FTIR spectroscopy of NH3 on acidic and ionotropic alginate aerogels

The acidity of alginate aerogel films has been investigated by infrared spectroscopy of adsorbed NH(3). Supercritical drying of the alginate provided samples with a surface area of several hundred square meters per gram, in which the probe molecule could reach all acidic sites. Free carboxylic groups were studied on acid-gelled alginates and were found to behave as effective Br?nsted acid sites. Ionotropic alginate gels formed by alkaline earth cations presented only the Lewis acidity of the cations. Ionotropic gels formed by transition metal cations presented both Lewis and Br?nsted sites, because of the presence of a fraction of free carboxylic groups. The incomplete salification was correlated to the pH of the gelling solutions.     

Involvement of 14-3-3 protein post-translational modifications in Giardiaduodenalis encystation

14-3-3s are a family of phosphoserine/phosphothreonine binding proteins directly affecting many protein functions by regulating enzyme activity, intracellular localisation or mediating protein-protein interaction. The single 14-3-3 (g14-3-3) of the flagellated parasite Giardia duodenalis is phosphorylated at residue threonine 214 (T214) and polyglycylated at the extreme C-terminus in a stage-specific manner. To define the role of each post-translational modification, Giardia transgenic lines expressing a N-terminally FLAG-tagged g14-3-3, or the single point mutant T214A, or the E246A and the E247A mutants of the putative polyglycylation sites, were generated in this study. By affinity chromatography and MALDI-MS analysis, Glu246 was identified as the only site of polyglycylation. The absence of a polyglycine chain results in the nuclear localisation of the protein at any parasite life-stage, suggesting a role for polyglycylation in 14-3-3 nucleo/cytoplasm shuttling. Moreover, cyst formation was strongly induced in parasites expressing the E246A mutant and delayed in those harbouring the T214A mutant. Finally, in vitro overlay assays with a GST_T214E mutant indicated that phosphorylation can alter in vitro the binding properties of 14-3-3. The present data suggest that g14-3-3 post-translational modifications act in combination to affect encystation efficiency in Giardia.     

Screening of the essential oil composition of wild Sicilian rosemary

The qualitative and quantitative composition of the essential oils obtained from wild Sicilian rosemary plants (Rosmarinus officinalis L.) has been investigated. Samples were collected in Sicily after an ideal division of the island into three large areas, namely Val Mazara (M), Val di Noto (N) and Val Demona (D), according to an ancient and historical territorial subdivision of the island. The essential oils were obtained by hydrodistillation and analyzed by GC-FID-MS, identifying 100 compounds representing more than 96% of the oils. Monoterpenes, both hydrocarbons and oxygenated, were the most highly represented components: the former with a range of 21–68% and the latter with a range of 29–79%. On the basis of the results of this study, comprising a cluster analysis, and on the commonly accepted subdivision of rosemary essential oils, namely cineoliferum, verbenoniferum and camphoriferum chemotypes, most of the wild Sicilian rosemary samples must be classified as cineoliferum chemotype.     

Giardia Cysts in Wastewater Treatment Plants in Italy

Reductions in annual rainfall in some regions and increased human consumption have caused a shortage of water resources at the global level. The recycling of treated wastewaters has been suggested for certain domestic, industrial, and agricultural activities. The importance of microbiological and parasitological criteria for recycled water has been repeatedly emphasized. Among water-borne pathogens, protozoa of the genera Giardia and Cryptosporidium are known to be highly resistant to water treatment procedures and to cause outbreaks through contaminated raw or treated water. We conducted an investigation in four wastewater treatment plants in Italy by sampling wastewater at each stage of the treatment process over the course of 1 year. The presence of the parasites was assessed by immunofluorescence with monoclonal antibodies. While Cryptosporidium oocysts were rarely observed, Giardia cysts were detected in all samples throughout the year, with peaks observed in autumn and winter. The overall removal efficiency of cysts in the treatment plants ranged from 87.0 to 98.4%. The removal efficiency in the number of cysts was significantly higher when the secondary treatment consisted of active oxidation with O₂ and sedimentation instead of activated sludge and sedimentation (94.5% versus 72.1 to 88.0%; P = 0.05, analysis of variance). To characterize the cysts at the molecular level, the β-giardin gene was PCR amplified, and the products were sequenced or analyzed by restriction. Cysts were typed as assemblage A or B, both of which are human pathogens, stressing the potential risk associated with the reuse of wastewater.     

Bone morphogenetic protein 2-induced cellular chemotaxis drives tissue patterning during critical-sized bone defect healing: an in silico study

Critical-sized bone defects are critical healing conditions that, if left untreated, often lead to non-unions. To reduce the risk, critical-sized bone defects are often treated with recombinant human BMP-2. Although enhanced bone tissue formation is observed when BMP-2 is administered locally to the defect, spatial and temporal distribution of callus tissue often differs from that found during regular bone healing or in defects treated differently. How this altered tissue patterning due to BMP-2 treatment is linked to mechano-biological principles at the cellular scale remains largely unknown. In this study, the mechano-biological regulation of BMP-2-treated critical-sized bone defect healing was investigated using a multiphysics multiscale in silico approach. Finite element and agent-based modeling techniques were combined to simulate healing within a critical-sized bone defect (5 mm) in a rat femur. Computer model predictions were compared to in vivo microCT data outcome of bone tissue patterning at 2, 4, and 6 weeks postoperation. In vivo, BMP-2 treatment led to complete healing through periosteal bone bridging already after 2 weeks postoperation. Computer model simulations showed that the BMP-2 specific tissue patterning can be explained by the migration of mesenchymal stromal cells to regions with a specific concentration of BMP-2 (chemotaxis). This study shows how computational modeling can help us to further understand the mechanisms behind treatment effects on compromised healing conditions as well as to optimize future treatment strategies.

     

Melanoma and subcutaneous adipose tissue: Role of peritumoral adipokines in disease characterization and prognosis

In the last decades, the concept of adipose organ has emerged, giving adipose tissue an active endocrine and immunologic function through the secretion of multiple cytokines and chemokines that seem to be implicated in the development and progression of several cancer, including cutaneous melanoma. In this pilot experimental study, we analyzed the expression in the peritumor subcutaneous adipose tissue of the most significant adipokines involved in the processes of carcinogenesis and metastasis in a population of melanoma patients and in two control groups composed of melanocytic nevi and epidermoid cysts, respectively. We correlated the results obtained with the main disease prognostic factors observing a statistically significant increase in the expression of PAI1, LEP, CXCL1, NAMPT, and TNF-α at the level of the peritumor tissue of the melanoma samples compared to the control groups and a correlation of the same with the histopathological prognostic factor of melanoma. Our preliminary study shows that the overexpression of PAI1, LEP, CXCL1, NAMPT, and TNF-α may contribute to the growth and to the local aggressiveness of cutaneous melanoma. It opens the hypothesis of a direct oncogenic role of subcutaneous adipose tissue and adipokines in the tumorigenesis of melanoma.