Marcella Folin

Structural characterization and cell response evaluation of electrospun PCL membranes: micrometric versus submicrometric fibers.

Electrospinning is a valuable technique to fabricate fibrous scaffolds for tissue engineering. The typical nonwoven architecture allows cell adhesion and proliferation, and supports diffusion of nutrients and waste products. Poly(epsilon-caprolactone) (PCL) electrospun membranes were produced starting from 14% w/v solutions in (a) mixture 1:1 tetrahydrofuran and N,N-dimethylformamide and (b) chloroform. Matrices made up of randomly arranged uniform fibers free of beads were obtained. The average fiber diameters were (a) 0.8 +/- 0.2 microm and (b) 3.6 +/- 0.8 microm. PCL matrices showed the following tensile mechanical properties: tensile modulus (a) 5.0 +/- 0.7 MPa (b) 6.4 +/- 0.2 MPa, yield stress (a) 0.55 +/- 0.06 MPa (b) 0.43 +/- 0.02 MPa, and ultimate tensile stress (a) 1.7 +/- 0.2 MPa and (b) 0.8 +/- 0.1 MPa. The ultimate strain ranged between 300% and 400%. Cytotoxicity of electrospun membranes was continuously evaluated by means of electric cell-substrate impedance sensing technique using human umbilical vein endothelial cells (HUVEC). PCL matrices resulted free of toxic amounts of contaminants and/or process by-products. In vitro studies performed by culturing HUVEC on micrometric and submicrometric fibrous mats showed that both structures supported cell adhesion and spreading. However, cells cultured on the micrometric network showed higher vitality and improved interaction with the polymeric fibers, suggesting an increased ability to promote cell colonization.

Zinc content of normal human serum and its correlation with some hematic parameters.

Numerous studies have demonstrated that several diseases and stress conditions are associated with changes in the levels of zinc in the blood plasma and cellular elements. In this research the association between serum zinc concentrations and other hematic parameters of diagnostic interest has been evaluated. Quantitative determinations of zinc, total plasmatic proteins, albumin, hemoglobin and calculation of mean corpuscular volume were performed on blood samples from 58 males aged 20–61 years. Concentrations measured in our sample are comparable with reference values. Statistically significant correlation coefficients were found between age and albumin (r = - 0.562, P < 0.001), serum zinc and albumin (r = 0.328, P < 0.05), serum zinc and hemoglobin (r = 0.291, P < 0.05), and total plasmatic proteins and albumin (r = 0.463, P < 0.001). These correlation coefficients were significant even after adjustment for age effect. The determination of serum zinc concentration may be useful in the assessment of clinical scenarios. Particularly, it may provide additional information for the diagnosis of specific pathologies, such as hepatic malfunctions. It could also be useful in the identification of different stages of anemia.

Trace elements nutritional status : use of hair as a diagnostic tool

In this study, hair levels of Cu and Zn were determined in healthy male and female individuals (n=192) ages 3.6–14.5 yr and the correlations with Cu and Zn daily intakes were examined. Determinations of Cu and Zn concentrations were performed by way of atomic absorption spectrometry and X-ray fluorescence. Nutritional data were collected with the aid of an individual questionnaire. Statistical analysis revealed no effect of age and sex either on Cu concentrations in hair or on Cu daily intakes. Zn concentrations were significantly higher in hair of both pubescent males and females compared with prepubescent individuals. There was no influence of age on Zn daily intake in males, however, whereas pubescent girls had a lower intake than males. Correlation coefficients between Cu concentrations in hair and daily nutritional intakes calculated for males and females werer=0.1694 andr=0.1677, respectively; those for Zn werer=−0.2223 (p<0.05) in males andr=−0.2787 (p<0.01) in females. These data confirm that the analysis of Zn in hair represents an addition to conventional materials in the assessment of the nutritional status of groups of individuals.

Electrospun tubular scaffolds: On the effectiveness of blending poly(ε‐caprolactone) with poly(3‐hydroxybutyrate‐co‐3‐hydroxyvalerate)

Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed to overcome the well-known drawbacks of small-diameter grafts. To date, poly(ε-caprolactone) (PCL), a bioresorbable synthetic poly(α-hydroxyester), is considered one of the most promising materials for vascular tissue engineering. In this work, the potential advantage of intimate blending soft PCL and hard poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV), a polymer of microbial origin, has been evaluated. Nonwoven mats and small-diameter tubular scaffolds of PCL, PHBV, and PCL/PHBV were fabricated by means of electrospinning technique. Mechanical properties and suture retention strength were investigated according to the international standard for cardiovascular implants. Biological tests demonstrated that both PCL-based scaffolds supported survival and growth of rat cerebral endothelial cells in a short time. The fiber alignment of the electrospun tubular scaffolds contributed to a more rapid and homogeneous cell colonization of the luminal surface.

Comparative Effects of Aβ(1-42)-Al Complex from Rat and Human Amyloid on Rat Endothelial Cell Cultures

Metal ions are widely recognized as a key factor for the conformational changes and aggregation of the Alzheimers disease amyloid (Abeta). So far Al(3+) has received much less attention than other biometals in terms of interaction with Abeta. Brain endothelial cells have been identified as important regulators of the neuronal microenvironment, including Abeta levels. The purpose of this study is to compare the effects of the complex amyloid (Abeta(1-42))-Al, from human and rat, with the effects produced by metal-free Abeta on rat neuroendothelial cells (NECs). To establish Abeta and Abeta-Al toxicity on NECs, survival, vitality, and angiogenesis are evaluated. Cell survival is reduced by human and rat Abeta in a time-dependent manner. This toxic effect is remarkably pronounced in the presence of human Abeta-Al. Moreover, rat Abeta has anti-angiogenic properties on NECs, and this effect is aggravated dramatically by using both human and rat Abeta-Al complexes. The data and arguments presented herein clearly demonstrate the involvement of Al(3+) in Abeta aggregation and, consequently, increasing endothelial cell toxicity.

A cross-sectional study of homocysteine-, NO-levels, and CT-findings in Alzheimer dementia, vascular dementia and controls.

Repetitive measurement with neuroimaging techniques could be useful instruments permitting to differentiate between Alzheimer disease (AD) and vascular dementia (VD). The major genetic risk factor for the development of late-onset AD is the allele ε4 of the apolipoprotein E (ApoE). Moreover nitric oxide (NO) and homocysteine (Hcy) seems to be correlated with the degree of cognitive impairment in demented subjects. The aim of this study was to investigate the association between serum NO and Hcy levels, global brain atrophy and brain vascular lesion in AD and VD patients. We report that high plasma levels of homocysteine resulted associated with AD and VD, suggesting that in AD elevated plasma Hcy might be a consequence of concomitant vascular dementia. Otherwise, plasma NO levels were not significantly different in any of the groups. Moreover, neuroimaging measures of vascular lesion level could be of usefulness to differentiate between AD and VD.

Probing the topography of proteins in solution by photosensitized oxidation. The heme environment in horse heart ferrocytochrome c.

Abstract Irradiation of ferrocytochrome c by visible light at pH 8.2 induced the photooxidation of Trp-59, as well as that of Met-80 and His-18, which are the two protein ligands for Fe 2+ . When the irradiation was performed at pH 11.1, Tyr-48 was also photooxidized. A comparison of the present data with those obtained upon irradiation of ferricytochrome c suggests that in the ferrous protein, the side chains of Tyr-48 and Trp-59 are closer to the heme system than in the ferric derivative.

In vitro astrocyte and cerebral endothelial cell response to electrospun poly(ε-caprolactone) mats of different architecture

This work focuses on the evaluation of the potential use of electrospun poly(ε-caprolactone) (PCL) micrometric and/or sub-micrometric fibrous membranes for rat hippocampal astrocyte (HA) and rat cerebro-microvascular endothelial cell (CEC) cultures. Both mats supported cell adhesion, proliferation, cellular phenotype and spreading. Microfibrous mats allowed cellular infiltration, while both HAs and CECs were unable to migrate within the sub-micrometric fibrous mat, leaving an acellularized inner region. This finding was correlated to the presence of larger voids within electrospun PCL microfibrous mats, suggesting that the morphology should be accurately selected for the realization of a cell environment-mimicking mat. Based on our results, the proper fiber architecture can be regarded as a crucial issue to be considered in order to deal with suitable polymeric mats tailored for specific in vitro application.

Involvement of Rat Hippocampal Astrocytes in β-Amyloid-Induced Angiogenesis and Neuroinflammation

Although Alzheimers disease (AD) is considered a neurodengenerative disorders, in the last few years a large amount of evidence has suggested that it is also a vascular pathology characterized by increased capillary density and expression of angiogenic factors. In AD the endothelium degenerates, promoting local neuroinflammation and activation of brain endothelium, perivascular microglia, pericytes, astrocytes. Excess tumor necrosis factor (TNF) in the cerebrospinal fluid (CSF), at a concentration of 25 times higher than in the control group, has been demonstrated in AD. Recent studies provide evidence that treatment with TNF-α antagonists may result in a rapid cognitive improvement in AD patients. In the present work we investigated the role of astrocytes in AD angiogenesis and neuroinflammation by means of conditioned media of untreated and Aβ-treated rat hippocampal astrocytes (RHAs) on rat microvascular endothelial cells (RCECs). The results demonstrated that RHA media increase RCEC proliferation and capillary-like structure formation. Moreover RHAs secrete IL-1β and, only after the Aβ1-42 treatment, TNF-α promotes RCEC release of IL-1β, IL-6 and TNF-α. The removal of IL-1β, TNF-α and/or VEGF, a strong angiogenic inducer highly over-expressed in AD brains, by means of specific antibody-coated beads in RHA media affects RCEC release of IL-1β, IL-6 and TNF-α. We hypothesised that astrocytes contribute to AD angiogenesis and neuroinflammation by the direct release of pro-inflammatory cytokines. The effect of an anti-inflammatory agent, such as etanercept, decreased RCEC in vitro cytokine release. This could be compared to the effect found in our experiments with antibody anti TNF-α-coated beads.

PHOTOOXIDATION OF HORSE AND SPERM‐WHALE MYOGLOBIN SENSITIZED BY THE HEME GROUP

Abstract—The irradiation of horse and sperm‐whale Fe 3 * or Fe 2* myoglobins with visible light showed that axial ligands that render the heme diamagnetic (e.g. O2, CO or CN‐) endow the hemoproteins with a marked photosensitivity. In contrast, high‐spin myoglobins are unaffected by visible light. These findings appear to be of general validity for all hemo‐proteins and are in agreement with the involvment of the triplet state of the heme as the reactive intermediate. In all cases, the overall photoprocess occurs within a very narrow spatial range, leading to specific modification of these photooxidizable side chains adjacent to the chromophore. Therefore, this technique can be used to probe the environment of the prosthetic group in hemoproteins. In particular, our data suggest that, in horse myoglobin, histidines‐93 and ‐64 represent the heme‐linked and the distal imidazole groups, respectively; moreover, the thioether function of methionine‐131 must be nearer the heme in horse than in sperm‐whale myoglobin. The selectivity of the photoreaction can be further enhanced by a suitable choice of the sixth ligand, and/or by controlling the pH of the irradiated solution. For example, for both proteins, irradiation of the cyanide derivative results in specific photooxidation of the proximal histidine, whereas irradiation of horse CO‐ferromyoglobin at pH values below 6 causes specific photooxidation of methionine‐131. Consequently, this photooxidative procedure can also be utilized to monitor conformational changes upon binding of the heme with different ligands, as well as to achieve the selective modification of amino acid residues, which are usually buried inside the protein molecule.