lacked phosphorylation of Thr-505/Ser-643 and displayed minimal activity (assayed in the presence of phosphatidylserine/PMA following chromatography). Endothelin-1 or PMA (10 min) promoted Thr-505/Ser-643 phosphorylation of this pool, and this was associated with an increase in total recoverable PKCdelta activity. Meanwhile, in cells exposed to endothelin-1 or PMA, the overall pool of PKCdelta translocated rapidly (30 s) to the particulate fraction and was phosphorylated on Tyr residues. This was associated with an increase in lipid-independent activity (i.e. the phosphatidylserine/PMA requirement disappeared). For endothelin-1, Tyr phosphorylation of PKCdelta and the increase in phosphatidylserine/PMA-independent activity persisted after PKCdelta retrotranslocated to the soluble fraction. We concluded that, with this physiological agonist, PKCdelta becomes activated in the particulate fraction but retains activity following its retrotranslocation, presumably to phosphorylate substrates elsewhere.