Aspergillus fumigatus Postoperative Fasciitis and Peritonitis.

A 67 year-old male was admitted in the ICU because of multi-organ failure due to sepsis secondary to Fournier's gangrene. He had sustained radical prostatectomy in the last 48 hours. Peritoneal fluid and fatty tissue biopsies grew Aspergillus Fumigatus without concomitant pulmonary involvement. Postoperative acquisition via exogenous and endogenous routes is discussed, as this nosocomial entity is very rarely reported apart from peritoneal dialysis, especially in non-immunosuppressed patients.

Peroxisome proliferator-activated receptor-γ signalling protects hair follicle stem cells from chemotherapy-induced apoptosis and epithelial-mesenchymal transition.

BACKGROUND: Permanent chemotherapy-induced alopecia (pCIA), for which preventive interventions remain limited, can manifest with scarring. While the underlying pathomechanisms of pCIA are unclear, depletion of epithelial hair follicle (HF) stem cells (eHFSCs) is likely to play a role. OBJECTIVES: To explore the hypothesis that, besides apoptosis, eHFSCs undergo pathological epithelial-mesenchymal transition (EMT) in pCIA, thus explaining the scarring phenotype. Furthermore, we tested whether a peroxisome proliferator-activated receptor (PPAR)-γ modulator could prevent pCIA-associated pathomechanisms. METHODS: Organ-cultured human scalp HFs were treated with the cyclophosphamide metabolite 4-hydroperoxycyclophosphamide (4-HC). Additionally, HFs were pretreated with the agonistic PPAR-γ modulator N-acetyl-GED-0507-34-Levo (NAGED), which has previously been shown to promote K15 expression and antagonize EMT in eHFSCs. RESULTS: In accordance with anticipated hair bulb cytotoxicity, dystrophy and catagen induction, 4-HC promoted apoptosis along with increased p53 expression, DNA damage and pathological EMT in keratin 15+ (K15) eHFSCs, as evidenced by decreased E-cadherin expression and the appearance of fibronectin+ and vimentin+ cells in the hair bulge. Pretreatment with NAGED protected against 4-HC-induced hair bulb cytotoxicity/dystrophy, and apoptosis, p53 upregulation and EMT in the bulge, thereby significantly preventing depletion of K15+ human eHFSCs ex vivo. CONCLUSIONS: Since a key cyclophosphamide metabolite alone suffices to damage and deplete human scalp eHFSCs by promoting apoptosis, DNA damage and EMT ex vivo, strategies to prevent pCIA need to target these pathomechanisms. Given the ability of NAGED to prevent chemotherapy-induced eHFSCs damage ex vivo, our study introduces the stimulation of PPAR-γ signalling as a novel intervention strategy for the prevention of pCIA.

Theophylline exerts complex anti-ageing and anti-cytotoxicity effects in human skin ex vivo.

OBJECTIVE: Theophylline is a phosphodiesterase inhibitor that is being used clinically for asthma therapy. In addition, it is recognized as a cosmetic agent with possible anti-ageing and anti-oxidative properties. Nevertheless, how it affects human skin is still poorly examined. METHODS: Theophylline (10 or 100 µM) was administered to the culture medium of full-thickness human skin ex vivo for 24 or 72 h. RESULTS: Theophylline stimulated protein expression of the anti-oxidant metallothionein-1 and mRNA levels of collagen I and III. Assessment of fibrillin-1 immunohistology revealed enhanced structural stability of dermal microfibrils. Theophylline also exerted extracellular matrix-protective effects by decreasing MMP-2 and MMP-9 mRNA levels, partially antagonizing the effects of menadione, the potent, toxic ROS donor. In addition, it decreased menadione-stimulated epidermal keratinocytes apoptosis. Interestingly, theophylline also increased the level of intracutaneously produced melatonin, that is the most potent ROS-protective and DNA damage repair neuromediator, and tendentially increased protein expression of MT1, the melatonin receptor. Theophylline also increased the expression of keratin 15, the stem cell marker, in the epidermal basal layer but did not change mitochondrial activity or epidermal pigmentation. CONCLUSION: This ex vivo pilot study in human skin shows that theophylline possesses several interesting complex skin-protective properties. It encourages further examination of theophylline as a topical candidate for anti-ageing treatment.

OBJECTIF: la théophylline est un inhibiteur de la phosphodiestérase actuellement utilisée en clinique pour le traitement de l'asthme. En outre, elle est reconnue comme étant un agent cosmétique ayant des propriétés potentiellement anti-âge et antioxydantes. Cependant, la manière dont elle affecte la peau chez l'homme est encore très peu étudiée. MÉTHODES: de la théophylline (10 ou 100 µM) a été ajoutée dans le milieu de culture d'un échantillon de peau humaine d'épaisseur totale ex vivo pendant 24 ou 72 h. RÉSULTATS: la théophylline a stimulé l'expression de la métallothionéine-1, une protéine antioxydante, et les taux d'ARNm du collagène I et III. L'évaluation immunohistologique de la fibrilline-1 a révélé une meilleure stabilité structurale des microfibrilles du derme. La théophylline a également exercé des effets protecteurs sur la matrice extracellulaire en diminuant les taux d'ARNm des métalloprotéinases matricielles MMP-2 et MMP-9, neutralisant en partie les effets de la ménadione, puissant donneur d'espèces réactives de l'oxygène (ROS) toxiques. En outre, elle a diminué l'apoptose des kératinocytes épidermiques stimulés par la ménadione. Fait intéressant, la théophylline a également augmenté le taux de mélatonine produite de manière intra-cutanée, la mélatonine étant le plus puissant neuromédiateur protecteur contre les ROS et réparateur des lésions de l'ADN. Elle a augmenté de façon tendancielle l'expression de la protéine MT1, récepteur de la mélatonine. La théophylline a également augmenté l'expression de la kératine 15, marqueur de cellules souches, dans la couche basale épidermique, mais n'a pas modifié l'activité mitochondriale ou la pigmentation épidermique. CONCLUSION: cette étude pilote ex vivo réalisée sur de la peau humaine montre que la théophylline a plusieurs propriétés protectrices de la peau complexes et intéressantes. Ces résultats encouragent à poursuivre l'étude de la théophylline en tant que candidat à un traitement local anti-âge.

An osteopontin-derived peptide inhibits human hair growth at least in part by decreasing fibroblast growth factor-7 production in outer root sheath keratinocytes.

BACKGROUND: Given that unwanted hair growth (hirsutism, hypertrichosis) can cause major psychological distress, new pharmacological treatment strategies with safe and effective hair growth inhibitors that do not destroy the hair follicle (HF) and its stem cells need to be developed. OBJECTIVES: To establish if osteopontin-derived fragments may modulate human hair growth given that human HFs express the multifunctional, immunomodulatory glycoprotein, osteopontin. METHODS: Our hypothesis was tested ex vivo and in vivo by using a newly generated, toxicologically well-characterized, modified osteopontin-derived peptide (FOL-005), which binds to the HF. RESULTS: In organ-cultured human HFs and scalp skin, and in human scalp skin xenotransplants onto SCID mice, FOL-005 treatment (60 nmol L-1 to 3 µmol L-1 ) significantly promoted premature catagen development without reducing the number of keratin 15-positive HF stem cells or showing signs of drug toxicity. Genome-wide DNA microarray, quantitative reverse-transcriptase polymerase chain reaction and immunohistochemistry revealed decreased expression of the hair growth promoter, fibroblast growth factor-7 (FGF7) by FOL-005, while cotreatment of HFs with recombinant FGF7 partially abrogated FOL-005-induced catagen promotion. CONCLUSIONS: With caveats in mind, our study identifies this osteopontin-derived peptide as an effective, novel inhibitory principle for human hair growth ex vivo and in vivo, which deserves systematic clinical testing in hirsutism and hypertrichosis. What's already known about this topic? The treatment of unwanted hair growth (hypertrichosis, hirsutism) lacks pharmacological intervention, with only few and often unsatisfactory treatments available. Osteopontin is prominently expressed in human HFs and has been reported to be elevated during catagen in the murine hair cycle. What does this study add? We tested the effects on hair growth of a novel, osteopontin-derived fragment (FOL-005) ex vivo and in vivo. In human hair follicles, high-dose FOL-005 significantly reduces hair growth both ex vivo and in vivo. What is the translational message? High-dose FOL-005 may provide a new therapeutic opportunity as a treatment for unwanted hair growth.

Reconstructed human epidermis for in vitro studies on atopic dermatitis: A review.

Atopic dermatitis (AD) is a chronic inflammatory skin disease causing a strong impact on quality of life. Its pathophysiology is the result of complex interactions involving immunological, genetic and environmental factors. Although there are several published in vitro three-dimensional models mimicking AD, none of them have taken all these pathophysiological features into account; thus, finding the right model may be complicated. This paper reviews the literature on the different reconstructed epidermis models of AD as well as their relevance. We focused our attention on both the defect of the epidermal barrier and the inflammation linked to the immune system.

Influence of sensory neuropeptides on human cutaneous wound healing process.

BACKGROUND: Close interactions exist between primary sensory neurons of the peripheral nervous system (PNS) and skin cells. The PNS may be implicated in the modulation of different skin functions as wound healing. OBJECTIVE: Study the influence of sensory neurons in human cutaneous wound healing. METHODS: We incubated injured human skin explants either with rat primary sensory neurons from dorsal root ganglia (DRG) or different neuropeptides (vasoactive intestinal peptide or VIP, calcitonin gene-related peptide or CGRP, substance P or SP) at various concentrations. Then we evaluated their effects on the proliferative and extracellular matrix (ECM) remodeling phases, dermal fibroblasts adhesion and differentiation into myofibroblasts. RESULTS: Thus, DRG and all studied neuromediators increased fibroblasts and keratinocytes proliferation and act on the expression ratio between collagen type I and type III in favor of collagen I, particularly between the 3rd and 7th day of culture. Furthermore, the enzymatic activities of matrix metalloprotesases (MMP-2 and MMP-9) were increased in the first days of wound healing process. Finally, the adhesion of human dermal fibroblasts and their differentiation into myofibroblasts were promoted after incubation with neuromediators. Interestingly, the most potent concentrations for each tested molecules, were the lowest concentrations, corresponding to physiological concentrations. CONCLUSION: Sensory neurons and their derived-neuropeptides are able to promote skin wound healing.