31 research outputs found
Differential response of human basophil activation markers: a multi-parameter flow cytometry approach
<p>Abstract</p> <p>Background</p> <p>Basophils are circulating cells involved in hypersensitivity reactions and allergy but many aspects of their activation, including the sensitivity to external triggering factors and the molecular aspects of cell responses, are still to be focused. In this context, polychromatic flow cytometry (PFC) is a proper tool to investigate basophil function, as it allows to distinguish the expression of several membrane markers upon activation in multiple experimental conditions. </p> <p>Methods</p> <p>Cell suspensions were prepared from leukocyte buffy coat of K2-EDTA anticoagulated blood specimens; about 1500-2500 cellular events for each tested sample, gated in the lymphocyte CD45dim area and then electronically purified as HLADRnon expressing/CD123bright, were identified as basophilic cells. Basophil activation with fMLP, anti-IgE and calcium ionophore A23187 was evaluated by studying up-regulation of the indicated membrane markers with a two-laser six-color PFC protocol.</p> <p>Results</p> <p>Following stimulation, CD63, CD13, CD45 and the ectoenzyme CD203c up-regulated their membrane expression, while CD69 did not; CD63 expression occurred immediately (within 60 sec) but only in a minority of basophils, even at optimal agonist doses (in 33% and 14% of basophils, following fMLP and anti-IgE stimulation respectively). CD203c up-regulation occurred in the whole basophil population, even in CD63non expressing cells. Dose-dependence curves revealed CD203c as a more sensitive marker than CD63, in response to fMLP but not in response to anti-IgE and to calcium ionophore.</p> <p>Conclusion</p> <p>Use of polychromatic flow cytometry allowed efficient basophil electronic purification and identification of different behaviors of the major activation markers. The simultaneous use of two markers of activation and careful choice of activator are essential steps for reliable assessment of human basophil functions.</p
Polydopamine‐Graphene Oxide Flame Retardant Nanocoatings Applied via an Aqueous Liquid Crystalline Scaffold
A highly effective flame retardant (FR) nanocoating was developed by conducting oxidative polymerization of dopamine monomer within an aqueous liquid crystalline (LC) graphene oxide (GO) scaffold coating. Due to its high water content, the LC scaffold coating approach facilitated fast transport and polymerization of dopamine precursors into polydopamine (PDA) within the water swollen interlayer galleries. Uniform and periodically stacked (14.5 Å d‐spacing) PDA/GO nanocoatings could be universally applied on different surfaces, including macroporous flexible polyurethane (PU) foam and flat substrates such as silicon wafers. Remarkably, PDA/GO coated PU foam exhibited highly efficient flame retardant performance reflected by a 65% reduction in peak heat release rate at 5 wt% PDA/GO loading in an 80 nm thick coating. While many physically mixed flame retardants are usually detrimental to the mechanical properties of the foam, the PDA/GO coating did not affect mechanical properties substantially. In addition, the PDA/GO coatings were stable in water due to the intrinsic adhesion capability of PDA and the transformation of GO to the more hydrophobic reduced GO form. Given that PDA is produced from dopamine, a molecule prevalent in nature, these findings suggest that significant opportunities exist for new polymeric FRs derived from other natural catechols
Bioinspired Catecholic Flame Retardant Nanocoating for Flexible Polyurethane Foams
An efficient, environmentally friendly,
and water-applied flame
retardant surface nanocoating based on polydopamine (PDA) was developed
for foamed materials such as polyurethane (PU). The PDA nanocoating,
deposited by simple dip-coating in an aqueous dopamine solution, consists
of a planar sublayer and a secondary granular layer structure that
evolve together, eventually turning into a dense, uniform, and conformal
layer on all foam surfaces. In contrast to flexible PU foams that
are known to be highly flammable without flame retardant additives,
micro combustion calorimetry (MCC) and thermogravimetric analysis
(TGA) confirm that the neat PDA is relatively inflammable with a strong
tendency to form carbonaceous, porous char that is highly advantageous
for flame retardancy. By depositing nanocoatings of PDA onto flexible
PU foams, the flammability of the PU foam was significantly reduced
with increasing coating thickness. For the thickest coating (3 days
of PDA deposition), the foam quickly self-extinguished and its original
shape was completely preserved after exposure to a flame in a torch
burn test. In addition to the char forming ability of PDA, it is hypothesized
that its catechol units likely scavenge nearby radicals that typically
evolve additional fuel for the fire as they attack surrounding materials.
This multiple flame retardancy action of PDA (i.e., char formation
+ radical scavenging) enables flame retardant foams with a peak heat
release rate (P-HRR) that is significantly reduced (up to 67%) relative
to control foams, representing much better performance than many conventional
additives reported in the literature at comparable or higher loadings
Vigilance and vigilantes: thinking psychoanalytically about anti-paedophile action
This paper applies a psychoanalytic approach to the protests of members of `Residents Against Paedophiles' on the Paulsgrove estate in Portsmouth, UK, in August 2000. It sets these in the context of the strains existing in the British government's policy on sexual offenders. It is argued that the protests demonstrate the existence of links between a vigilante state of mind and the `mind of state' that makes community members responsible for crime management. Evidence is provided by the protesters' fabrication of a `mental list' of convicted sex offenders that mimicked the official register. The paper concludes that access to information does not always have the effect of containing adults in such a way that enhances their capacity to act as `responsible' citizens