Skin pharmacology : the official journal of the Skin Pharmacology Society最新文献

This study defines a modification of antioxidant systems by percutaneous absorption of fluocinolone acetonide. Total antioxidant status (TAS) provides an overall indication of antioxidant status. Superoxide dismutase (SOD), a primary antioxidant, accelerates the dismutation of the toxic superoxide radical produced during the oxidative energy processes into the less harmful molecules, hydrogen peroxide and molecular oxygen. We monitored the level of SOD and TAS in 7 males with psoriasis and 6 control subjects before and after a single application of fluocinolone acetonide 0.025% ointment to 90% of the body. The results showed that the plasma level of TAS was significantly increased (p < 0.02) at 24 h posttreatment. The erythrocytic level of SOD was significantly decreased (p < 0.01) only at 12 h after glucocorticosteroid application. The level of TAS and SOD in patients with psoriasis was also significantly increased (p < 0.01 for both situations) as compared to healthy controls. Our study suggests that fluocinolone acetonide as a therapeutic agent may play a role in the oxidative stress in skin diseases.

Although prior morphologic studies have shown that both polar and nonpolar materials permeate across the stratum corneum (SC) via a paracellular route, the actual pathway through these heterogeneous domains is unknown. We applied hydrophilic and hydrophobic tracers in vivo to murine skin under basal conditions and/or after permeation enhancement with occlusion, vehicle enhancers, a lipid synthesis inhibitor, sonophoresis, and iontophoresis. Ruthenium tetroxide, ruthenium red plus osmium tetroxide, in situ precipitation with osmium vapor, and microwave postfixation methods were used to visualize penetration pathways. Tracers invariably localized to discrete lacunar domains embedded within the extracellular lamellar membrane system, regardless of their polarity or the enhancement method. Moreover, while the lacunar domains remained discontinuous under basal conditions, they appeared to gain structural continuity with permeation enhancement. These results indicate that extracellular lacunar domains comprise a pore pathway for penetration of polar and nonpolar molecules across the SC.

Using a new computerized methodological procedure a separate analysis and a quantitative determination of the viscous and elastic parameters of the scalp hair shaft were performed in 37 neonates of both sexes with a gestational age of 28-29 weeks (n = 16) and 39-40 weeks (n = 21), respectively. A statistically significant (p < 0.001) decrease in the values of modulus of elasticity (E alpha) was found in the hair shaft of premature neonates, as compared to the full-term ones, whereas the values of post yield slope (E beta) and of SDIS/SSTOR (viscous parameter) did not significantly differ in the two groups. The decrease in modulus of elasticity in the hair shaft of premature neonates may be interpreted in terms of an insufficient number of disulphide bonds between the alpha-helical keratin units of the hair cortex or of a disordered arrangement of microfibrils within the matrix. Further studies are now warranted to determine the pattern of mechanical parameters of the scalp hair shaft in large numbers of newborn infants of different gestational ages and to answer the question as to whether this pattern might be useful in the accurate postnatal assessment of fetal maturation.

The 5-lipoxygenase (5-LO) product of arachidonic acid, leukotriene (LT-)B4, is considered to play a significant role in the pathogenesis of psoriasis. In vitro LTB4 is a potent chemoattractant for leukocytes, and it increases DNA synthesis in human cultured keratinocytes. Intradermal injection of LTB4 into human skin in vivo results in a wheal and flare reaction, and topical application produces intraepidermal microabscesses and induces hyperproliferation. Furthermore, LTB4 has been determined in biologically active amounts in psoriatic skin lesions. Despite the importance of LTB4 in psoriasis, the capacity of the human epidermis to synthesize LTB4 has remained controversial. Recently, a very limited 5-LO activity was reported in human epidermis. Thus, it was shown that human epidermis can contribute significantly to LT formation by transcellular LT synthesis. By this mechanism, LTA4 released from activated leukocytes is further transformed into LTB4 in the keratinocytes by the LTA4 hydrolase. Transcellular metabolism may be of importance in psoriasis where neutrophils migrate into the epidermis, because in human neutrophils the LTA4 hydrolase has been shown as the rate-limiting step in LTB4 formation. The LTA4 hydrolase was localized in the epidermis by activity determination, by inhibition of enzyme activity with known LTA4 hydrolase inhibitors, by Western blotting and by immunohistochemical staining. Moreover the enzyme was purified and further characterized from human cultured keratinocytes and human epidermis. Because of these recent results it is concluded that LTB4 is of significance in the pathogenesis of psoriasis, and it is suggested that future work should focus on developing potent LTA4 hydrolase inhibitors for treatment of psoriasis.

Ginkgo biloba studies have focused on the anti-inflammatory effects of the major components, ginkgolide and bilobalide, whereas little is known about their effect on fibroblasts. This study demonstrated the enhancing effects of Ginkgo L. extracts, especially the flavonoid fractions: quercetin, kaempferol, sciadopitysin, ginkgetin, isoginkgetin, on the proliferation of normal human skin fibroblast in vitro measured by MTT (3-[4,5-dimethylthiazole-2-yl]-2,5-diphenyl-tetrazolium bromide) assay and direct hemocytometer cell count. Furthermore, increased production of collagen and extracellular fibronectin were documented by radioisotope (2,3-3H-proline) incorporated collagen assay, procollagen type I C-peptide assay and by immunoturbidimetric assay. These proliferative effects suggest another useful pharmacologic application of Ginkgo L. extracts in addition to their well-known anti-inflammatory effect.

Minoxidil is the most used drug with proved effects in the treatment of androgenetic alopecia (AGA), but little is known about its pharmacological activity and target cells in hair follicles. As AGA is characterized by follicle atrophy, accelerated hair cycles and hair fiber thinning, we postulated that keratinocyte proliferation/differentiation is affected and we tested Minoxidil's effects on those parameters. Normal human keratinocytes (NHK) of follicular or epidermal origin were cultured in the presence of Minoxidil (0, 0.1, 1, 10, 100, 1,000 microM) during 5-8 days in various media (high-/low-calcium content, with or without serum). Proliferation was assessed by mitochondrial dehydrogenase activity (XTT), BrdU incorporation, lysosome numeration (neutral red incorporation) and total protein dosage. Drug-induced cytotoxicity was measured by lactate dehydrogenase release in culture supernatant, and pro-differentiating effects were evaluated by relative involucrin expression (ELISA dosage). On this basis, we showed that Minoxidil had biphasic effects on the proliferation and differentiation of NHK: Minoxidil stimulated NHK proliferation at micromolar doses, while antiproliferative, pro-differentiative and partially cytotoxic effects were observed with millimolar concentrations. We can hypothesize that Minoxidil hypertrichotic activity in vivo is possibly mediated by the maintenance of proliferative potential in follicular keratinocytes precociously committed to differentiation.

The European Community directive, imposing that effects claimed for cosmetic actives must be validated using non-animal procedures, has stimulated the use of in vitro models for pharmacotoxicological trials. In this paper, an efficacy study of a new biopeptide, a hydrolysate obtained by fermentation of milk proteins, was performed using an in vitro skin equivalent (SE). This SE is obtained by seeding normal human keratinocytes onto a dermal equivalent comprising a collagen-glycosaminoglycan(GAG)-chitosan porous matrix populated by normal human fibroblasts, which neosynthesize their own extracellular matrix (ECM). A gel containing 2% milk biopeptide was applied topically (10 microliters) every 2 days during 15 days. Subsequent investigations of the biopeptide effects were based on morphological criteria after histological analysis and on synthesis of ECM components. Collagen and GAG synthesis were measured by tritiated proline, glucosamine and Na2(35)SO4 incorporation. Qualitatively, the histological features of the biopeptide-treated SEs showed a thicker epidermis than the untreated control SEs, where only a few layers of stratum corneum were observed. The dermal porous matrix seems to be more filled by neosynthesized ECM than the control. Quantitatively, milk biopeptide treatment induced a significant activation of hyaluronic acid (+46%) and sulfated GAG (+53%) synthesis, whereas only non-significant increases of total protein and collagen synthesis were observed (Student's test, p < 0.001).

Daily treatments of skin in hairless mice with concentrates of rice wine, Japanese traditional alcohol, lowered transepidermal water loss levels compared to the controls on the 3rd day after ultraviolet B (UVB) irradiation. These findings indicate that the concentrates of rice wine suppress the murine skin barrier disruption caused by UVB. Ethyl alpha-D-glucoside (alpha-ethylglucoside), one of the peculiar components in rice wine, showed the same effect, whereas beta-ethylglucoside had no effect. In order to clarify the functions of alpha-ethylglucoside on murine skin, we examined the effects of this compound on the expression of some phenotypes in human keratinocytes in vitro. As a result, alpha-ethylglucoside as well as beta-ethylglucoside enhanced cell proliferation weakly, and the formation of cornified envelopes and differentiated type keratin (K1) in keratinocytes was accelerated by alpha-ethylglucoside but not by beta-ethylglucoside. From the results, we conclude that alpha-ethylglucoside enhanced the differentiation of keratinocytes, which might be related to reduced barrier disruption by UVB.

Background: Topical corticoids decrease de novo collagen synthesis in the human skin.

Objective: We studied the effect of three corticoids, hydrocortisone (HC), methylprednisolone aceponate (MPA) and momethasone furoate (MMF) on the de novo synthesis of type I and III collagens.

Methods: Fifteen healthy male volunteers treated four areas marked on their abdominal skin for 1 week. HC was applied twice a day, MPA and MMF once a day plus vehicle once a day and vehicle twice a day. After the treatment, suction blisters were induced on the treated areas, the suction blister fluid (SBF) was collected and procollagen propeptides of type I and III procollagens (PINP, PIIINP, respectively) were analyzed by radioimmunological assays. The protein concentration in SBF was determined by a colorimetric method.

Results: All the corticoids studied decreased the procollagen propeptide concentrations in SBF. HC decreased PINP concentration by 66%, MPA by 68% and MMF by 72%. HC decreased PIIINP by 62%, MPA by 68% and MMF by 72%. The protein concentration in SBF was decreased by 11-15% by these topical corticoids.

Conclusion: HC decreases the concentration of procollagen propeptides in human skin in males to nearly the same extent as MPA and MMF.

Using a model of pure epidermal wounds in normal human volunteers, we have studied the effects of Biafine emulsion firstly on inflammatory cell migration, vascular permeability and cytokine release during the first 24 h, and secondly on epidermal wound healing by measuring transepidermal water loss from day 1 to day 7. Under these conditions, Biafine does not improve epidermal healing, in contrast to what is observed with bleeding dermoepidermal wounds. Our results suggest that the effects of Biafine are essentially at the dermis level. The analysis of epidermal wound exudates leads to the same conclusion. As a matter of fact, we demonstrated that Biafine is chemotactic for macrophages and increases the IL-1/IL-6 ratio, chiefly by reducing the secretion of IL-6. This study permits to progressively clarify the mode of action of Biafine, that seems to be located at the level of granulation tissue formation and not at the epidermal level.