Expression of the B7/BB1 Activation Antigen and its Ligand CD28 in T-Cell-Mediated Skin Diseases

Interactions of CD28 (on T cells) with its recently identified ligand B7/BB1 (on antigen-presenting cells) have been shown to activate T cells via a major histocompatibility complex/Ag-independent “alternative” pathway, leading to an amplification of T- cell – mediated immune responses. The in vivo relevance of these molecules for cutaneous immunity is presently unknown. These findings prompted us to study the expression of B7/BB1 and CD28 in normal human skin and in selected T-cell – mediated inflammatory skin diseases. Biopsies were obtained from lesional skin of patients with allergic contact dermatitis, lichen planus, and, as control, from basal cell carcinoma and from healthy controls. Serial cryostat sections were stained with a panel of MoAbs directed against CD28, B7/BB1, CD3, CD1a, and KiM8 using immunohistochemistry (ABC technique). CD28 expression was observed in the majority of dermal and epidermal CD3+ T cells in contact dermatitis and lichen planus. In normal skin and basal cell carcinoma, CD28 was expressed only occasionally by perivascular T cells. In allergic contact dermatitis and lichen planus, B7/BB1-expression was found on dermal dendritic cells, on dermal macrophages, on Langerhans cells, focally on keratinocytes, and occasionally on dermal T cells. No B7/BB1 immunoreactivity was detected in normal skin and basal cell carcinoma. These findings indicate that T-cell – mediated skin diseases are accompanied by an influx of CD28+ T cells and an upregulation of B7/BB1 on cutaneous antigen- presenting cells, keratinocytes, and on some T cells. We speculate that “alternative” T cell-activation via the B7/CD28 pathway may contribute to the pathogenesis of these skin diseases

Coagulation factor XIII: a multifunctional transglutaminase with clinical potential in a range of conditions

Coagulation Coagulation factor XIII (FXIII), a plasma transglutaminase, is best known as the final enzyme in the coagulation cascade, where it is responsible for cross-linking of fibrin. However, a growing body of evidence has demonstrated that FXIII targets a wide range of additional substrates that have important roles in health and disease. These include antifibrinolytic proteins, with cross-linking of alpha(2)-antiplasmin to fibrin, and potentially fibrinogen, being the principal mechanism(s) whereby plasmin-mediated clot degradation is minimised. FXIII also acts on endothelial cell VEGFR-2 and alpha(v)beta(3) integrin, which ultimately leads to downregulation of the antiangiogenic protein thrombospondin-1, promoting angiogenesis and neovascularisation. Under infectious disease conditions, FXIII cross-links bacterial surface proteins to. fibrinogen, resulting in immobilisation and killing, while during wound healing, FXIII induces-cross-linking of the provisional matrix. The latter process has been shown to influence the interaction of leukocytes with the provisional extracellular matrix and promote wound healing. Through these actions, there are good rationales for evaluating the therapeutic potential of FXIII in diseases in which tissue repair is dys-regulated or perturbed, including systemic sclerosis (scleroderma), invasive bacterial infections, and tissue repair, for instance healing of venous leg ulcers or myocardial injuries. Adequate levels of FXIII are also required in patients undergoing surgery to prevent or treat perioperative bleeding, and its augmentation in patients with/at risk for perioperative bleeding may also have potential clinical benefit. While there are preclinical and/or clinical data to support the use of FXIII in a range of settings, further clinical evaluation in these underexplored applications is warranted

Repigmentation by outer-root-sheath-derived melanocytes: proof of concept in vitiligo and leucoderma

BACKGROUND: Treatment of depigmented skin is an unmet medical need. OBJECTIVE: Melanocytes or stem cells thereof residing in the outer root sheath (ORS) of hair follicles might be used to repigment skin. METHODS: After de-epidermisation, autologous ORS cell solutions were applied to 5 patients with vitiligo and 1 with leucoderma. RESULTS: Stable repigmentation in a variable percentage was documented in all the patients. CONCLUSION: Applying ORS-derived melanocytes is a promising technology to improve autologous melanocyte transplantation

Adaptive compression therapy for venous leg ulcers: a clinically effective, patient-centred approach

A prospective, randomised, 12-week study was performed to evaluate the efficacy and tolerability of two compression methods for venous leg ulcers (VLUs); a new adaptive compression therapy (ACT) system, combining intermittent and sustained pneumatic compression (n = 38) and a conventional four-layer bandage system (n = 52). Primary outcomes were ulcer healing and safety. Secondary outcomes were comfort, compliance, ulcer pain, patient-perceived product performance and quality of life. Ulcer healing rate was similar (31·6% versus 42·3%, respectively, P = 0·30) between the treatments. Adverse events and patient-rated comfort were also similar. Average daily usage for the dual system was 10·5 and 1·8 hours in the sustained and intermittent modes, respectively, representing its use during 71% of waking hours. Predicted final ulcer pain was also similar (P = 0·68). Performance was subjectively better for adaptive compression and significantly higher for exudate management (P = 0·04), skin protection (P < 0·001), removal ease (P = 0·0007), bathing (P < 0·0001) and sleep comfort (P = 0·0405). The adjusted final quality-of-life score was 0·1025 higher for adaptive compression (P = 0·0375). Subjects with healed ulcers attained higher final scores than unhealed subjects (P = 0·0004). This study provides evidence that ACT is comparably efficacious to successfully heal VLUs compared with four-layer bandage management but is better accepted and achieves higher patient-reported quality-of-life scores in these challenging patients

Evaluation of the Efficacy, Safety, and Tolerability of 3 Dose Regimens of Topical Sodium Nitrite With Citric Acid in Patients With Anogenital Warts A Randomized Clinical Trial

IMPORTANCE Anogenital warts are a common disorder associated with significant physical and mental distress and a substantial cause of health care costs. OBJECTIVE To assess the efficacy of the topical application of nitric oxide delivered using acidified nitrite. DESIGN, SETTING, AND PARTICIPANTS A multicenter, randomized, controlled, dose-ranging clinical trial was conducted in European genitourinary medicine clinics between December 20, 2001, and January 14, 2003. Analysis was by intent to treat for all individuals initiating therapy. Participants included male and female volunteers older than 18 years with between 2 and 50 external anogenital warts. A total of 299 individuals from 40 centers were randomized to a control arm and a treatment arm that received 3 doses of acidified nitrite applied topically for 12 weeks with an additional 12 weeks of follow-up, with the final follow-up visit on January 14, 2003. INTERVENTIONS Placebo nitrite cream and placebo citric acid cream were applied twice daily. Active treatment was divided as low dose (sodium nitrite, 3%, with citric acid, 4.5%, creams applied twice daily), middle dose (sodium nitrite, 6%, with citric acid, 9%, creams applied once daily at night, with placebo applied in the morning), and high dose (sodium nitrite, 6%, with citric acid, 9%, creams applied twice daily). MAIN OUTCOMES AND MEASURES The primary outcome was proportion of patients with complete clinical clearance of target warts; secondary outcomes were reduction in target wart area and safety. RESULTS Complete clinical clearance at 12 weeks occurred in 10 of 74 patients (14%; 95% CI, 6%-21%) with placebo; 11 of 72 (15%; 95% CI, 7%-24%) with low-dose treatment; 17 of 74 (23%; 95% CI, 13%-33%) with middle-dose treatment; and 22 of 70 (31%; 95% CI, 21%-42%) with high-dose treatment (P = .01). Reduction in target wart area, time to clearance, and patient and investigator assessments supported the superiority of the high-dose therapy vs placebo. There were no systemic or serious adverse events associated with treatment. However, there was a dose-related increase in itching, pain, edema, and staining of the anogenital skin associated with the active treatment. Overall, 21 patients withdrew from active treatment because of adverse events compared with none using placebo. CONCLUSIONS AND RELEVANCE Use of sodium nitrite, 6%, with citric acid, 9%, twice daily is more effective than placebo in the treatment of anogenital warts. Treatment was associated with local irritant adverse effects

Randomized standard-of-care-controlled trial of a silica gel fibre matrix in the treatment of chronic venous leg ulcers

Background: Chronic venous leg ulcers (CVU) are a common, unresolved medical problem. Silica gel fibre (SGF) is a novel biodegradable inorganic material developed to serve as a carrier substrate for the local release of pharmaceutical agents facilitating tissue repair. Objectives: To assess the performance and safety of SGF in subjects with CVU. Methods: Open, randomized, standard-of-care-controlled, multi-centre trial. Subjects (ITT 120 patients) received either SGF in addition to standard treatment or standard-of-care treatment (S-o-C) alone. The primary performance variable was the time to healing of the target ulcer until the end of a 12 week treatment period. Results: SGF was well tolerated. Mean time to healing up to week 12 was 85.62 days for the SGF group (SE +/- 1.5) and 79.66 days for the S-o-C group (SE +/- 1.77) (p-value = 0.217). There was no statistically relevant difference regarding the incidence of complete healing of the target ulcers by weeks 12 and 24 between the SGF and the S-o-C groups (p-value >0.05). Conclusion: SGF is well tolerated and offers a promising perspective as a carrier substrate for the local release of active pharmaceutical agents into the wound site to promote tissue repair