Two C18 hydroxy-cyclohexenone fatty acids from mammalian epidermis: Potential relation to 12R-lipoxygenase and covalent binding of ceramides.

A key requirement in forming the water permeability barrier in the mammalian epidermis is the oxidation of linoleate esterified in a skin-specific acylceramide by the sequential actions of 12R-lipoxygenase, epidermal lipoxygenase-3, and the epoxyalcohol dehydrogenase SDR9C7 (short-chain dehydrogenase-reductase family 7 member 9). By mechanisms that remain unclear, this oxidation pathway promotes the covalent binding of ceramides to protein, forming a critical structure of the epidermal barrier, the corneocyte lipid envelope. Here, we detected, in porcine, mouse, and human epidermis, two novel fatty acid derivatives formed by KOH treatment from precursors covalently bound to protein: a "polar" lipid chromatographing on normal-phase HPLC just before omega-hydroxy ceramide and a "less polar" lipid nearer the solvent front. Approximately 100 µg of the novel lipids were isolated from porcine epidermis, and the structures were established by UV-spectroscopy, LC-MS, GC-MS, and NMR. Each is a C18 fatty acid and hydroxy-cyclohexenone with the ring on carbons C9-C14 in the polar lipid and C8-C13 in the less polar lipid. Overnight culture of [14C]linoleic acid with whole mouse skin ex vivo led to recovery of the 14C-labeled hydroxy-cyclohexenones. We deduce they are formed from covalently bound precursors during the KOH treatment used to release esterified lipids. KOH-induced intramolecular aldol reactions from a common precursor can account for their formation. Discovery of these hydroxy-cyclohexenones presents an opportunity for a reverse pathway analysis, namely to work back from these structures to identify their covalently bound precursors and relationship to the linoleate oxidation pathway.

Investigation of stratum corneum cell morphology and content using novel machine-learning image analysis.

BACKGROUND: The morphology and content of stratum corneum (SC) cells provide information on the physiological condition of the skin. Although the morphological and biochemical properties of the SC are known, no method is available to fully access and interpret this information. This study aimed to develop a method to comprehensively decode the physiological information of the skin, based on the SC. Therefore, we established a novel image analysis technique based on artificial intelligence (AI) and multivariate analysis to predict skin conditions. MATERIALS AND METHODS: SC samples were collected from participants, imaged, and annotated. Nine biomarkers were measured in the samples using enzyme-linked immunosorbent assay. The data were then used to teach machine-learning models to recognize individual SC cell regions and estimate the levels of the nine biomarkers from the images. Skin physiological indicators (e.g., skin barrier function, facial analysis, and questionnaires) were measured or obtained from the participants. Multivariate analysis, including biomarker levels ​​and structural parameters of the SC as variables, was used to estimate these physiological indicators. RESULTS: We established two machine-learning models. The accuracy of recognition was assessed according to the average intersection over union (0.613), precision (0.953), recall (0.640), and F-value (0.766). The predicted biomarker levels significantly correlated with the measured levels. Skin physiological indicators and questionnaire answers were predicted with strong correlations and correct answer rates. CONCLUSION: Various physiological skin conditions can be predicted from images of the SC using AI models and multivariate analysis. Our method is expected to be useful for dermatological treatment optimization.

Genome-wide association studies in the Japanese population identified genetic loci and target gene associated with epidermal turnover.

The epidermis is an essential organ for life by retaining water and as a protective barrier. The epidermis is maintained through metabolism, in which basal cells produced from epidermal stem cells differentiate into spinous cells, granular cells and corneocytes, and are finally shed from the epidermal surface. This is epidermal turnover, and with aging, there is a decline in epidermis function. Other factors that may affect epidermal turnover include ultraviolet damage and genetic factors. These genetic factors are of particular interest as little is known. Although recent skin-focused genome-wide association studies (GWAS) have been conducted, the genetic regions associated with epidermal turnover are almost uninvestigated. Therefore, we conducted a GWAS on epidermal turnover in the Japanese population, using the corneocyte area, which correlates to the rate of epidermal turnover, as an indicator. As a result, rs2278431 (p = 1.29 × 10-7 ) in 19q13.2 was associated with corneocyte size. Furthermore, eQTL analysis suggested that rs2278431 was related to the SPINT2 gene. In addition, SPINT2 knockdown studies using epidermal keratinocytes revealed that SPINT2 is involved in keratinocyte proliferation and in corneocyte size regulation in reconstructed epidermis. These results suggest that rs2278431 is involved in the expression of SPINT2 and affects epidermal turnover.

Staining of stratum corneum with fluorescent ε-poly-L-lysine and its application to evaluation of skin conditions.

BACKGROUND: ε-Poly-L-lysine (PLL) is a cationic polymer consisting of 25 to 35 L-lysine residues that adheres to the surface of skin as well as hair. However, the properties of PLL regarding its adhesion to the skin remain to be elucidated. In this study, we examined the staining of stratum corneum (SC) with fluorescence-labeled PLL and explored its relationship with skin condition. MATERIALS AND METHODS: Alexa Fluor 488-labeled PLL (AF-PLL) was reacted with tape-stripped stratum corneum (SC), and the staining properties were monitored by fluorescence microscopy. Clinical study was performed by measuring the water content of the cheek SC and transepidermal water loss (TEWL), and the tape-stripped SC was subjected to staining with AF-PLL. RESULTS: AF-PLL staining of the SC was inhibited at acidic pH or by the addition of high concentration of salt solution, suggesting the involvement of ionic interaction between PLL and the SC, at least in part. The AF-PLL staining was inhibited by unlabeled PLL or various alkyl amines, but not by L-lysine monomer. AF-PLL staining was observed inside the corneocytes as well as surrounding cornified envelope. Clinical study revealed that AF-PLL staining intensity of the SC was negatively correlated with its water content and positively correlated with its TEWL. CONCLUSION: PLL can efficiently adhere to SC and AF-PLL staining of SC can be applied to evaluate skin conditions.

Linoleate-Containing Acylglucosylceramide, Acylceramide, and Events Associated with Formation of the Epidermal Permeability Barrier.

BACKGROUND: Linoleate-containing acylglucosylceramide (GLC-CER[EOx], where x = sphingosine [S], dihydrosphingosine [dS], phytosphingosine (P), or 6-hydroxysphingosine [H]) in the viable epidermis serve as the precursors to the linoleate-containing acylceramides (CER[EOx]) in the stratum corneum (SC) and the corneocyte lipid envelope (CLE), both of which are essential for the barrier function of the skin. SUMMARY: CLE formation and envelope maturation take place across the SC. Hypoxic conditions in the epidermis and anaerobic glycolysis with the production of lactic acid are important in proper SC barrier formation. KEY MESSAGE: CLE formation takes place across the SC. Its formation from linoleate-containing GLC-CER[EOx] requires lipoxygenase action, but anaerobic conditions leading to lactate production and hypoxia-inducible factors are essential for proper barrier formation. A number of unanswered questions are raised regarding formation of the CLE and the epidermal permeability barrier.

Role of Omega-Hydroxy Ceramides in Epidermis: Biosynthesis, Barrier Integrity and Analyzing Method.

Attached to the outer surface of the corneocyte lipid envelope (CLE), omega-hydroxy ceramides (ω-OH-Cer) link to involucrin and function as lipid components of the stratum corneum (SC). The integrity of the skin barrier is highly dependent on the lipid components of SC, especially on ω-OH-Cer. Synthetic ω-OH-Cer supplementation has been utilized in clinical practice for epidermal barrier injury and related surgeries. However, the mechanism discussion and analyzing methods are not keeping pace with its clinical application. Though mass spectrometry (MS) is the primary choice for biomolecular analysis, method modifications for ω-OH-Cer identification are lacking in progress. Therefore, finding conclusions on ω-OH-Cer biological function, as well as on its identification, means it is vital to remind further researchers of how the following work should be done. This review summarizes the important role of ω-OH-Cer in epidermal barrier functions and the forming mechanism of ω-OH-Cer. Recent identification methods for ω-OH-Cer are also discussed, which could provide new inspirations for study on both ω-OH-Cer and skin care development.

Identification of mitochondrial genetic variants associated with human corneocyte size in Japanese women.

Mitochondria have their own DNA (mtDNA). Genetic variants are likely to accumulate in mtDNA, and its base substitution rate is known to be very fast, 10-20 times faster than that of nuclear DNA. For this reason, mtSNPs (mitochondrial genome single nucleotide polymorphisms) are frequently detected in mtDNA. Several thousands of copies of mtDNA are considered to be present in a cell, and variants that have occurred in mtDNA are expected to markedly affect the intracellular energy production system and ROS (reactive oxygen species) kinetics. Therefore, recently, mtSNPs have come to be considered very important as a determinant of the individual constitution such as the life-span and disease susceptibility. In this study, we searched for mtSNPs that affect the individual corneocyte size using samples from 358 Japanese women. As a result, mtSNPs 10609C and 12406A were found to be significantly related to the corneocyte size in the outermost layer of the epidermis. There have been a large number of reports concerning the association between mtSNPs and individual constitution, but little evaluation of their relationships with epidermal properties has been made. The results of the present study first suggested that mtSNPs may affect the epidermal properties in Japanese women.

Changes in levels of omega-O-acylceramides and related processing enzymes of sun-exposed and sun-protected facial stratum corneum in differently pigmented ethnic groups.

INTRODUCTION: We report on the differences in ceramide composition and levels of omega-O-acylceramide processing enzymes of sun-exposed and sun-protected facialstratum corneum (SC) among Albino African, Black African and Caucasian women living in South Africa. METHODS: Tape strippings were taken from the sun-exposed cheek and the sunprotected postauricular site (PA). In two subsets proteomic (n = 18) and lipidomic (n = 24) analysis were performed using mass-spectrometry-based shotgun platforms. RESULTS: No significant differences in total ceramide levels or ceramide subtypes were found between the Black African and Caucasian women in either the cheek or PA samples. Compared to the other two groups the levels of total ceramide as well as selected omega-O-acylceramide species were increased in Albino Africans. On the cheek, ceramide (CER) EOS, EOH along with CER AS were increased relative to the Caucasian women, while CER EOP and EOdS were elevated relative to the Black African women. Moreover, on the PA site CER EOP and EOdS were elevated compared with the Black African women and CER EOdS in Caucasians. Decreasesin masslevels of 12R-LOX and eLOX3 were observed on cheeks compared with the PA sites in all ethnic groups. On the PA sites 12R-LOX was particularly lower in the Albino Africans compared with the Black African and Caucasian women. On the cheeks mass levels of SDR9C7 was also lower in the Albino Africans. CONCLUSION: The mass levels of the ceramides were similar between Black African and Caucasian women. However, elevated total ceramides and excessively elevated selected omega-O-acylceramides were apparent in the Albino African women. The findings in the Albino African women were unexpected as these participants suffer from impaired skin barrier function. However, the elevated levels omega-O-acylceramides can contribute to barrier insufficiency by directly impacting SC lipid phase behaviour and/or secondly elevated omegaO-acylceramide levels may indicate a reduced attachment of ceramides to the corneocyte lipid envelope and reduced corneocyte maturation that can also impair the barrier. Indeed, differences in the mass levels of omega-O-acylceramide processing enzymes were observed for 12R-LOX and SDR9C7 for the Albino Africans. This indicates a corneocyte lipid scaffold disorder in this population.

INTRODUCTION: Nous décrivons les différences de composition en céramides et de niveaux des enzymes du métabolisme des oméga-O-acylcéramides du stratum corneum facial (SC) photo-exposé et photo-protégé chez des femmes Albinos Africaines, Noires Africaines et Caucasiennes vivant en Afrique du Sud. MÉTHODES: Les prélèvements ont été effectués sur la joue photo-exposée et sur le site post-auriculaire (PA) photo-protégé à l'aide de disques adhésifs. Dans deux sous-groupes, des analyses protéomiques (n = 18) et lipidomiques (n = 24) ont été réalisées à l'aide de plateformes de spectrométrie de masse non-ciblées. RÉSULTATS: Aucune différence significative de quantité globale de céramides ou dans les différentes classes de céramides n'a été observée entre les femmes Noires Africaines et les femmes Caucasiennes, quels que soient les échantillons (Joue ou de PA). Comparativement aux deux autres groupes, les quantités de céramides totales, ainsi que certaines espèces d'oméga-O-acylcéramides, étaient plus élevés chez les femmes Albinos Africaines. Sur la joue, les céramides (CER) EOS, EOH et CER AS étaient plus élevés que chez les femmes Caucasiennes, tandis que les CER EOP et EOdS étaient plus élevés que chez les femmes Noires Africaines. De plus, sur le site PA, les CER EOP et EOdS étaient plus élevés que chez les femmes Noires Africaines et les CER EOdS chez les Caucasiennes. Des diminutions des niveaux d'enzymes 12R-LOX et eLOX3 ont été observées sur les joues par rapport aux sites PA dans tous les groupes ethniques. Sur les sites PA, le niveau de 12RLOX était notablement plus faible chez les femmes Albinos Africaines comparativement aux femmes Noires Africaines et Caucasiennes. Sur les joues, le niveau de SDR9C7 était également plus faible chez les Albinos Africaines. CONCLUSION: La masse des céramides totaux était similaire entre les femmes Noires Africaines et Caucasiennes. Cependant, des niveaux élevés de céramides totaux et excessivement élevés des oméga-O-acylcéramides sélectionnés, ont été observés chez les femmes Albinos Africaines. Les résultats obtenus chez les femmes Albinos Africaines étaient surprenants car ces participantes souffrent d'une altération de la fonction de la barrière cutanée. Néanmoins, les niveaux élevés d'oméga-O-acylcéramides peuvent en premier lieu contribuer à l'insuffisance de la barrière en ayant un impact direct sur le comportement de la phase lipidique du SC et/ou, deuxièmement, peuvent indiquer une fixation réduite des céramides à l'enveloppe lipidique des cornéocytes et une maturation réduite des cornéocytes pouvant aussi altérer la barrière. En outre, des différences dans les niveaux d'expression des enzymes de transformation de l'oméga-O-acylcéramide ont été observées pour 12R-LOX et SDR9C7 chez les femmes Albinos Africaines. Ceci indique une désorganisation de l'échafaudage lipidique des cornéocytes dans cette population.

Lipid Metabolic Events Underlying the Formation of the Corneocyte Lipid Envelope.

Cornified cells of the stratum corneum have a monolayer of an unusual lipid covalently attached to the outer surface. This is referred to as the corneocyte lipid envelope (CLE). It consists of a monolayer of ω-hydroxyceramides covalently attached to the outer surface of the cornified envelope. The CLE is essential for proper barrier function of the skin and is derived from linoleate-rich acylglucosylceramides synthesized in the viable epidermis. Biosynthesis of acylglucosylceramide and its conversion to the cornified envelope is complex. Acylglucosylceramide in the bounding membrane of the lamellar granule is the precursor of the CLE. The acylglucosylceramide in the limiting membrane of the lamellar granule may be oriented with the glucosyl moiety on the inside. Conversion of the acylglucosylceramide to the CLE requires removal of the glucose by action of a glucocerebrosidase. The ester-linked fatty acid may be removed by an as yet unidentified esterase, and the resulting ω-hydroxyceramide may become ester linked to the outer surface of the cornified envelope through action of transglutaminase 1. Prior to removal of ester-linked fatty acids, linoleate is oxidized to an epoxy alcohol through action of 2 lipoxygenases. This can be further oxidized to an epoxy-enone, which can spontaneously attach to the cornified envelope through Schiff's base formation. Mutations of genes coding for enzymes involved in biosynthesis of the CLE result in ichthyosis, often accompanied by neurologic dysfunction. The CLE is recognized as essential for barrier function of skin, but many questions about details of this essentiality remain. What are the relative roles of the 2 mechanisms of lipid attachment? What is the orientation of acylglucosylceramide in the bounding membrane of lamellar granules? Some evidence supports a role for CLE as a scaffold upon which intercellular lamellae unfold, but other evidence does not support this role. There is also controversial evidence for a role in stratum corneum cohesion. Evidence is presented to suggest that covalently bound ω-hydroxyceramides serve as a reservoir for free sphingosine that can serve in communicating with the viable epidermis and act as a potent broad-acting antimicrobial at the skin surface. Many questions remain.

Corneocytes: Relationship between Structural and Biomechanical Properties.

BACKGROUND: Skin is the interface between an organism and the external environment, and hence the stratum corneum (SC) is the first to withstand mechanical insults that, in certain conditions, may lead to integrity loss and the development of pressure ulcers. The SC comprises corneocytes, which are vital elements to its barrier function. These cells are differentiated dead keratinocytes, without organelles, composed of a cornified envelope and a keratin-filled interior, and connected by corneodesmosomes (CDs). SUMMARY: The current review focusses on the relationship between the morphological, structural, and topographical features of corneocytes and their mechanical properties, to understand how they assist the SC in maintaining skin integrity and in responding to mechanical insults. Key Messages: Corneocytes create distinct regions in the SC: the inner SC is characterized by immature cells with a fragile cornified envelope and a uniform distribution of CDs; the upper SC has resilient cornified envelopes and a honeycomb distribution of CDs, with a greater surface area and a smaller thickness than cells from the inner layer. The literature indicates that this upward maturation process is one of the most important steps in the mechanical resistance and barrier function of the SC. The morphology of these cells is dependent on the body site: the surface area in non-exposed skin is about 1,000-1,200 µm2, while for exposed skin, for example, the cheek and forehead, is about 700-800 µm2. Corneocytes are stiff cells compared to other cellular types, for example, the Young's modulus of muscle and fibroblast cells is typically a few kPa, while that of corneocytes is reported to be about hundreds of MPa. Moreover, these skin cells have 2 distinct mechanical regions: the cornified envelope (100-250 MPa) and the keratin matrix (250-500 MPa).

Vernix caseoza - composition and function.

OBJECTIVE: To summarize current knowledge about the composition and function of the vernix caseoza with respect to the prenatal and postnatal period. DESIGN: Summary article. SETTING: Department of Obstetrics and Gynecology, University Hospital Hradec Kralove. CONCLUSION: According to current knowledge about composition, vernix caseoza consists of desquamate cells from outer layers of epidermidis with proteolipid material. The formation of vernix caseoza is related to the formation of the fetal skin. The lipid content protects a fetus from maceration with amniotic fluid. Vernix caseoza further enhance the process of adaptation during the transition of a newborn from intrauterine to postnatal life. During delivery, vernix caseoza serves mainly as lubricant function. In a postpartum period, verxic caseoza may have moisturizing, antiinflammatory, antioxidative and healing function.

Hypergranulotic dyscornification: 30 cases of a striking epithelial reaction pattern.

BACKGROUND: Hypergranulotic dyscornification (HD) is a rarely reported histological reaction pattern that may be observed in solitary benign keratoses. OBJECTIVE AND METHODS: We retrospectively reviewed all cases described as displaying "hypergranulotic dyscornification" at our institution between January 1st 1990 to September 1st 2018. We excluded cases that on retrospective review displayed changes of epidermolytic hyperkeratosis. We conducted electron microscopy (EM) of two lesions. RESULTS: Thirty cases were identified in our search. Eleven patients were men and 19 were women. Their mean age was 56.9 ± 21.2 years. In contrast to previous reports, we found that HD does not spare the head and neck area. Frequent clinical impressions were inflamed seborrheic keratosis, Bowen disease or inflamed verruca. The most distinctive histopathologic finding was the presence of a prominent granular layer with clumped perinuclear keratohyaline granules. Some cases had mounds of rounded, anucleate glassy eosinophilic corneocytes in the stratum corneum. We observed one case of incidental HD occurring in an epidermoid cyst. EM of HD showed dense perinuclear bands which appeared to match areas of positive staining by keratin immunohistochemistry, without evidence of pale cytoplasmic areas devoid of keratin filaments, characteristic of epidermolytic hyperkeratosis. CONCLUSION: HD is a reproducible finding in some benign keratoses, probably because of abnormal keratinization. Awareness of this unique reaction pattern will help prevent misdiagnosis.

A proof-of-principle study comparing barrier function and cell morphology in face and body skin.

OBJECTIVE: The purpose of this pilot in vivo study was to investigate corneocyte size and transepidermal water loss (TEWL) in facial cheek and volar forearm skin as a function of consecutive tape stripping. Changes in corneocyte size and transepidermal water loss (TEWL) were measured as a function of stratum corneum (SC) depth at both anatomical sites. To our knowledge, this is the first published quantitative comparison based on these parameters. This work complements our previously published studies on face skin barrier recovery at 24 h and 4 weeks post-tape stripping [Gorcea et al., Skin Res. Technol., 19, 2013, e375-e382; Gorcea et al., Int. J. Cosmet. Sci. 35, 2013, 250]. METHODS: Transepidermal water loss in vivo measurements of forearm and facial skin sites were taken before tape stripping commenced (baseline) and after each tape was collected. Optical microscopy and image analysis techniques were employed to characterize corneocyte size as a function of skin depth (tape strip number) for both anatomical sites. RESULTS: Transepidermal water loss increased significantly from baseline with sequential tape stripping at both anatomical skin sites. Volar forearm skin required approximately three times as many tapes to 'damage' the SC barrier (arbitrarily defined as twice baseline TEWL) compared to facial cheek skin demonstrating significant differences in barrier properties between cheeks and forearms (P < 0.05). Corneocyte size decreased significantly with depth for both sites (P < 0.001). Corneocytes from face skin were significantly smaller than corneocytes from volar forearm skin. CONCLUSION: Statistically significant differences between facial and body skin stratum corneum cell morphology and transepidermal water loss were demonstrated and quantitatively measured as a function of tape stripping.

OBJECTIF: L'objectif de cette étude pilote in vivo était d'étudier la taille des cornéocytes et la perte d'eau transépidermique (TEWL) dans la peau des joues et des avant-bras comme en fonction de l'épilation par bandelettes. Les modifications de la taille des cornéocytes et de la perte d'eau transépidermique (TEWL) ont été mesurées en fonction de la profondeur du stratum corneum (SC) au niveau des deux sites anatomiques. À notre connaissance, il s'agit de la première comparaison quantitative publiée sur la base de ces paramètres. Ce travail complète nos études publiées antérieurement sur la récupération de la barrière cutanée du visage 24 h et 4 semaines après l'application des bandelettes. [Gorcea et al., Skin Res. Technol., 19, 2013, e375-e382; Gorcea et al., Int. J. Cosmet. Sci. 35, 2013, 250]. MÉTHODES: Les mesures de la perte d'eau transépidermique in vivo au niveau des sites cutanés des avant-bras et du visage ont été effectuées avant le début du retrait des bandelettes (référence) et après le prélèvement de chaque bandelette. Des techniques de microscopie optique et d'analyse d'images ont été utilisées pour caractériser la taille des cornéocytes en fonction de la profondeur de la peau (numéro de bandelette) pour les deux sites anatomiques. RÉSULTATS: La perte d'eau transépidermique a augmenté de façon significative par rapport à la référence lors du retrait séquentiel des bandelettes au niveau des deux sites anatomiques de la peau. La peau de l'avant-bras a nécessité environ trois fois plus de bandelettes pour « endommager ¼ la barrière du SC (définie arbitrairement comme deux fois la TEWL de base) que la peau des joues du visage, ce qui démontre des différences significatives dans les propriétés barrières entre les joues et les avant-bras (P < 0,05). La taille des cornéocytes a diminué de façon significative avec la profondeur pour les deux sites (P < 0,001). Les cornéocytes de la peau du visage étaient significativement plus petits que les cornéocytes de la peau de l'avant-bras. CONCLUSION: Des différences statistiquement significatives de morphologie et de perte d'eau transépidermique entre les cellules du stratum corneum de la peau du visage et celles du corps ont été démontrées et mesurées quantitativement en fonction du retrait des bandelettes.

Expression and ultrastructural localization of plasmin(ogen) in the terminally differentiated layers of normal human epidermis.

OBJECTIVE: Plasmin, a relatively unspecific trypsin-like serine protease, is involved in many physiological and pathological conditions, particularly in dermatoses with barrier impairment. It is secreted as the inactive zymogen plasminogen and is activated to plasmin by plasminogen activators, such as urokinase. There still exists a paucity of data on the precise localization of epidermal plasmin(ogen) within the epidermis and the stratum corneum. The aim of the present study was to get information about its origin and ultrastructural localization within normal human epidermis. METHOD: We performed immunoelectron transmission electron microscopy immunogold labelling in normal abdominal human skin. RESULT: Plasmin was only observed in the terminally differentiated cell layers of the epidermis and was largely associated with the corneocyte envelopes and to some extent with the intercellular lipid matrix in the stratum corneum. CONCLUSION: Our results indicate that in normal human skin, plasmin(ogen) is synthesized by differentiated epidermal keratinocytes of the stratum granulosum and is not serum-born.

OBJECTIF: Plasmine, une relativement peu spécifique ' trypsin-like' protéase sérine, participe aux plusieurs processus physiologiques et pathologiques et, plus particulièrement, à la physiopathologie des dermatoses caractérisées par l'altération de la barrière de perméabilité. Elle est sécrétée sous forme d'un zymogene inactif, plasminogène, et devient activée par les activateurs du plasminogène, telle urokinase. A l'heure actuelle, on manque de précision quant à la localisation de plasmine (ou son précurseur) dans l'épiderme et le stratum corneum. Le but du présent travail a été de d'apporter l'information sur la provenance et la localisation ultrastructurale de plasmine/plasminogène présents dans l'épiderme humain. MÉTHODE: L'étude ultrastructurale de l'épiderme humain normal (plastie abdominale) a fait appel à l'immunomarquage à l'or colloïdal sur coupes ultrafines des tissus inclus à froid dans des résines acryliques. RÉSULTAT: L'anticorps monoclonal anti -plasmine/plasminogène a détecté l'antigène situé exclusivement dans la partie la plus différenciée de l'épiderme et persistant dans la couche cornée. Il n'y a pas eu de réactivité dans les couches épineuse et basale. Le marquage a été prédominant sur les enveloppes cornifiées des kératinocytes granuleux et cornéocytes. Des foyers du marquage ont été également présents dans le cytoplasme et les espaces intercellulaires de la couche granuleuse, ainsi que dans la matrice lipidique de la couche cornée profonde. CONCLUSION: Nos résultats indiquent la production de novo de plasmine/plasminogène dans les kératinocytes le plus différenciés et ne suggèrent pas l'origine sérique de cette enzyme dans l'épiderme.

Changes in nano-mechanical properties of human epidermal cornified cells depending on their proximity to the skin surface.

During formation of the stratum corneum (SC) barrier, terminally differentiated keratinocytes continue their maturation process within the dead superficial epidermal layer. Morphological studies of isolated human corneocytes have revealed differences between cornified envelopes purified from the deep and superficial SC. We used atomic force microscopy to measure the mechanical properties of native human corneocytes harvested by tape-stripping from different SC depths. Various conditions of data acquisition have been tested and optimized, in order to obtain exploitable and reproducible results. Probing at 200 nN allowed us to investigate the total stiffness of the cells (at 50 nm indentation) and that of the cornified envelopes (at 10 to15 nm), and lipid envelopes (at 5 to 10 nm). The obtained data indicated statistically significant differences between the superficial (more rigid) and deep (softer) corneocytes, thus confirming the existence of depth and maturation-related morphological changes within the SC. The proposed approach can be potentially used for minimally invasive evaluation of various skin conditions such as aging, skin hydration, and pathologies linked to SC.

A new approach to assess the effect of photodamage on corneocyte envelope maturity using combined hydrophobicity and mechanical fragility assays.

BACKGROUND: The maturity of the corneocyte envelope (CE) provides information about the barrier functionality of the stratum corneum (SC). Corneocytes are enclosed by the CE, a protein-lipid matrix, contributing to mechanical resistance and hydrophobicity of the SC. OBJECTIVES: The aim of the work was to develop a novel and robust approach to characterize CE maturity based on rigidity, hydrophobicity and surface area. This offers an alternative approach to the Nile red staining and antigenicity of involucrin to characterize the CE. The photoexposed (PE) cheek and photoprotected (PP) post-auricular sites were selected for investigation. METHODS: Nine tape strips were obtained from the cheek and post-auricular sites of healthy Caucasians. CEs on the first and last tape strip were subjected to sonication to assess rigidity, and Nile red staining to determine hydrophobicity per unit surface area. In addition, the presence of involucrin and lipids was assessed to determine CE maturity by examination of the red/green pixel ratio, percentage of involucrin expressing CEs and alternatively the ratio of fluorescence density. RESULTS: The CE rigidity was lower in the deeper SC layers of the cheek, whereas post-auricular CEs were mechanically more resistant. Post-auricular CEs from the superficial SC had a larger surface area with a stronger fluorescence signal than those from the cheek. Interestingly, those CEs from the deeper SC layers had similar surface areas in both anatomical sites but were significantly different in hydrophobicity. These three parameters can be summarized as a relative CE maturity index that expresses CE maturity more precisely with a higher sensitivity than the conventional involucrin and Nile red staining approach. CEs of the cheek surface are more mature than CEs in the deeper SC layer, whereas CEs obtained from the post-auricular surface are more mature than those from the cheek surface. CONCLUSION: The combined method developed allows characterization of CE maturity based on hydrophobicity per unit surface area and rigidity rather than a simple ratio of lipid to involucrin. A more robust and sensitive measurement has therefore been developed addressing the limitations of earlier protocols.

Age-related differences in morphological characteristics of residual skin surface components collected from the surface of facial skin of healthy male volunteers.

BACKGROUND/PURPOSE: Global increase of human longevity results in the emergence of previously ignored ageing-related problems. Skin ageing is a well-known phenomenon, but active search for scientific approaches to its prevention and even skin rejuvenation is a relatively new area. Although the structure and composition of the stratum corneum (SC), the superficial layer of epidermis, is well studied, relatively little is known about the residual skin surface components (RSSC) that overlay the surface of the SC. The aim of this study was to examine morphological features of RSSC samples non-invasively collected from the surface of human facial skin for the presence of age-related changes. METHODS: Residual skin surface component samples were collected by swabbing from the surface of facial skin of 60 adult male volunteers allocated in two age groups: 34 subjects aged in the range 18-32 years and 26 subjects aged in the range 58-72 years. The collected samples were analysed microscopically: the size of the lipid droplets was measured; desquamated corneocytes and lipid crystals were counted; and microbial presence was assessed semi-quantitatively. RESULTS: Age-related changes were revealed for all studied components of the RSSC. There was a significant (P = 0.0126) decrease in the size of lipid droplets among older men. Likewise, significantly (P = 0.0252) lower numbers of lipid crystals were present in this group. In contrast, microbial presence in the RSSC was significantly (P = 0.0019) increased in the older group. There was also a trend towards more abundant corneocyte desquamation among older men, but the difference has not reached statistical significance (P = 0.0636). CONCLUSION: Non-invasively collected RSSC samples present an informative material for studying age-related changes on the surface of the SC of human facial skin. The results of this study confirm earlier observations regarding age-associated decline of the efficiency of the epidermal barrier and can be used for testing new approaches to skin ageing prevention.

Proteomic Analysis of Loricrin Knockout Mouse Epidermis.

The crosslinked envelope of the mammalian epidermal corneocyte serves as a scaffold for assembly of the lipid barrier of the epidermis. Thus, deficient envelope crosslinking by keratinocyte transglutaminase (TGM1) is a major cause of the human autosomal recessive congenital ichthyoses characterized by barrier defects. Expectations that loss of some envelope protein components would also confer an ichthyosis phenotype have been difficult to demonstrate. To help rationalize this observation, the protein profile of epidermis from loricrin knockout mice has been compared to that of wild type. Despite the mild phenotype of the knockout, some 40 proteins were incorporated into envelope material to significantly different extents compared to those of wild type. Nearly half were also incorporated to similarly altered extents into the disulfide bonded keratin network of the corneocyte. The results suggest that loss of loricrin alters their incorporation into envelopes as a consequence of protein-protein interactions during cell maturation. Mass spectrometric protein profiling revealed that keratin 1, keratin 10, and loricrin are prominent envelope components and that dozens of other proteins are also components. This finding helps rationalize the potential formation of functional envelopes, despite loss of a single component, due to the availability of many alternative transglutaminase substrates.

Molecular mechanisms of action of different concentrations of ethanol in water on ordered structures of intercellular lipids and soft keratin in the stratum corneum.

Ethanol (EtOH) is one of the bases in topically applied medicines that promote the skin permeation of drugs. Although the effects of EtOH have been attributed to structural modifications in the stratum corneum, the underlying mechanisms, especially the influence of different concentrations of EtOH, have not been examined extensively. Structural modifications in the stratum corneum of hairless mouse due to the application of EtOH/water mixture were herein investigated at the molecular level using synchrotron X-ray diffraction. The results revealed that all EtOH concentrations examined greatly modified the short lamellar structures containing the aqueous layer in intercellular lipids and the structure of keratin fibrils in corneocytes, which can take up hydrophilic compounds. However, the long lamellar and the hydrocarbon-chain packing structures were unaffected by EtOH. Changes to the short lamellar structures were not proportional to the concentration of EtOH. However, the keratin fibril structures changed gradually with increasing EtOH concentration. The X-ray diffraction experiments enabled the effects of different EtOH concentrations on the morphology of the stratum corneum to be assessed by using a number of experimental samples to avoid variations due to individual differences. The results indicated that alterations to the short lamellar structures appeared to be related to the skin permeability of drugs with the application of EtOH/water mixture, and monotonous structural changes in the keratin fibrils with an increase in EtOH concentration may contribute to this permeation as supplement. These results will be useful for the development of new drug formulations containing EtOH.

Nanoscale alterations of corneocytes indicate skin disease.

BACKGROUND: The skin barrier protects the organism against exogenous stressors and simultaneously prevents excessive water loss. While the delicate regulation of skin barrier is not completely understood, morphological and histological evaluation remain key features of clinical investigations. Here, we extended the phenotypic perspective down to the nanoscale. METHODS: Corneocyte samples were obtained non-invasively by a standard tape stripping procedure from 21 indviduals. Scanning electron (SEM) and atomic force microcopy (AFM) were used to record nanoscale topography. Circular nano-objects were identified and these were quantitated through computer vision. RESULTS: Typical dimensions of 273 nm height and 305 nm width. We showed that their density does not correlate to age or pigmentation in healthy subjects, but that they were clearly elevated in corneocytes from patients with atopic dermatitis, a common inflammatory skin condition. CONCLUSION: The presence of these corneocyte-nanostructures might be used as a diagnostic parameter for skin disorders - even in cases below a clinical threshold.