184 research outputs found
Apparent color and Raman vibrational modes of the unconventional superconductor BiSrCaCuO exfoliated flakes
Studying and controlling the properties of individual exfoliated materials is
one of the first steps towards the fabrication of complex van der Waals
systems. However, prolonged exposure to ambient conditions can affect the
properties of very thin exfoliated materials altering their physical
properties. For this reason, it is imperative to employ versatile
characterization strategies compatible with reduced ambient exposure times. In
this work, we demonstrate that optical microscopy and Raman spectroscopy are
quick and non-invasive techniques to study flakes of the high-temperature
superconductor BiSrCaCuO (BSCCO-2212). The apparent
color of BSCCO-2212 exfoliated flakes on SiO/Si has been studied allowing a
rough and fast identification of the number of layers. Moreover, we find that
thin flakes have a refractive index of around 1.7 in the visible range and 0.5
for the absorption coefficient near the maximum at 550 nm. We determine the
optimal combination of illumination wavelength and substrate properties for the
identification of different numbers of unit cells of BSCCO-2212. In addition,
we report the hardening of the characteristic Raman modes at 116 cm and
460 cm as flake thickness decreases, possibly due to strain in the BiO
and CuO planes, respectively. Moreover, the evolution of the Raman modes
establishes a second approach to determine the thickness of BSCCO-2212 thin
flakes. As BSCCO-2212 is a challenging material to be due to its sensitivity to
ambient conditions deriving in an insulating state, the present work provides a
guide for the fabrication and characterization of complex van der Waals systems
paving the way for studying heterostructures based on unconventional
superconductors in the 2D limit
Bioadhesive properties of Gantrez nanoparticles
Bioadhesive nanoparticles have been proposed as carriers for the oral delivery of poorly available drugs and facilitate the use of this route. This work summarises some experiments describing the bioadhesive potential of Gantrez nanoparticles fluorescently labeled with rhodamine B isothiocyanate. The adhesive potential of Gantrez was found to be stronger when folded as nanoparticles than in the solubilised form. Conventional nanoparticles displayed a tropism for the upper areas of the gastrointestinal tract, with a maximum of adhesion 30 min post-administration and a decrease in the adhered fraction along the time depending on the given dose. The cross-linkage of nanoparticles with increasing amounts of 1,3-diaminopropane stabilised the resulting carriers and prolonged their half-life in an aqueous environment; although, the adhesive capacity of nanoparticles, the intensity and the relative duration of the adhesive interactions within the gut as a function of the cross-linking degree. Finally, nanoparticles were coated with either gelatin or albumin. In the first case, the presence of gelatin dramatically decreased the initial capacity of these carriers to interact with the gut mucosa and the intensity of these phenomenons. In the latter, bovine serum albumin coated nanoparticles (BSA-NP) showed an important tropism for the stomach mucosa without further significant distribution to other parts of the gut mucosa
Modeling of the In Vivo Antinociceptive Interaction between an Opioid Agonist, (+)-O-Desmethyltramadol, and a Monoamine Reuptake Inhibitor, (—)-O-Desmethyltramadol, in Rats
The pharmacokinetic-pharmacodynamic (pk-pd) characterization of the in vivo antinociceptive interaction between (+)-O-desmethyltramadol [(+)-M1] and (-)-O-desmethyltramadol [(-)-M1], main metabolites of tramadol, was studied in three groups of rats. (+)-M1 and (-)-M1, both with different pd properties, were studied under steady-state and nonsteady-state conditions, depending on the group. Plasma drug concentration and antinociception were simultaneously measured in each animal by using an enantioselective analytical assay and the tail-flick test, respectively. Respiratory depression also was evaluated in another series of experiments according to the same experimental conditions. The pk behavior was similar for both enantiomers and no significant (P >.05) interaction between two compounds was found at this level. However, a significant (P .05) respiratory effects were seen during or after (+)-M1 and (-)-M1 administration
Polymeric carriers for amphotericin B: in vitro activity, toxicity and therapeutic efficacy against systemic candidiasis in neutropenic mice
Objective: To study the toxicity and activity of two new amphotericin B formulations: poly(ε-caprolactone)
nanospheres coated with poloxamer 188 (AmB-NP) and mixed micelles with the same surfactant (AmB-MM).
Materials and methods: The toxicity of these formulations was evaluated in erythrocytes, J774.2 macrophages
and LLCPK1 renal cells, as well as in mice. Activity was determined in clinical isolates and in neutropenic
mice. Mice were made neutropenic with 5-fluorouracil, infected with Candida albicans and treated
with the antifungal formulations for three consecutive days. AmB association in cells and accumulation in
kidneys and liver of animals was quantified by HPLC.
Results: Both formulations decreased between 8- and 10-fold the MIC of the polyene against clinical isolates
of C. albicans. However, their activity was lower than or equal to that of AmB-deoxycholate when it was
assessed against C. albicans-infected macrophages. When given as a single intravenous dose in mice,
AmB-MM and AmB-NP had an LD50 of 9.8 and 18.6 mg/kg, respectively, compared with 4 mg/kg for AmBdeoxycholate.
Comparison of residual infection burdens in the liver and kidneys showed that AmB-deoxycholate
(0.5 mg/kg) was more effective and faster in eradicating yeast cells than polymeric formulations.
This fact can be related to a lower AmB accumulation inside macrophages and in liver and kidneys (about 1.5
mg drug/g tissue) of mice, compared with those detected for AmB-deoxycholate (4 mg drug/g). Overall, the
efficacy of these formulations at 2 mg/kg was equal to that of AmB-deoxycholate at 0.5 mg/kg.
Conclusions: AmB-MM and AmB-NP decreased the in vivo antifungal activity of AmB, and higher concentrations
were therefore necessary to obtain a similar therapeutic effect. However, these higher concentrations
were achievable owing to the reduced toxicity of these formulations
Attitudes of Germans towards distributive issues in the German health system
Social health care systems are inevitably confronted with the scarcity of resources and the resulting distributional challenges. Since prioritization implies distributional effects, decisions on respective rules should take citizens’ preferences into account. Thus, knowledge about citizens’ attitudes and preferences regarding different distributional issues implied by the type of financing health care is necessary to judge the public acceptance of a health system. In this study we concentrate on two distributive issues in the German health system: First, we analyse the acceptance of prioritizing decisions concerning the treatment of certain patient groups, in this case patients who all need a heart operation. Here we focus on the fact that a patient is strong smoker or a non-smoker, the criteria of age or the fact that a patient has or does not have young children. Second, we investigate Germans’ opinions towards income dependent health services. The results reveal strong effects of individuals’ attitudes regarding general aspects of the health system on priorities, e.g. that individuals behaving health demanding should not be preferred. In addition, experiences of limited access to health services are found to have a strong influence on citizens’ attitudes, too. Finally, decisions about different prioritization criteria are found to be not independent.
Regulator of calcineurin 1 modulates vascular contractility and stiffness through the upregulation of COX-2-derived prostanoids
Cyclooxygenase-2 (COX-2) derived-prostanoids participate in the altered vascular function and mechanical properties in cardiovascular diseases. We investigated whether regulator of calcineurin 1 (Rcan1) participates in vascular contractility and stiffness through the regulation of COX-2. For this, wild type (Rcan1+/+) and Rcan1-deficient (Rcan1-/-) mice untreated or treated with the COX-2 inhibitor rofecoxib were used. Vascular function and structure were analysed by myography. COX-2 and phospo-p65 expression were studied by western blotting and immunohistochemistry and TXA2 production by ELISA. We found that Rcan1 deficiency increases COX-2 and IL-6 expression and NF-κB activation in arteries and vascular smooth muscle cells (VSMC). Adenoviral-mediated re-expression of Rcan1.4 in Rcan1-/- VSMC normalized COX-2 expression. Phenylephrine-induced vasoconstrictor responses were greater in aorta from Rcan1-/- compared to Rcan1+/+ mice. This increased response were diminished by etoricoxib, furegrelate, SQ 29548, cyclosporine A and parthenolide, inhibitors of COX-2, TXA2 synthase, TP receptors, calcineurin and NF-κB, respectively. Endothelial removal and NOS inhibition increased phenylephrine responses only in Rcan1+/+ mice. TXA2 levels were greater in Rcan1-/- mice. In small mesenteric arteries, vascular function and structure were similar in both groups of mice; however, vessels from Rcan1-/- mice displayed an increase in vascular stiffness that was diminished by rofecoxib. In conclusion, our results suggest that Rcan1 might act as endogenous negative modulator of COX-2 expression and activity by inhibiting calcineurin and NF-kB pathways to maintain normal contractility and vascular stiffness in aorta and small mesenteric arteries, respectively. Our results uncover a new role for Rcan1 in vascular contractility and mechanical properties.This study was supported by Ministerio de Economia, Industria y Competitividad (MINECO) (SAF2012-36400 and SAF2016-80305-P), Institute de Salud Carlos III (ISCIII) (Red de Investigacion Cardiovascular, RD12/0042/0022 and RD12/0042/0024, CiberCV CB16/11/00286 and CB16/11/00264 and PI13/01488) Fondo Europeo de Desarrollo Regional (FEDER) a way to build Europe, Comunidad de Madrid (B2017/BMD-3676), COST BM1301 and Roche-IdiPaz. VE was supported by the Ramon y Cajal Program (RYC-2013-12880).S
Biogeochemistry of dissolved and suspended organic matter in the Cape Vert Frontal Zone (NW Africa)
Oral communicationThe Cape Verde Frontal Zone (CVFZ) in the southern boundary of the
Canary Current Upwelling Ecosystem, is a highly dynamic area,
featuring large vertical and horizontal export fluxes of organic matter
(OM) due to the interaction of the Cape Verde Front (CVF) with the
Mauritanian upwelling. To study the interplay between transport and
biogeochemical processes driving the distribution of OM in the CVFZ,
full-depth profiles of dissolved (DOM) and suspended particulate
(POM) OM were obtained during the FLUXES I cruise in August 2017.
Distributions of surface DOM and POM and their stoichiometry were
influenced by the mesoscale variability at the frontal region, showing
significant differences north and south of the CVF and between
stations close and distant to the Mauritanian coast. The C:N
molar ratio of DOM and POM showed average vertical gradients,
increasing from 12.1 and 8.0 in surface to 15.6 and 17.0 respectively
in deeps waters, deviating from the traditional Redfield ratio. In the
meso- and bathypelagic zones, meridional and cross-shore gradients
were detected within samples belonging to the same water mass,
indicating that their properties were re-shaped by biogeochemical
processes within the CVFZ. Correlations between apparent oxygen
utilization and OM indicate that DOM+POM contributed only to
8.1% of the carbon and 17.8% of the nitrogen
mineralisation in the water column, suggesting that the local carbon
demand is mainly supported by sinking POM and N containing
compounds are mineralised to a larger extend than C containing compoundsASL
The C-type lectin receptor CLECSF8 (CLEC4D) is expressed by myeloid cells and triggers cellular activation through syk kinase
11 pags, 7 figsCLECSF8 is a poorly characterized member of the "Dectin-2 cluster" of C-type lectin receptors and was originally thought to be expressed exclusively by macrophages. We show here that CLECSF8 is primarily expressed by peripheral blood neutrophils and monocytes and weakly by several subsets of peripheral blood dendritic cells. However, expression of this receptor is lost upon in vitro differentiation of monocytes into dendritic cells or macrophages. Like the other members of the Dectin-2 family, which require association of their transmembrane domains with signaling adaptors for surface expression, CLECSF8 is retained intracellularly when expressed in non-myeloid cells. However, we demonstrate that CLECSF8 does not associate with any known signaling adaptor molecule, including DAP10, DAP12, or the FcRγ chain, and we found that the C-type lectin domain of CLECSF8 was responsible for its intracellular retention. Although CLECSF8 does not contain a signaling motif in its cytoplasmic domain, we show that this receptor is capable of inducing signaling via Syk kinase in myeloid cells and that it can induce phagocytosis, proinflammatory cytokine production, and the respiratory burst. These data therefore indicate that CLECSF8 functions as an activation receptor on myeloid cells and associates with a novel adaptor molecule. Characterization of the CLECSF8-deficient mice and screening for ligands using oligosaccharide microarrays did not provide further insights into the physiological function of this receptor. © 2012 by The American Society for Biochemistry and Molecular Biology, Inc.This work was funded by the Wellcome Trust, the National Research Foundation, the Deutscher Akademischer Austauschdienst, the University of Cape Town, the UK Research Council Basic Technology Initiative “Glycoar-rays” (GRS/79268), and the UK Medical Research Council. A. S. P is a fellowof the Fundação para a Ciência e Tecnologia (SFRH/BPD/26515/2006, Portugal) and M. A. C. of the Consejo Superior de Investigaciones Cientificas, Programe “Junta para la Ampliación de Estudios” (JaeDoc/098/2011) cofinanced by the Fondo Social Europeo
Excitotoxic inactivation of constitutive oxidative stress detoxification pathway in neurons can be rescued by PKD1
Excitotoxicity, a critical process in neurodegeneration, induces oxidative stress and neuronal death through mechanisms largely unknown. Since oxidative stress activates protein kinase D1 (PKD1) in tumor cells, we investigated the effect of excitotoxicity on neuronal PKD1 activity. Unexpectedly, we find that excitotoxicity provokes an early inactivation of PKD1 through a dephosphorylation-dependent mechanism mediated by protein phosphatase-1 (PP1) and dual specificity phosphatase-1 (DUSP1). This step turns off the IKK/NF-κB/SOD2 antioxidant pathway. Neuronal PKD1 inactivation by pharmacological inhibition or lentiviral silencing in vitro, or by genetic inactivation in neurons in vivo, strongly enhances excitotoxic neuronal death. In contrast, expression of an active dephosphorylation-resistant PKD1 mutant potentiates the IKK/NF-κB/SOD2 oxidative stress detoxification pathway and confers neuroprotection from in vitro and in vivo excitotoxicity. Our results indicate that PKD1 inactivation underlies excitotoxicity-induced neuronal death and suggest that PKD1 inactivation may be critical for the accumulation of oxidation-induced neuronal damage during aging and in neurodegenerative disorders
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