Identification and subcellular distribution of cornified envelope precursor proteins in the transformed human keratinocyte line SV-K14

SV-40 transformed human foreskin keratinocytes (line SV-K14) develop under conditions of serum starvation the competence to form cornified envelopes that are characteristic of terminally differentiating epidermal cells. In this cell line, the final assembly of the envelope does not occur spontaneously but must be induced using a calcium ionophore. Five potential precursor proteins with molecular weights of 140K, 90K, 61K, 53K, and 36K, respectively, could be detected in the extracts of envelope competent and noncompetent cells. The 61 kD and the 36 kD precursors were specifically decorated in immunoblots when using an antiserum directed against the purified cornified envelope of SV-K14 cells. The 140 kD protein was identified as involucrin by means of a commercial anti-involucrin antibody. Part of the 61 kD protein was found to be inserted into the plasma membrane after the cells gained envelope competence. The set of precursor proteins used by SV-K14 cells differed markedly from those described in the literature for epidermal cells in vivo and for normal human keratinocytes in vitro. Furthermore, cyanogen bromide cleavage of purified envelopes from transformed and normal keratinocytes revealed a completely different peptide pattern. This indicates that the exact molecular composition of the cornified envelope may not be strictly determined and may vary according to the availability of potential substrate proteins at the very moment when the cross-linking enzyme, the plasma membrane associated transglutaminase, becomes functional.     

Expression of differentiation markers during fetal skin development in humans: immunohistochemical studies on the precursor proteins forming the cornified cell envelope.

The cornified cell envelope is formed during the terminal differentiation of epidermis through cross-linking of specific proteins by transglutaminases. The specific arrangement of individual protein in the cornified cell envelope and participation of individual protein in the cornified cell envelope at different regions of skin, i.e., palm, foreskin, lips, etc. are not clearly understood. In order to understand the pattern and expression schedule of each individual precursor protein during the differentiation and formation of cornified cell envelope, the expression of precursor proteins in developing human fetal skins from the first to the third trimester were examined by immunohistochemical studies. Involucrin was found in the periderm and intermediate layer from 14 wk estimated gestational age, while loricrin and small proline-rich protein 1 were found in the periderm from 16 wk estimated gestational age. Filaggrin and trichohyalin that are absent in the adult cornified cell envelope were found in the granular and horny layers from 24 wk estimated gestational age. The precursor proteins except trichohyalin did not change their patterns after the onset of initial expression during development. Trichohyalin was transiently expressed in the granular and horny layers of the epidermis from 24 wk estimated gestational age with peak expression at 27 wk estimated gestational age, but was not detected in adult skin. In hair follicles, trichohyalin expression was stable without change from 20 wk estimated gestational age. These findings suggest that fetal skin may have different sets of barriers from the second trimester; the immature cornified cell envelope is formed in the early second trimester and the mature cornified cell envelope is formed in the late second or early third trimester when filaggrin and trichohyalin appear.     

Intra- and inter-individual variations in cornified envelope peptide composition in normal and psoriatic skin

Summary Cornified envelopes from the stratum corneum of healthy volunteers and from the involved and uninvolved skin of psoriatic patients were electrophoretically purified, and their peptide composition analysed by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS PAGE) after cyanogen bromide cleavage. The resulting envelope peptide patterns (EPPs) were compared. In normal subjects, mainly quantitative minor differences in the EPPs were observed between different individuals. In the same individual, palms and soles could be distinguished from other body sites by their EPPs. The palm and sole samples presented identical patterns which were different from the patterns found with samples from other body sites. In psoriatic patients, EPPs of uninvolved skin resembled closely those of healthy epidermis, but showed striking differences from those of lesional skin. The EPPs of psoriatic lesional skin showed a characteristic accumulation of small peptides with molecular weights of 3–11 kDa. The EPP of lesional skin returned to normal during PUVA therapy, indicating that the changes in the biochemical composition of the cornified envelope are correlated with the clinical status of the disease.     

Analysis of protein–protein interaction between late cornified envelope proteins and corneodesmosin

Deletion of two members of the late cornified envelope (LCE) family, LCE3B and LCE3C (LCE3C_LCE3B‐del), has been identified as risk factor for psoriasis with a possible role in skin barrier function. Moreover, genetic interaction between LCE3C_LCE3B‐del and HLA‐C*06, located in the psoriasis susceptibility regions 4 and 1 (PSORS4 and 1), has been reported in several populations. Because of high linkage disequilibrium between the PSORS1 genes HLA‐C*06 and corneodesmosin (CDSN), both genes are potentially involved in psoriasis. As corneodesmosin and LCE proteins are both constituents of the stratum corneum, we investigated potential direct protein–protein interactions between six LCE proteins and two corneodesmosin sequence variants. Partial colocalization of LCE2 and CDSN was observed in normal and psoriasis skin using immunofluorescence microscopy. Co‐expression of eCFP‐LCE and mRFP‐CDSN proteins in COS‐1 cells and human adult keratinocytes, and GST pull‐down results did not provide evidence for direct interactions between LCE proteins and CDSN variants.     

Expression and function of keratinocyte growth factor and activin in skin morphogenesis and cutaneous wound repair

Reepithelialization and granulation tissue formation during cutaneous wound repair are mediated by a wide variety of growth and differentiation factors. Recent studies from our laboratory provided evidence for an important role of keratinocyte growth factor (KGF) in the repair of the injured epithelium and for a novel function of the transforming growth factor-beta superfamily member activin in granulation tissue formation. KGF is weakly expressed in human skin, but is strongly upregulated in dermal fibroblasts after skin injury. Its binding to a transmembrane receptor on keratinocytes induces proliferation and migration of these cells. Furthermore, KGF has been shown to protect epithelial cells from the toxic effects of reactive oxygen species. We have identified a series of KGF-regulated genes that are likely to play a role in these processes. In addition to KGF, activin seems to be a novel player in wound healing. Activin expression is hardly detectable in nonwounded skin, but this factor is highly expressed in redifferentiating keratinocytes of the hyperproliferative wound epithelium as well as in cells of the granulation tissue. To gain insight into the role of activin in wound repair, we generated transgenic mice that overexpress activin in basal keratinocytes of the epidermis. These mice were characterized by a hyperthickened epidermis and by dermal fibrosis. Most importantly, overexpression of activin strongly enhanced the process of granulation tissue formation, demonstrating a novel and important role of activin in cutaneous wound repair.     

Differential expression of cornified cell envelope precursors in normal skin,intraorally transplanted skin and normal oral mucosa

BACKGROUND: Skin flaps have routinely been used as substitutes for oral mucosa after extensive resection of oral tissues. However, it remains unknown how the transplanted skin flaps perform as a host defence in the new environment of the oral cavity. OBJECTIVES: To evaluate the expression of cornified cell envelope (CCE) precursors in pretransplanted (normal) skin, intraorally transplanted skin and normal oral mucosa, because CCEs are highly responsible for a protective barrier in each type of epithelium. METHODS: We used immunohistochemistry and immunoelectron microscopy to examine the expression of CCE precursors, small proline-rich protein (SPR) 2 and 3 and loricrin, in biopsy specimens of normal skin, transplanted skin and normal oral mucosa, including buccal and lingual (non-keratinized) mucosae, and palatal (keratinized) mucosa. RESULTS: Transplanted skin flaps were classified into two groups. About two-thirds of the transplanted skin flaps displayed a reddish appearance and were devoid of the stratum corneum (SC) together with a psoriasiform inflammatory tissue reaction. Others showed a native appearance, retaining the SC. While SPR2 expression was limited to the stratum granulosum (SG) in both normal and transplanted skin retaining the SC, it extended to the stratum spinosum (SS) of the transplanted skin lacking the SC and that of the normal oral mucosa. Although SPR3 expression was not found in normal skin or in the transplanted skin retaining the SC, it was strongly expressed in the SS of the transplanted skin lacking the SC and the non-keratinized oral mucosa, and in the SS and SG of the keratinized oral mucosa. Loricrin, which was expressed in the SG of normal skin, the transplanted skin retaining the SC and the keratinized oral mucosa, was not detected in the transplanted skin lacking the SC or in the non-keratinized oral mucosa. Immunoelectron microscopy confirmed the ultrastructural localization of SPR3 directly under the cytoplasmic membrane of keratinocytes of the transplanted skin lacking the SC and that of the oral mucosa. CONCLUSIONS: The altered expression of SPR2, SPR3 and loricrin reflects the possible adaptation of epidermal keratinocytes in the new environment of the oral cavity.     

Age‐related changes in the composition of the cornified envelope in human skin

The main function of the epidermis is to protect us against a multitude of hostile attacks from the environment. Its main cell type, the keratinocytes have a sophisticated system of different proteins and lipids available to form the cornified envelope, which is responsible for the barrier function of the skin. During ageing, dramatic changes are taking place. Some proteins of the SPRR‐, S100‐ and LCE3‐family are massively up‐regulated, whereas others like loricrin, filaggrin and the LCE1&2 protein families are significantly down‐regulated. The latter ones are known to be under control of calcium and/or ‘calcium response elements’. We were able to show that the calcium peak specific for the stratum granulosum, which is the site where loricrin and the LCE1&2 families are synthesized, is reduced during ageing. The resulting cornified envelope in old skin has an extensively changed composition on the molecular level compared to young skin. This knowledge is of critical importance to understand chronic wound formation and ulcers in old age.     

The cornified cell envelope: loricrin and transglutaminases.

The cornified cell envelope (CE) of terminally differentiated human epidermis is a complex structure consisting of several defined protein constituents. The CE is the most insoluble component of the epidermis due to crosslinking by disulfide bonds as well as isodipeptide bonds that are formed by the action of transglutaminases (TGases). We have recently determined that loricrin is the major component of CE. We now have isolated and characterized its gene and showed that it has a simple structure with a single intron. We also show that the loricrin gene maps to position 1q21, which, coincidentally, is similar to the location of the profilaggrin and involucrin genes. Human loricrin in 26 kDa and consists of three long glycine-serine-cysteine rich sequence domains that contain quasi-repeating peptides and which form the novel glycine loop motif. These are interspersed by lysine+glutamine rich domains involved in isodipeptide crosslinks. The glycine loops are thought to be involved in organization of epidermal proteins and maintenance of the flexibility of the epidermis. By use of PCR analyses, we have found that human loricrin consists of two allelic size variants, due to sequence variations in the second glycine loop domain only, and these variants segregate in the human population by normal Mendelian mechanisms. Furthermore, there are multiple sequence variants within these two size class alleles due to various deletions of 12 bp (4 amino acids) in the major loop of this glycine loop domain. In order to study the expression and role of TGases in the formation of CE, we have isolated and sequenced cDNA and genomic clones encoding the TGase1 enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression and activity of arginase isoenzymes during normal and diabetes-impaired skin repair

Within the past years, an important role for nitric oxide (NO) in skin repair has been well defined. As NO is synthesized from L-arginine by NO synthases (NOS), the availability of L-arginine might be one rate-limiting factor of NO production at the wound site. Upon injury, arginase-1 and -2 mRNA, protein, and activity were strongly induced reaching a maximum between day 3 and day 7 postwounding. Immunohistochemistry colocalized both arginases and the inducible NOS (iNOS) at epithelial sites at the margins of the wound. Notably, diabetes-impaired skin repair in leptin-deficient mice (diabetes/diabetes, db/db; and obese/obese, ob/ob) was characterized by an abnormally elevated arginase activity in wound tissue in the absence of an expression of iNOS. Expression analyses demonstrated that arginase-1 contributed to increased arginase activities in impaired repair. Interestingly, an improved healing of chronic wound situations in leptin-supplemented ob/ob mice was strongly associated with an adjustment of the dysregulated expression of L-arginine-converting enzymes: an attenuated iNOS expression was upregulated early in repair and an augmented arginase-1 expression and activity was downregulated in the presence of markedly elevated numbers of macrophages during late repair. These data suggest a coordinated consumption of L-arginine by the NOS and arginase enzymatic pathways at the wound site as a prerequisite for a balanced NO (via iNOS) and polyamine (via arginases) synthesis that drives a normal skin repair.     

离子通道对皮肤屏障修复的影响

皮肤的屏障功能需不断更新和修复来维持,离子通道通过调控角质形成细胞胞内外离子浓度的变化来影响屏障修复的速度.相关的离子通道有电压门控性钙离子通道、电压门控性钾离子通道、电压门控性钠离子通道、配体门控性氯离子通道和配体门控性非选择性阳离子通道(包括P2X受体、TRPV离子通道、谷氨酸离子通道和烟碱型乙酰胆碱受体).离子通道可直接介导信号转导,也可通过神经递质由G蛋白耦联受体介导信号转导来影响屏障修复.     

An ex vivo human skin model for studying skin barrier repair

In the studies described in this study, we introduce a novel ex vivo human skin barrier repair model. To develop this, we removed the upper layer of the skin, the stratum corneum (SC) by a reproducible cyanoacrylate stripping technique. After stripping the explants, they were cultured in vitro to allow the regeneration of the SC. We selected two culture temperatures 32°C and 37°C and a period of either 4 or 8 days. After 8 days of culture, the explant generated SC at a similar thickness compared to native human SC. At 37°C, the early and late epidermal differentiation programmes were executed comparably to native human skin with the exception of the barrier protein involucrin. At 32°C, early differentiation was delayed, but the terminal differentiation proteins were expressed as in stripped explants cultured at 37°C. Regarding the barrier properties, the SC lateral lipid organization was mainly hexagonal in the regenerated SC, whereas the lipids in native human SC adopt a more dense orthorhombic organization. In addition, the ceramide levels were higher in the cultured explants at 32°C and 37°C than in native human SC. In conclusion, we selected the stripped ex vivo skin model cultured at 37°C as a candidate model to study skin barrier repair because epidermal and SC characteristics mimic more closely the native human skin than the ex vivo skin model cultured at 32°C. Potentially, this model can be used for testing formulations for skin barrier repair.     

Formation of cornified cell envelope in human hair follicle development

BACKGROUND: Cornified cell envelope (CCE) formation is an important step in the final stage of keratinization, in which CCE precursor proteins including involucrin and loricrin are cross-linked by keratinocyte transglutaminases (TGases) to the inner surface of the plasma membrane of cornified cells, while the outer surface is coated with material derived from secreted lamellar granules. OBJECTIVES: Skin samples from human fetuses of a series of estimated gestational age (EGA) (49-163 days) were studied for the prescence of precursor proteins. Methods TGase activity was studied by in situ TGase activity assay, and ultrastructural features of CCE formation were observed at each stage of hair follicle development. We used immunofluorescent labelling to investigate the time and site of expression of CCE precursor proteins involucrin and loricrin, TGases 1, 2 and 3, and a 25-kDa lamellar granule-associated protein (LGP) in developing human hair follicles. RESULTS: In the hair germ (65-84 days EGA) (corresponding to the stages 1-2 of murine hair follicle morphogenesis), only TGase 2 was observed in the entire hair germ, where in situ TGase activity was weakly positive, although thickening of cell membrane was not seen ultrastructurally. In the hair peg (85-104 days EGA) (corresponding to the stage 3 of murine hair follicle morphogenesis), loricrin and TGase 2 were seen in cells of the upper part of the hair peg while TGase 1, 3 and LGP were observed in the inner cells of the hair peg. In situ TGase activity was weakly positive in the upper part and inner cells of the hair peg. In the bulbous hair peg (105-135 days EGA) (corresponding to the stages 4-6 of murine hair follicle morphogenesis) and differentiated lanugo hair follicle (> 135 days EGA) (corresponding to the stages 7-8 of murine hair follicle morphogenesis), immunoreactivities of involucrin, loricrin, TGase 1, 2, 3, in situ TGase activity and LGP were detected in the inner root sheath cells, hair canals and inner cells of the outer root sheath in the region of the isthmus. Ultrastructurally, thickening of cell membrane was already seen in the inner root sheath cells of the bulbous hair peg and electron-dense, thick CCE was observed in the hair cuticle and hair canal of differentiated lanugo hair follicle. CONCLUSIONS: These data indicate that, in terms of CCE formation, certain portions of the developing human hair follicle have already been determined in differentiation of the hair canal and cuticle at the hair peg stage.     

Subcorneal colocalization of the small heat shock protein,hsp27, with keratins and proteins of the cornified cell envelope

BACKGROUND: hsp27 is a member of the small heat shock protein family. Its expression in epidermal keratinocytes in situ and in tissue culture correlates with differentiation. Experimental evidence points to the fact that hsp27 is a molecular chaperone and is involved in the regulation of cell growth and differentiation. OBJECTIVES: To investigate whether epidermal hsp27 through its chaperone function plays a role in the assembly of keratin filaments and the cornified cell envelope. METHODS: We performed double staining immunofluorescence and immunogold microscopy on normal human skin (n = 15). We analysed the colocalization of hsp27 with actin, keratins and proteins of the cornified cell envelope (loricrin, filaggrin, transglutaminase 1). RESULTS: Actin staining did not reveal detectable colocalization with hsp27. For keratins, transglutaminase, loricrin and filaggrin colocalization was found in more than 60% of the samples. Colocalization was confined to a narrow subcorneal layer with varying patterns of expression. Electron microscopy revealed that loricrin and filaggrin colocalize with hsp27 indirectly through binding to intermediate filaments. CONCLUSIONS: These results provide morphological evidence that in normal human skin hsp27 might act as a chaperone of cornification. Investigations of the molecular hsp27 interactions with the proteins of the cornified cell envelope are necessary to gain further insight into terminal keratinocyte differentiation and disorders of keratinization.     

Identification of new components of the cornified envelope of human and bovine epidermis

Antibodies raised in rabbits to purified cornified envelopes (CEs) of cultured human keratinocytes reacted in a peripheral fashion with the granular and spinous layers of human, cow, rat, and mouse epidermis. This reaction could not be abolished by absorption of the antibody with purified human involucrin to which the antibody reacted by immunoblot, thus indicating the presence of an additional antigenic determinant(s). Antibodies raised to CEs of human epidermis stained the cytoplasm of epidermal cells and gave a strong reaction to cytokeratins and a weak one to involucrin, indicating that in tissue the keratins are also cross-linked. The antibody prepared to bovine CEs reacted with keratins, but when absorbed with prekeratin it gave a peripheral staining pattern with epidermis and reacted strongly with a 126 kD component of the neutral buffer extract of cow snout epidermis and weakly with 205 kD and 85 kD ones. This antibody reacted with human involucrin by immunoblot while an antibody to involucrin stained 143 kD, 119 kD, 113 kD, and 107 kD polypeptides in the bovine extract. These latter 3 bands were shown to be substrates of transglutaminase. Further, a monoclonal antibody to bovine CEs reacted with the 119 kD and 113 kD bands and gave a peripheral staining pattern in the epidermis. Proof that the 126 kD protein was a precursor of the envelope was obtained by preparing an antibody to it and demonstrating peripheral staining of epidermal cells. These results point out the value of preparing antibodies to CE as an additional approach to studying the composition of CEs and demonstrate previously undescribed components in human and bovine tissue.     

Effect of semipermeable membranes on skin barrier repair following tape stripping

Abstract  Reports in the literature suggest that the permeability of a wound dressing to water transport is an important variable in the healing of superficial wounds. Factors that influence skin hydration during barrier repair, therefore, are important in the optimization of wound treatments. In this study, the effects of semipermeable films on human skin following a standardized wound (tape stripping) were evaluated using measurements of transepidermal water loss (TEWL), skin hydration, rate of moisture accumulation, and erythema. Wounds treated with semipermeable films underwent more rapid barrier recovery than either unoccluded wounds or wounds under complete occlusion. Barrier films that produced intermediate levels of skin hydration during recovery produced the highest barrier repair rates. The results support the hypothesis that semipermeable wound dressings augment barrier repair and skin quality by providing an optimized water vapor gradient during the wound healing process. The choice of wound dressing is discussed within the larger context of the design of vapor-permeable fabrics (smart materials) and the new fields of corneotherapy and comfort science. Received: 19 April 2001 / Revised: 2 June 2001 / Accepted: 16 September 2001