Novel Sulfated Polysaccharides Disrupt Cathelicidins, Inhibit RAGE and Reduce Cutaneous Inflammation in a Mouse Model of Rosacea

Rosacea is a common disfiguring skin disease of primarily Caucasians characterized by central erythema of the face, with telangiectatic blood vessels, papules and pustules, and can produce skin thickening, especially on the nose of men, creating rhinophyma. Rosacea can also produce dry, itchy eyes with irritation of the lids, keratitis and corneal scarring. The cause of rosacea has been proposed as over-production of the cationic cathelicidin peptide LL-37.We tested a new class of non-anticoagulant sulfated anionic polysaccharides, semi-synthetic glycosaminoglycan ethers (SAGEs) on key elements of the pathogenic pathway leading to rosacea. SAGEs were anti-inflammatory at ng/ml, including inhibition of polymorphonuclear leukocyte (PMN) proteases, P-selectin, and interaction of the receptor for advanced glycation end-products (RAGE) with four representative ligands. SAGEs bound LL-37 and inhibited interleukin-8 production induced by LL-37 in cultured human keratinocytes. When mixed with LL-37 before injection, SAGEs prevented the erythema and PMN infiltration produced by direct intradermal injection of LL-37 into mouse skin. Topical application of a 1% (w/w) SAGE emollient to overlying injected skin also reduced erythema and PMN infiltration from intradermal LL-37.Anionic polysaccharides, exemplified by SAGEs, offer potential as novel mechanism-based therapies for rosacea and by extension other LL-37-mediated and RAGE-ligand driven skin diseases

Generation of eX vivo-vascularized Muscle Engineered Tissue (X-MET)

The object of this study was to develop an in vitro bioengineered three-dimensional vascularized skeletal muscle tissue, named eX-vivo Muscle Engineered Tissue (X-MET). This new tissue contains cells that exhibit the characteristics of differentiated myotubes, with organized contractile machinery, undifferentiated cells, and vascular cells capable of forming "vessel-like" networks. X-MET showed biomechanical properties comparable with that of adult skeletal muscles; thus it more closely mimics the cellular complexity typical of in vivo muscle tissue than myogenic cells cultured in standard monolayer conditions. Transplanted X-MET was able to mimic the activity of the excided EDL muscle, restoring the functionality of the damaged muscle. Our results suggest that X-MET is an ideal in vitro 3D muscle model that can be employed to repair muscle defects in vivo and to perform in vitro studies, limiting the use of live animals

Opportunistic customer claiming during service recovery

Although a potentially significant issue to managers and academics alike, opportunistic customer behavior in the service recovery context has been largely ignored. A multi-stage research program, comprising actual customer claims (Study 1), in depth customer interviews (Study 2) and three experimental studies (Studies 3, 4, 5), explored opportunistic customer claiming behavior during service recovery and yielded robust findings across methods, contexts and samples. Potential determinants of opportunistic claiming in a service recovery context were identified by drawing on the justice, self-concept maintenance and neutralization theories. The findings support the hypothesis that when experiencing lower distributive, procedural and interactional justice, respondents were more likely to be opportunistic in their claiming. Further more, consumers were more likely to be opportunistic when dealing with large compared to small firms, and when they were in one-time transactions compared to when they had an established relationship with the firm. Finally, increased claiming in general, and opportunistic claiming in particular, did not lead to increased satisfaction with the service recovery. © 2009 Academy of Marketing Science