42 research outputs found
Gallbladder stem/progenitor cells are able to repopulate and rescue the damaged liver in a experimental mouse model of liver cirrhosis
[No abstract available]The human biliary tree contains stem cells within peribiliary glands (Cardinale et al., 2011). Human Gallbladder contains stem/progenitors (hGSCs) located in mucosal crypts (Carpino et al., 2012). Our aim was to evaluate the capability of hGSCs to repopulate and rescue the damaged liver in a model of liver cirrhosis. hGSCs were selected for Epithelial Cell Adhesion Molecule. Cirrhosis was induced by intraperitoneal injection, twice a week, of carbon tetrachloride for 7 weeks. hGSCs were injected into the liver via the spleen of normal or cirrhotic SCID mice. As controls, cirrhotic SCID mice were injected only with the medium or with mature human hepatocytes. 2 months after the injection, the necrotic areas were lower in mice treated with hGSCs in comparison with controls. In hGSCs-injected cirrhotic mice, the expression of the human antigens indicated that ≈10% of the host hepatocyte mass was represented by in vivo differentiated human hepatocytes derived from injected hGSCs. This value was significantly higher with respect to mice injected with human adult hepatocytes. The presence of human cells in murine livers was confirmed by in situ hybridization for human chromosomes. hGSCs injection dictated an improvement of serum liver biochemistry with a significant reduction of transaminases and an improvement of synthetic functions. In this model, hGSC engraftment and differentiation determinate the improvement of histological liver damage and serum liver biochemistry. These data could open future perspectives for a role of gallbladder as a source of stem cells for liver regenerative medicine
Remote sensing as tool for development of landslide databases: The case of the Messina Province (Italy) geodatabase
Landslide geodatabases, including inventories and thematic data, today are fundamental tools for national and/or local authorities in susceptibility, hazard and risk management. A well organized landslide geo-database contains different kinds of data such as past information (landslide inventory maps), ancillary data and updated remote sensing (space-borne and ground based) data, which can be integrated in order to produce landslide susceptibility maps, updated landslide inventory maps and hazard and risk assessment maps. Italy is strongly affected by landslide phenomena which cause victims and significant economic damage to buildings and infrastructure, loss of productive soils and pasture lands. In particular, the Messina Province (southern Italy) represents an area where landslides are recurrent and characterized by high magnitude, due to several predisposing factors (e.g. morphology, land use, lithologies) and different triggering mechanisms (meteorological conditions, seismicity, active tectonics and volcanic activity). For this area, a geodatabase was created by using different monitoring techniques, including remote sensing (e.g. SAR satellite ERS1/2, ENVISAT, RADARSAT-1, TerraSAR-X, COSMO-SkyMed) data, and in situ measurements (e.g. GBInSAR, damage assessment). In this paper a complete landslide geodatabase of the Messina Province, designed following the requirements of the local and national Civil Protection authorities, is presented. This geo-database was used to produce maps (e.g. susceptibility, ground deformation velocities, damage assessment, risk zonation) which today are constantly used by the Civil Protection authorities to manage the landslide hazard of the Messina Province
Gallbladder Stem/progenitor cells are able to repopulate and rescue the damaged liver in a experimental mouse model of liver cirrhosis
The human biliary tree contains stem cells within peribiliary glands (Cardinale et al., 2011). Human Gallbladder contains stem/progenitors (hGSCs) located in mucosal crypts (Carpino et al., 2012). Our aim was to evaluate the capability of hGSCs to repopulate and rescue the damaged liver in a model of liver cirrhosis. hGSCs were selected for Epithelial Cell Adhesion Molecule. Cirrhosis was induced by intraperitoneal injection, twice a week, of carbon tetrachloride for 7 weeks. hGSCs were injected into the liver via the spleen of normal or cirrhotic SCID mice. As controls, cirrhotic SCID mice were injected only with the medium or with mature human hepatocytes. 2 months after the injection, the necrotic areas were lower in mice treated with hGSCs in comparison with controls. In hGSCs-injected cirrhotic mice, the expression of the human antigens indicated that ≈10% of the host hepatocyte mass was represented by in vivo differentiated human hepatocytes derived from injected hGSCs. This value was significantly higher with respect to mice injected with human adult hepatocytes. The presence of human cells in murine livers was confirmed by in situ hybridization for human chromosomes. hGSCs injection dictated an improvement of serum liver biochemistry with a significant reduction of transaminases and an improvement of synthetic functions. In this model, hGSC engraftment and differentiation determinate the improvement of histological liver damage and serum liver biochemistry. These data could open future perspectives for a role of gallbladder as a source of stem cells for liver regenerative medicine
Temperature dependence of fast fluctuations in single- and double-stranded DNA molecules. A neutron scattering investigation.
International audienceThrough elastic neutron scattering measurements we have investigated the picosecond dynamics of dry and hydrated powders of DNA in the double-stranded (dsDNA) and single-stranded (ssDNA) state, in the wide temperature range from 20 to 300 K. The extracted mean square displacements of DNA hydrogen atoms exhibit an onset of anharmonicity at around 100 K. The dynamics of the hydrated samples shows a further anharmonic contribution appearing at a temperature Td = 230 – 240 K. Such dynamical behaviour is similar to the well-studied dynamical transition found in hydrated protein powders. The mean square displacements of dsDNA and ssDNA are practically superimposed in the whole temperature range for both dry and hydrated samples. This suggests that the DNA local mobility in the picosecond timescale does not depend on the single- or double-stranded conformation
Unfolding and aggregation of lysozyme: A thermodynamic and kinetic study by FTIR spectroscopy
International audienceThe unfolding of hen egg-white lysozyme dissolved both in DO and CHCHOD/DO was studied by Fourier Transform Infrared (FTIR) absorption spectroscopy at different protein concentrations. A detailed description of the local and global rearrangement of the secondary structure upon a temperature increase, in the range 295 to 365K, was obtained through the analysis of the amide I band. Thermodynamic parameters for the melting, and the effect of the co-solvent in determining a change in thermal stability of the protein were evaluated. The protein-protein interactions were also followed as a function of temperature: a strong dependence of the cluster stability and aggregation yield on the solvent composition was observed. Finally, FTIR spectra taken at successive time steps of the aggregation enabled intermolecular contacts to be monitored as a function of time, and kinetic information to be obtained showing that both unfolded and folded states of lysozyme act as reactants for the clustering event
Pressure effect on water dynamics in tert-butyl alcohol/water solutions
We report here a quasi-elastic neutron scattering (QENS) investigation of the effect of pressure on the diffusivity properties of water in a dilute aqueous solution of hydrophobic molecules (tert-butyl alcohol, TBA). The experiment was performed at fixed TBA concentration (0.02 molar fraction) by varying pressure from 1 to 2000 bar at two different temperatures (268 and 278 K). The quasi-elastic line-shapes have been analysed in terms of a model based on the memory function formalism. Our data indicate that, on increasing pressure up to 2000 bar, the diffusion coefficient of water in the TBA/water mixture exhibits a relative increase larger than that of pure water under the same thermodynamic conditions. The extent of this effect increases with decreasing temperature. The observed behaviour is described in terms of pressure-induced distortions of the H-bonded random network of liquid water