Background Tinea pedis is often chronic or recurrent, but not all individuals are equally susceptible to this infection. Dermatophytes are able to induce the expression of antimicrobial peptides and proteins (AMPs) in human keratinocytes and certain AMPs can inhibit the growth of dermatophytes. Objective The focus of this study was to analyse the secretion of relevant AMPs, especially RNase 7, human beta‐defensin‐2 (hBD‐2) and the S‐100 protein psoriasin (S100A7), in patients with confirmed tinea pedis. Methods To verify the diagnosis, skin scales were obtained from all patients (n = 13) and the dermatophytes were identified by potassium hydroxide mount, culture and molecular analysis. To determine the AMP concentrations, the lesional skin area of the foot was rinsed with a buffer that was subsequently analysed by ELISA. The corresponding area of the other unaffected foot as well as defined healthy skin areas of the forearm and forehead and samples from age and gender‐matched healthy volunteers served as controls. Results In tinea pedis patients the AMP concentrations were higher in lesional skin than in non‐lesional skin and in healthy skin of controls. In particular, concentrations of hBD‐2 and psoriasin were significantly elevated. Conclusions The induction of AMPs in tinea pedis might be triggered directly by the dermatophytes; furthermore, attendant inflammation and/or differentiation processes may play a role. Our results indicate that there is no defect in the constitutive expression and induction of the analysed AMPs by dermatophytes in the epidermis of affected patients. However, it is not known why the elevated AMP concentrations fail to efficiently combat dermatophyte growth.
IntroductionPreterm infants have an immature epidermis barrier function that may lead to an increased permeability to pathogens. On the surface of the human skin, antimicrobial peptides (AMPs) are important molecules of the innate immune system, have broad antimicrobial properties, and provide an essential role in integrity of the microbiome. Given the marked susceptibility of preterm infants to infection, we hypothesize a decreased expression of AMPs on the skin of preterm infants.Materials and methodsIn a prospective single-center study with 35 preterm and 20 term infants, we analyzed skin rinsing probes for the presence of the AMPs psoriasin (S100A7) and ribonuclease 7 (RNase 7) via enzyme-linked immunosorbent assay. Samples were taken from preterm infants < 34 0/7 weeks gestational age (mean ± SD gestational age, 28.8 ± 2.4 weeks) on days 0, 7, 14, and 28 after birth. Term infants (> 36 6/7 weeks) (controls) were washed on days 0 and 28.ResultsPsoriasin and RNase 7 were both expressed on skin of preterm and term infants and increased in concentration significantly over time. RNase 7 was more expressed in term infants on day 0 [preterm = 1.1 (0.7–2.9) vs. term = 2.0 (1.1–3.4) ng/ml, p = 0.017]. On day 28, premature infants showed higher values of psoriasin [preterm = 10.9 (5.6–14.2) vs. term = 6.3 (3.4–9.0) ng/ml, p < 0.001]. Notably, preterm infants with infectious or inflammatory context driven by histological proof of chorioamnionitis and early-onset or late-onset sepsis had higher concentrations of psoriasin as compared with non-affected preterm infants. After exclusion of infants with inflammatory hit, median concentrations of RNase 7 and psoriasin did not differ between preterm and full-term infants on days 0 and 28.DiscussionPsoriasin and RNase 7 concentrations increase over time on the skin of newborn infants and seem to play a role in the first defense against infection. This is of particularly interest as the role of AMPs on a maturing skin microbiome and its possible new prevention strategies is unclear and needs to be determined.
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