All-trans retinoic acid stimulates growth and extracellular matrix production in growth-inhibited cultured human skin fibroblasts

All-trans retinoic acid was examined for effects on human dermal fibroblast proliferation and for effects on fibroblast production and expression of non-collagenous and collagenous components of the extracellular matrix in vitro. Fibroblast proliferation was blocked when the cells were cultured in the presence of a serum-free culture medium containing epidermal growth factor, hydrocortisone, insulin, ethanolamine, phosphoethanolamine, and bovine pituitary extract as growth supplements and 0.15 mM Ca++. This level of extracellular Ca++ is lower than that needed to support fibroblast growth. Under these conditions, growth was stimulated by all-trans retinoic acid. Proliferation was also stimulated in the same basal medium without the growth supplements. Growth-promoting concentrations of all-trans retinoic acid ranged from 0.5-2.0 micrograms/ml (1.7-6.6 X 10(-6) M). Stimulation of proliferation was not seen at higher or lower concentrations. Concentrations of all-trans retinoic acid that stimulated proliferation also induced increased production of fibronectin as indicated by biosynthetic labeling/immunoprecipitation and by enzyme-linked immunosorbent assay. Increased production was associated with increased staining for fibronectin in the extracellular matrix. Increased production of two other non-collagenous extracellular matrix component, i.e., thrombospondin and laminin, also occurred in all-trans retinoic acid-treated cells. At 0.5 micrograms/ml, all-trans retinoic acid also stimulated production of type I collagen by the dermal fibroblasts, but at higher concentrations (2.5 micrograms/ml) production of type I collagen was inhibited. These data indicate that all-trans retinoic acid can induce changes in dermal fibroblasts in vitro (i.e., increased proliferation and extracellular matrix production) that mimic the major changes seen in the dermis after topical treatment with this agent.     

Modulation of skin collagen metabolism in aged and photoaged human skin in vivo.

To the best of our knowledge, no study has been conducted to date to directly compare the collagen metabolism of photoaged and naturally aged human skin. In this study, we compared collagen synthesis, matrix metalloproteinase-1 levels, and gelatinase activity of sun-exposed and sun-protected skin of both young and old subjects. Using northern blot analysis, immunohistochemical stain, and Western blot analysis, we demonstrated that the levels of procollagen type I mRNA and protein in photoaged and naturally aged human skin in vivo are significantly lower than those of young skin. Furthermore, we demonstrated, by northern blot analysis, that the procollagen alpha1(I) mRNA expression of photoaged skin is much greater than that of sun-protected skin in the same individual. In situ hybridization and immunohistochemical stain were used to show that the expression of type I procollagen mRNA and protein in the fibroblasts of photoaged skin is greater than for naturally aged skin. In addition, it was found, by Western blot analysis using protein extracted from the dermal tissues, that the level of procollagen type I protein in photoaged skin is lower than that of naturally aged skin. The level of matrix metalloproteinase-1 protein and the activity of matrix metalloproteinase-2 were higher in the dermis of photoaged skin than in naturally aged skin. Our results suggest that the natural aging process decreases collagen synthesis and increases the expression of matrix metalloproteinases, whereas photoaging results in an increase of collagen synthesis and greater matrix metalloproteinase expression in human skin in vivo. Thus, the balance between collagen synthesis and degradation leading to collagen deficiency is different in photoaged and naturally aged skin.     

Smoking affects collagen synthesis and extracellular matrix turnover in human skin

BACKGROUND: Smoking is associated with premature facial wrinkling and aberrant wound healing, but the underlying mechanisms of skin injury are poorly understood. OBJECTIVES: To compare the in vivo collagen synthesis and degradation in the skin of smokers and non-smokers. METHODS: The study population consisted of 47 current smokers and 51 individuals who had never smoked from northern Finland. Suction blisters were induced in the sun-protected upper inner arm of the study subjects, after which suction blister fluid (SBF) was collected for analyses of the levels of aminoterminal procollagen propeptides of type I and III collagens (PINP and PIIINP, respectively), matrix metalloproteinase (MMP)-8 and tissue inhibitor of MMP (TIMP)-1. PINP, PIIINP and TIMP-1 were also determined from serum samples. The levels of active and pro MMP-1 were assessed from deep-frozen skin biopsies by Western blotting. RESULTS: The synthesis rates of type I and III collagens were lower by 18% and 22%, respectively, in the SBF of the smokers compared with the non-smokers. The levels of MMP-8 were higher by 100% in the SBF of the smokers. The levels of MMP-1 in the skin biopsies did not differ significantly between the groups. The levels of TIMP-1 in SBF were 14% lower in the smokers than in the non-smokers, whereas the serum concentrations of TIMP-1 did not differ between the groups. CONCLUSIONS: Smoking decreases the synthesis rates of type I and III collagens in skin in vivo and alters the balance of extracellular matrix turnover in skin.     

Extracellular matrix derived from hair and skin fibroblasts stimulates human skin melanocyte tyrosinase activity

There is indirect evidence that both skin and hair melanocytes are regulated by the activity of adjacent cells. In hair, the specialized fibroblasts (dermal papilla cells) appear to play a role in the regulation of hair growth. Hair pigmentation may relate to hair growth. In skin, melanocytes are located adjacent to the basement membrane zone. As far as we are aware, direct interactions of fibroblasts with melanocytes have not previously been investigated. Accordingly, the objective of this study was to develop co-culture conditions in which to investigate whether dermal fibroblasts from skin or hair could influence melanocyte differentiation. The influence of fibroblast-conditioned media, co-culture with fibroblasts, and fibroblast-derived extracellular matrix (ECM) on normal human skin melanocyte tyrosinase activity was examined. Fibroblasts from both skin and hair were capable of altering melanocyte morphology and significantly increasing tyrosinase activity when melanocytes were cultured in the absence, but not the presence, of the major proliferative drives. Although stimulation of tyrosinase activity was detectable with conditioned medium and co-culture with fibroblasts, the most striking result was obtained with the fibroblast-produced ECM which, on average, produced a four-fold increase in tyrosinase activity within 6 days. Thus, the study describes co-culture conditions in which the stimulatory effect of the fibroblast on melanocyte differentiation can be examined.     

Vitamin A uptake by human skin in vitro

Summary Results are presented establishing that epidermis accumulates vitamin A from serum retinolbinding protein (RBP). Strips of human breast skin (0.2–0.3-mm thick) were incubated in a serum-free medium. From the rate of glucose oxidation, the tissue was viable for at least 48 h at 32°C in 5% CO₂ air. [³H]-Retinol-RBP (10^-6 M) was added to the medium for 1–24 h, after which epidermis and dermis were split and separately extracted with hexane after saponification. [³H]-Retinol was isolated by high performance liquid chromatography (HPLC). Epidermis had 6–7 times higher affinity for [³H]-retinol than dermis. The uptake could be saturated by substrate and was inhibited with unlabelled retinol-RBP but not with serum albumin. Furthermore, although the uptake was temperature-dependent, it seemed independent of cellular energy production. The epidermal accumulation of [³H]-retinol was reduced by the filtering action of dermis. On the basis of these observations, an in vitro model for the delivery of vitamin A to human skin has been proposed.     

Gene expression of types I and III collagen, decorin, matrix metalloproteinases and tissue inhibitors of metalloproteinases in skin fibroblasts from patients with systemic sclerosis

Cultured fibroblasts from patients with systemic sclerosis (SSc) and normal individuals were examined for gene expression of types I and III collagen, decorin, matrix metalloproteinases (MMP) MMP-1, MMP-2, and MMP-3, tissue inhibitors of metalloproteinases (TIMP) TIMP-1 and TIMP-2, urokinase- and tissue-type plasminogen activators (u-PA and t-PA). Fibroblasts from patients with early stage SSC (less than 1 year duration of disease) exhibited higher levels of types I and III procollagen, decorin, MMP-1, MMP-3, TIMP-1, and PAs than those from normal individuals. The gene expression of procollagen α1(I) and TIMP-1 mRNAs were increased, but those of decorin, MMP-1, MMP-2, and MMP-3 were decreased, in fibroblasts from SSc patients with mid-stage SSc (2 to 4 years duration) as compared with those from normal individuals. In contrast, no significant difference in gene expression was found between fibroblasts from normal individuals and from patients with late-stage SSc (more than 6 years duration). These results suggest that gene expression of collagen, decorin, and degrading factors is dynamically modulated during fibrillogenesis. The responses of procollagen α1(I) mRNA to IL-1 and TGF-β were lower in fibroblasts from SSc patients with early and mid-stage disease, but not in those from patients with-late stage disease, than in control fibroblasts, which indicates that these cytokines may be involved in the earlier phases of fibrosis in SSc. Received: 30 August 1996     

Effects of cyclosporin A on cell proliferation and collagen production by human skin fibroblasts

Cyclosporin A (CSA) is a potent immunosuppressive drug that has been used clinically for the treatment of organ rejection after transplantation as well as for patients with a wide variety of immune-mediated disorders. CSA has recently been reported to be effective in systemic sclerosis, which is a disease of the connective tissues leading to fibrosis of the skin and other involved organs. In this study, we investigated whether CSA affects the cell proliferation and collagen synthesis of human skin fibroblasts. CSA inhibited the DNA synthesis and cell growth of cultured fibroblasts at concentrations of 10(-8) M to 10(-5) M in a dose-dependent manner. The production of both collagen and non-collagenous protein at both the mRNA and protein levels was not affected by 10(-8) to 10(-6) M CSA, but was decreased in the presence of 10(-5) M CSA. These results suggest that CSA may inhibit the proliferation of fibroblasts, but not their synthesis of collagenous and non-collagenous proteins at therapeutic concentrations.     

Dermatopontin expression is decreased in hypertrophic scar and systemic sclerosis skin fibroblasts and is regulated by transforming growth factor-beta1, interleukin-4, and matrix collagen

Dermatopontin is a recently discovered extracellular matrix protein with proteoglycan and cell-binding properties and is assumed to play important roles in cell-matrix interactions and matrix assembly. In this study we examined the expression of dermatopontin mRNA and protein in skin fibroblast cultures from patients with hypertrophic scar and patients with systemic sclerosis. Dermatopontin mRNA and protein levels were reduced in fibroblast cultures from hypertrophic scar lesional skin compared with fibroblasts from normal skin of the same hypertrophic scar patient. Fibroblast cultures from systemic sclerosis patient involved skin also showed significantly reduced expression of dermatopontin compared with normal skin fibroblasts from healthy individuals. We also investigated the effects of cytokines and matrix collagen on dermatopontin expression in normal cultured fibroblasts. Transforming growth factor-beta1 increased dermatopontin mRNA and protein levels, while interleukin-4 reduced dermatopontin expression. Substrate coated with type I collagen reduced dermatopontin mRNA levels, the reduction being more prominent in three-dimensional collagen matrices. Our results suggest that the decreased expression of dermatopontin is associated with the pathogenesis of fibrosis in hypertrophic scar and systemic sclerosis, and that the effect of the cytokines and matrix collagen on dermatopontin may have important implications for skin fibrosis.     

A new method to measure type I and III collagen synthesis in human skin in vivo: demonstration of decreased collagen synthesis after topical glucocorticoid treatment.

Collagen is synthesized as procollagen and large extra domains known as propeptides are cleaved off enzymatically. In the present study we have measured the carboxyterminal propeptide of type I collagen (PICP) and the aminoterminal propeptide of type III collagen (PIIINP) in blister fluids of human skin. High concentrations of PICP were found in the spontaneous blisters of patients with bullous pemphigoid, erysipelas, or erythema multiforme. Detectable amounts were also found in suction blisters induced on healthy skin. Because the concentrations in suction blisters were several times higher than in corresponding serum, most of PICP and PIIINP was derived from the underlying dermis. This method was used for assessing type I and type III collagen synthesis after topical glucocorticoid treatment. Clobetasol-17-propionate (CP) decreased the concentrations of PICP by 75% after 1 d of treatment, the maximum inhibition (92%) being found after 2 d treatment. PIIINP was also affected. Hydrocortisone and hydrocortisone-17-butyrate also decreased the concentrations of PICP and PIIINP, but less markedly than CP. Partial recovery was seen 3 d after stopping the treatment. Thus measurement of collagen type specific propeptides in suction blisters can be used as an estimate of collagen synthesis in vivo, avoiding both local anesthesia and skin biopsing. With radioimmunoassays for PICP and PIIINP a large number of samples can also be processed simultaneously.     

Expression of elastin-related proteins and matrix metalloproteinases in actinic elastosis of sun-damaged skin

Abstract Actinic elastosis is characterized by an accumulation of elastotic material in the upper dermis and is considered to be a manifestation of ultraviolet-induced skin aging. To compare the structural components of the elastotic material in actinic elastosis with those in normal skin, skin specimens were stained with antibodies raised against various elastin-related proteins. Elastotic materials exhibited a strong reaction to the antibodies for elastin, microfibril-associated glycoprotein-1 (MAGP-1), MAGP-4, matrix metalloproteinase 1 (MMP-1), MMP-2 and MMP-3, but a diminished reaction to anti-MMP-9 antibody. Fibroblast cell lines from the upper dermis of affected and unaffected skin were established, and the mRNA levels of MMPs were determined. MMP-1 and -2 mRNA levels were found to be elevated approximately twofold in the fibroblasts from actinic elastosis. Since MMP-1 and -2 are considered to be major enzymes involved in the degradation of matrix components, the accumulation of elastotic materials in actinic elastosis may be related to the degradation process. Received: 3 March 1999 / Received after revision: 26 August 1999 / Accepted: 6 September 1999     

Alginate oligosaccharides modulate cell morphology, cell proliferation and collagen expression in human skin fibroblasts in vitro

Abstract Effects of alginate oligosaccharides on cell proliferation and expression of collagen in cultured skin fibroblasts were studied. The oligosaccharides were found to suppress fibroblast proliferation to half the level in control cultures at a dose of 10 mg/ml during a period of 5 days. The inhibition was accompanied by a change in cell shape. The inhibition of cell proliferation was reversible, since depletion of these oligosaccharides led to a recovery of cell motility. Treatment of confluent cells with 10 mg/ml oligosaccharides for 5 days resulted in a reduction in collagen synthesis to one half of that in control cultures and inhibition of steady state levels of α₁(I), α₂(I), α₁(III) and α₁(VI) collagen mRNAs. These results suggest that alginate oligosaccharides are potential modulators of dermal fibroblasts and may provide a useful tool for the treatment of disorders related to abnormal collagen metabolism. Received: 16 October 1998 / Received after revision: 8 February 1999 / Accepted: 12 February 1999     

Transforming growth factor-beta stimulates wound healing and modulates extracellular matrix gene expression in pig skin: incisional wound model

Enhanced wound healing is elicited by exogenous administration of transforming growth factor- beta 1 (TGF- beta 1) in split-thickness, excisional wounds in the pig (Quaglino, Lab Invest 63:307-319, 1990). A study was designed to investigate if the selective and localized effects of TGF-beta 1 found in the previous model were dependent upon the type of wound or could be considered a more general effect of the cytokine. Transdermal, sutured incisions in the pig were evaluated by conventional histology and by in situ hybridization to reveal locally affected gene expression of collagen, elastin, fibronectin, stromelysin, TGF- beta 1, and basic fibroblast growth factor. Granulation tissue formation was markedly enhanced at 6 d by a single injection of recombinant human TGF beta 1 at the time of wound closure. Although granulation tissue was confined within the margins of the incisional wound, prominent differences in hybridization signals were observed between control and treated wounds. The stimulatory effect of TGF- beta 1 on granulation tissue formation was accompanied by a distinct enhancement in cells expressing mRNA for several different extracellular matrix proteins including collagens type I and III and elastin, whereas a single injection of human recombinant TGF beta 1 (4 micrograms) at the wound site diminished the expression of the neutral metalloprotease, stromelysin, and enhanced the frequency and intensity of cells expressing TGF- beta 1. The data reinforce the concept that TGF- beta 1 can act as a potent, auto-inductive modulator of connective tissue remodeling during the repair process.     

Effect of gammadelta T cell supernatant on human skin fibroblast proliferation and collagen production--possible role of transforming growth factor-beta and basic fibroblast growth factor

Background Perivascular mononuclear cell infiltration, vascular injury and diffuse interstitial fibrosis has been shown in systemic sclerosis (SSc). Objective To study a role of cellular immune mechanism inducing fibroblast proliferation and collagen synthesis. Methods The interaction of γδ T‐cell receptor bearing lymphocyte supernatant to human fibroblast proliferation and collagen synthesis was studied. Results The fibroblasts added with γδ T cell supernatant showed increased proliferation compared with those without it and that added with αβ supernatant. The endothelial cells added with γδ T cell supernatants, however, showed significantly decreased proliferation compared with those without it and that added with αβ T cell supernatant. The fibroblasts added with endothelial cell supernatant showed increased proliferation compared with those without it. A doubling of collagen synthesis was observed when human skin fibroblasts were maintained in all of the supernatant. The collagen synthesis was inhibited by antitransforming growth factor‐β antibody and antibasic fibroblast growth factor antibody. Conclusion γδ T–cell‐receptor bearing lymphocyte has proliferative and collagen synthesis activity to human skin fibroblasts, but suppressive to endothelial cells.     

Corticotropin-releasing hormone stimulates angiogenesis and epithelial tumor growth in the skin

The hypothalamic neuropeptide corticotropin-releasing hormone is the major hypothalamic regulator of the endocrine pituitary-adrenal axis. Corticotropin-releasing hormone is also expressed in many peripheral sites, where its functions are unclear. It is also secreted by diverse neoplasms, where it may be associated with malignant behavior. To provide information regarding the function of corticotropin-releasing hormone in peripheral sites and in tumors, we asked whether corticotropin-releasing hormone has angiogenic properties. In vitro, we found that human corticotropin-releasing hormone specifically stimulates endothelial chemotaxis via a corticotropin-releasing hormone receptor-dependent mechanism. In vivo, subcutaneous inoculation of nude mice with human epithelial tumor cells engineered to secrete corticotropin-releasing hormone was associated with significantly enhanced angiogenesis (2.3-fold over control) and tumor growth (5-fold over control). Peripheral corticotropin-releasing hormone may thus enhance local angiogenesis, which may provide clues to its function outside of the nervous system.     

H2O2 accumulation by catalase reduction changes MAP kinase signaling in aged human skin in vivo

To understand the molecular alterations occurring during the aging process, we compared mitogen-activated protein (MAP) kinase activities in the intrinsically aged and photoaged skins in the same individuals. Furthermore, we investigated the molecular events related to MAP kinase changes in intrinsically aged and photoaged skins. We found that extracellular-signal-regulated kinase (ERK) activity in photoaged skin was reduced, and that the activities of c-Jun N-terminal kinase (JNK) and p38 kinase were increased compared with intrinsically aged skin in the same individuals. Phospho-c-Jun levels and activator protein 1 activities in photoaged skin were also higher than in intrinsically aged skin. Moreover, catalase activity was found to be much reduced in primary dermal fibroblasts from photoaged skin, and as a result, H2O2 accumulated more in primary dermal fibroblasts in photoaged skin. In addition, treating primary dermal fibroblasts from photoaged skin with catalase reduced H2O2 levels, reversed aging-dependent MAP kinase changes, and inhibited matrix metalloproteinase (MMP)-1 expression. Our results indicate that the accumulation of reactive oxygen species due to catalase attenuation may be a critical aspect of the MAP kinase signaling changes that may lead to skin aging and photoaging in human skin in vivo. Thus, the induction and regulation of endogenous antioxidant enzymes including catalase may offer a strategy for preventing and treating skin aging.