Journal
JOURNAL OF INVESTIGATIVE DERMATOLOGY
Volume 127, Issue 9, Pages 2259-2267Publisher
ELSEVIER SCIENCE INC
DOI: 10.1038/sj.jid.5700842
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To date, diabetes-associated skin ulcerations represent a therapeutic problem of clinical importance. The insulin-resistant type 11 diabetic phenotype is functionally connected to obesity in rodent models of metabolic syndrome through the release of inflammatory mediators from adipose tissue. Here, we used the impaired wound-healing process in obese/obese (ob/ob) mice to investigate the impact of obesity-mediated systemic inflammation on cutaneous wound-healing processes. Systemic administration of neutralizing monoclonal antibodies against tumor necrosis factor TNF) alpha (V1q) or monocyte/macrophage-expressed EGF-like modulecontaining mucin-like hormone receptor-like (Emr)-1 (F4/80) into wounded ob/ob mice at the end of acute wound inflammation initiated a rapid and complete neo-epidermal coverage of impaired wound tissue in the presence of a persisting diabetic phenotype. Wound closure in anti body-treated mice was paralleled by a marked attenuation of wound inflammation. Remarkably, anti-TNF alpha- and anti -F4/80-treated mice exhibited a strong reduction in circulating monocytic cells and reduced numbers of viable macrophages at the wound site. Our data provide strong evidence that anti-TNF x therapy, widely used in chronic inflammatory diseases in humans, might also exert effects by targeting activated TNF alpha-expressing macrophage subsets, and that inactivation or depletion of misbehaving macrophages from impaired wounds might be a novel therapeutic clue to improve healing of skin ulcers.
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