Increased numbers of tryptase-positive mast cells in the healthy and sun-protected skin of tobacco smokers.

BACKGROUND: Tobacco smoking may cause skin aging through mast cell proteinases. OBJECTIVE: To compare the numbers of mast cells showing tryptase and chymase in the healthy-looking skin of smokers and non-smokers. METHODS: The study subjects consisted of 80 males, 42 of whom were smokers and 38 non-smokers. A skin biopsy from the medial arm was processed for immunohistochemical staining of tryptase and chymase, as well as chymase inhibitors alpha-1-proteinase inhibitor (alpha-1-PI) and alpha-1-antichymotrypsin (alpha-1-AC). RESULTS: The number of tryptase(+) mast cells was significantly higher in the smoker group (84 ± 32 cells/mm(2)) than in the non-smoker group (70 ± 32 cells/mm(2)) (p = 0.044). Likewise, the number of chymase(+) mast cells was higher in the smoker group (89 ± 20 vs. 80 ± 22 cells/mm(2)), though statistical significance was not reached (p = 0.07). No significant difference was observed in alpha-1-PI(+) and alpha-1-AC(+) cells. CONCLUSION: Especially tryptase, but probably also chymase, may have an influence on the skin of smokers, such as wrinkling and aging.

Skin collagen synthesis is depressed in patients with severe sepsis.

BACKGROUND: Skin is an essential barrier in maintaining a stable internal environment. Adequate regenerative capacity is crucial to overcome the homeostatic challenges caused by a septic insult. In sepsis, coagulation and inflammation are activated to restore homeostasis, but it is not known whether sepsis also alters tissue regeneration processes such as skin collagen synthesis. METHODS: In this prospective observational study, we measured aminoterminal propeptides of collagens I and III (PINP, PIIINP) from blister fluid of sepsis patients. Blister fluid was obtained from experimental blisters induced on intact abdominal skin 4 times: within the first 48 hours from the first organ failure, on the fifth day, and at 3 and 6 months thereafter. Forty-four patients with severe sepsis were enrolled. The median age was 63 years (25th-75th percentile, 53-71 years). The median Acute Physiology and Chronic Health Evaluation II score on admission was 26 (22-30). Thirty-day mortality was 25%. Fifteen healthy adults were used as controls. RESULTS: Median PIIINP and PINP levels in septic patients were lower in comparison with controls in the first blister (40.8 microg/L [25th-75th percentile, 22.2-77.1 microg/L], P = 0.028 and 69.9 microg/L [32.4-112.7 microg/L], P < 0.001, respectively) and in the blister induced on day 5 (38.8 microg/L [19.9-68.5 microg/L], P < 0.001 and 90.0 [35.1-138.8 microg/L], P < 0.001, respectively). The survivors revealed an overexpression at 3 months, whereas normal values of PIIINP and PINP were reestablished at 6 months. CONCLUSIONS: Skin collagen synthesis is depressed during severe sepsis and is followed by a compensatory response 3 and 6 months after the onset of sepsis.

Matrix-metalloproteinase-2, -8 and -9 in serum and skin blister fluid in patients with severe sepsis.

INTRODUCTION: Matrix metalloproteinases (MMPs) have various roles in inflammatory states. They seem to be able to modulate endothelial barriers and regulate the activity of chemokines and cytokines. The timely development of the levels during severe sepsis and thereafter have not been investigated. In addition it was of interest to study alterations of MMP-levels in intact skin, as the skin is the largest barrier against external pathogens and MMPs have not been studied at organ level in human sepsis. The aim of this study was to investigate the timely development of serum and skin MMP-2, -8 and -9 levels in human severe sepsis and their association with disease severity and mortality. METHODS: Forty-four patients with severe sepsis and fifteen healthy controls were included in this prospective longitudinal study. The amounts of MMP-2, -8 and -9 were analyzed from serum at days 1, 4, 6, 8, and 10, and from skin suction blister fluid at days 1 and 5 from the beginning of severe sepsis. Additionally, samples from the survivors were obtained after three and six months. RESULTS: The levels of MMP-2 and -8 were up-regulated in severe sepsis in comparison to healthy controls in skin blister fluid and serum. Compared to the controls MMP-9 levels were lower in sepsis from the fourth day on in serum and both the first and fifth day in skin blister fluid. Active forms of MMP-2 and -9 were present only in severe sepsis. The non-survivors had higher pro- and active MMP-2 levels than the survivors in skin blister fluid samples. Furthermore, MMP-2 levels were more pronounced in blister fluid and serum samples in patients with more severe organ failures. In the survivors at 3 and 6 month follow-up the MMP levels had returned to normal. CONCLUSIONS: MMP-2 and -8 are elevated in serum and blister fluid in severe sepsis, implying that they may play a significant role in the pathogenesis of severe sepsis and organ dysfunctions. Active forms of MMP-2 and 9 were only present in patients with severe sepsis, and higher MMP-2 levels in skin blister and serum were associated with more severe organ dysfunctions.

Hydroxychloroquine induces autophagic cell death of human dermal fibroblasts: implications for treating fibrotic skin diseases.

Hydroxychloroquine (HCQ) is widely used to treat rheumatic and inflammatory diseases. It inhibits inflammation by downregulating the effects of inflammatory cells and their mediators. Although HCQ has been used to treat several fibrotic skin diseases, the mechanisms by which it exerts its effects on human dermal fibroblasts (HDFs) have not been studied in detail. In this issue, Ramser et al. show that HCQ inhibits proliferation of HDFs and induces autophagy. These observations are supported by the demonstration that HCQ upregulates Beclin-1, a key regulator of autophagy. Future studies are needed to determine whether HCQ induces autophagy in vivo and whether antimalarials have antifibrotic effects when used in clinically relevant doses.

Epidermal wound healing in severe sepsis and septic shock in humans.

INTRODUCTION: The effect of sepsis on epidermal wound healing has not been previously studied. It was hypothesised that epidermal wound healing is disturbed in severe sepsis. METHODS: Blister wounds were induced in 35 patients with severe sepsis and in 15 healthy controls. The healing of the wounds was followed up by measuring transepidermal water loss and blood flow in the wound, reflecting the restoration of the epidermal barrier function and inflammation, respectively. The first set of suction blisters (early wound) was made within 48 hours of the first sepsis-induced organ failure and the second set (late wound) four days after the first wound. In addition, measurements were made on the intact skin. RESULTS: The average age of the whole study population was 62 years (standard deviation [SD] 12). The mean Acute Physiology and Chronic Health Evaluation II (APACHE II) score on admission was 25 (SD 8). The two most common causes of infections were peritonitis and pneumonia. Sixty-six percent of the patients developed multiple organ failure. The decrease in water evaporation from the wound during the first four days was lower in septic patients than in the control subjects (56 g/m2 per hour versus 124 g/m2 per hour, P = 0.004). On the fourth day, septic patients had significantly higher blood flow in the wound compared with the control subjects (septic patients 110 units versus control subjects 47 units, P = 0.001). No difference in transepidermal water loss from the intact skin was found between septic patients and controls. Septic patients had higher blood flow in the intact skin on the fourth and on the eighth day of study compared with the controls. CONCLUSIONS: The restoration of the epidermal barrier function is delayed and wound blood flow is increased in patients with severe sepsis.

Markers of collagen synthesis and degradation are increased in serum in severe sepsis: a longitudinal study of 44 patients.

INTRODUCTION: Sepsis-related multiple organ dysfunction is a common cause of death in the intensive care unit. The effect of sepsis on markers of tissue repair is only partly understood. The aim of this study was to measure markers of collagen synthesis and degradation during sepsis and investigate the association with disease severity and outcome. METHODS: Forty-four patients with severe sepsis participated in the study and 15 volunteers acted as controls. Blood samples were collected for 10 days after the first sepsis-induced organ dysfunction and after three and six months. Procollagen type I and III aminoterminal propeptides (PINP and PIIINP) and cross-linked telopeptides of type I collagen (ICTP) were measured. RESULTS: The PIIINP concentration was elevated in the septic patients (8.8 microg/L, 25th to 75th percentile = 6.8 to 26.0) when compared with controls (3.0 microg/L, 25th to 75th percentile = 2.7 to 3.3; P < 0.001) on day one. Maximum serum PIIINP concentrations during sepsis were higher in non-survivors compared with survivors (26.1 microg/L, 25th to 75th percentile = 18.7 to 84.3; vs. 15.1 microg/L, 25th to 75th percentile = 9.6 to 25.5; P = 0.033) and in multiple organ failure (MOF) compared with multiple organ dysfunction syndrome (MODS) (24.2 ug/L, 25th to 75th percentile = 13.4 to 48.2; vs. 8.9 microg/L, 25th to 75th percentile = 7.4 to 19.4; P = 0.002). Although the PINP values of the septic patients remained within the laboratory reference values, patients with MOF had higher values than patients with MODS (79.8, 25th to 75th percentile = 44.1 to 150.0; vs.40.4, 25th to 75th percentile = 23.6 to 99.3; P = 0.007). Day one ICTP levels were elevated in septic patients compared with the controls (19.4 microg/L, 25th to 75th percentile = 12.0 to 29.8; vs. 4.1 microg/L, 25th to 75th percentile = 3.4 to 5.0; P < 0.001). CONCLUSIONS: Markers of collagen metabolism are increased in patients with severe sepsis and can be investigated further as markers of disease severity and outcome.

Reevaluation of the normal epidermal calcium gradient, and analysis of calcium levels and ATP receptors in Hailey-Hailey and Darier epidermis.

Electron probe microanalysis was used to analyze elemental content of human epidermis. The results revealed that the calcium content of the basal keratinocyte layer was higher than that of the lowest spinous cell layer in normal epidermis. This was surprising, as it is generally accepted that the calcium level increases with cellular differentiation from the proliferative basal layer to the stratum corneum. Hailey-Hailey disease (HHD) and Darier disease (DD) are caused by mutations in Ca(2+)-ATPases with the end result of desmosomal disruption and suprabasal acantholysis. The results demonstrated three major aberrations in HHD and DD lesions. First, in HHD and DD lesions the calcium content in the basal layer was lower than in the normal skin. Second, adenosine triphosphate (ATP) receptor P2Y2 was not localized to plasma membrane in acantholytic cells, whereas P2X7 appeared in the plasma membrane, potentially mediating apoptosis. Third, transition of keratin 14 to keratin 10 was abnormal as demonstrated by the presence of keratinocytes expressing both cytokeratins, which are usually exclusive in normal epidermis. Our results provide to our knowledge previously unreported elements for understanding how the disturbed calcium gradient is linked to the alterations in ATP receptors and keratin expression, leading to the clinical findings in HHD and DD.

Tight junctions in Hailey-Hailey and Darier's diseases.

Hailey-Hailey disease (HHD) and Darier's disease (DD) are caused by mutations in Ca(2+)-ATPases with the end result of desmosomal disruption and suprabasal acantholysis. Tight junctions (TJ) are located in the granular cell layer in normal skin and contribute to the epidermal barrier. Aberrations in the epidermal differentiation, such as in psoriasis, have been shown to lead to changes in the expression of TJ components. Our aim was to elucidate the expression and dynamics of the TJ proteins during the disruption of desmosomes in HHD and DD lesions. Indirect immunofluorescence and avidin-biotin labeling for TJ, desmosomal and adherens junction proteins, and subsequent analyses with the confocal laser scanning microscope were carried out on 14 HHD and 14 DD skin samples. Transepidermal water loss (TEWL) was measured in normal and lesional epidermis of nine HHD and eight DD patients to evaluate the function of the epidermal barrier in HHD and DD skin. The localization of TJ proteins claudin-1, claudin-4, ZO-1, and occludin in perilesional HHD and DD epidermis was similar to that previously described in normal skin. In HHD lesions the tissue distribution of ZO-1 expanded to the acantholytic spinous cells. In agreement with previous findings, desmoplakin was localized intracellularly. In contrast claudin-1 and ZO-1 persisted in the cell-cell contact sites of acantholytic cells. TEWL was increased in the lesional skin. The current results suggest that TJ components follow different dynamics in acantholysis of HHD and DD compared to desmosomal and adherens junction proteins.

Reliability and validity of a bioimpedance measurement device in the assessment of UVR damage to the skin.

Ultraviolet radiation (UVR) is the primary cause of skin cancers. However, it is difficult to evaluate the amount of UVR absorbed into the skin retrospectively. Therefore, objective and non-invasive quantitative method would be valuable for epidemiological UVR exposure assessment. Photodamage reduces the amount of bound water in the skin, and thus, measuring the skin's dielectric constant can provide an opportunity for assessing the cumulative UVR exposure. The purpose of the study was to assess the reliability and validity of the bioimpedance device, Moisture Meter-D. The measurements were performed on 100 subjects at three separate measurement times. A questionnaire was used to obtain information on the host factors and on the past UVR exposure. The biological samples, to determine the elastin proportion of the dermis, were collected. Some long-term as well as seasonal variations in the dielectric constants were detected. Also, a weak relationship between the dielectric constant and the UVR exposure indicators and host factors was observed. The MoistureMeter-D appears not to measure structural alterations in the skin caused by photodamage, and thus it is not a valid instrument for the assessment of photodamage, i.e., past UVR exposure.

Action of topical thyroid hormone analogue, triiodothyroacetic acid in reversing glucocorticoid-induced skin atrophy in humans.

The present study concerns the effect of topical treatment with a cream formulation of triiodothyroacetic acid (TRIAC) in comparison with a placebo preparation in producing a reversal of skin atrophy induced by long-term employment of topical glucocorticoid therapy in humans. A total of 39 patients with clinically verified skin atrophy due to long-term use of topical potent glucocorticoids were randomized. The changes in skin thickness, elastic fibers, and hyaluronic acid were evaluated by means of sonography and histology. After 8 weeks' treatment, the skin thickness measured by sonography increased by 16% in the epidermis, 8% in the dermis, and epidermis + dermis in the placebo group. In the TRIAC 0.1% group, the corresponding values were 24% ( p=0.063) in the epidermis, 28% ( p=0.042) in the dermis, and 25% ( p=0.039) in the epidermis + dermis. After 8 weeks, in the placebo group, the skin thickness measured by biopsy increased by 5% in the epidermis, epidermis + dermis, and 6% in the dermis. In the TRIAC 0.1% group, the corresponding values were 31% ( p=0.041) in the epidermis, 46% ( p=0.041) in the dermis and 44% ( p=0.043) in the epidermis + dermis. After 8 weeks, the elastic fibers of moderately irregular and thickened fibers increased by 56% in the placebo group and 100% ( p=0.043) in the TRIAC 0.1 group. This study indicates that topical treatment with TRIAC appears to reverse glucocorticoid-induced skin atrophy under the narrow conditions tested.

Levels of matrix metalloproteinase-2, -9 and -8 in the skin, serum and saliva of smokers and non-smokers.

Smoking induces skin ageing, affects wound healing and inflammatory responses in skin and mucous membranes but the mechanisms behind these adverse effects of smoking are not clear. The objective was to elucidate the mechanisms of smoking-related tissue damage, by comparing the levels of matrix metalloproteinases (MMPs) -2, -9, and -8 in the skin, serum and saliva of smokers and non-smokers. The study population consisted of 47 current smokers and 51 non-smokers, all males of Finnish origin. Skin samples from the upper inner arm were frozen in liquid nitrogen. Levels of MMP-2 and MMP-9 protein in the skin were assessed by zymography and MMP-8 isoforms were determined by Western blotting. From the serum samples, MMP-2 and MMP-9 were assessed by zymography and MMP-8 levels by time-resolved immunofluorometric assay (IFMA). From the salivary samples, MMP-8 levels were analysed by IFMA and MMP-9 levels by capture activity assay. In skin tissue, lower levels of both the pro and active forms of MMP-9 and of the active forms of MMP-8 were found in the smokers compared to the non-smokers. In serum, higher levels of proMMP-2 and proMMP-9 were found in the smokers compared to the non-smokers (P=0.001 and P<0.001, respectively), whereas MMP-8 levels did not differ significantly between the groups. Active forms of MMP-9 and MMP-2 could not be found in serum. In saliva, the amount of total MMP-9 was significantly lower in the smokers (156.0 U/ml) compared to the non-smokers (223.9 U/ml, P=0.032), whereas the levels of MMP-8 or active MMP-9 did not differ significantly between the groups. We conclude that smoking alters the levels of matrix metalloproteinases in skin tissue, serum and saliva, which may affect the turnover of extracellular matrix of skin even though the clinical impact of our findings is not clear.

NF1 tumor suppressor in epidermal wound healing with special focus on wound healing in patients with type 1 neurofibromatosis.

Type 1 neurofibromatosis syndrome (NF1) has been linked with mutations of the NF1 gene which encodes tumor suppressor neurofibromin, a regulator of Ras-MAPK signaling. In human epidermis, keratinocytes express NF1 tumor suppressor and it may have a distinctive function in these cells during wound healing, such as regulating Ras activity. NF1 expression was first studied during the epidermal wound healing using suction blister method. NF1 gene expression increased both in hypertrophic and migrating zones of the healing epidermis, and also in dermal fibroblasts underneath the injury. This prompted us to study epidermal wound healing in NF1 patients. Wound healing efficiency was evaluated 4 days after blister induction by clinical, physiological and histological methods. Epidermal wound healing was equally effective in NF1 patients and healthy controls. In addition, dermal wound healing appears to function normally in NF1 patients based on retrospective and follow-up study of biopsy scars. Furthermore, the healing wounds were analyzed immunohistochemically for cell proliferation rate and Ras-MAPK activity. Neither epidermal keratinocytes nor dermal fibroblasts showed difference in the cell proliferation rate or Ras-MAPK activity between NF1 patients and controls. Interestingly, NF1 patients displayed increased cell proliferation rate and Ras-MAPK activity in periarteriolar tissue underneath the wound. The results of the study suggest that epidermal wound healing is not markedly altered in NF1 patients. Furthermore, NF1 protein seems not to have an important function as a Ras-MAPK regulator in epidermal keratinocytes or dermal fibroblasts but instead appears to be regulator of Ras-MAPK signaling in vascular tissues.

Collagen synthesis and degradation in polyneuropathy and myopathies.

To determine the mechanisms underlying the changes in collagen metabolism responsible for muscle fibrosis in patients with neuromuscular diseases, the synthesis and degradation of collagens was studied in muscles of patients with polyneuropathy and noninflammatory myopathies. The mRNA levels for type I, III, and IV collagens and immunohistochemical staining intensities for collagen propeptides and telopeptides were increased in polyneuropathy, suggesting enhanced synthesis of collagens. In myopathy, the mRNA levels were at the control level. Matrix metalloproteinase (MMP)-2 mRNA level was increased in polyneuropathy, although the quantity of proMMP-2 was not changed. An increase in type IV collagen concentration and proMMP-9 expression was observed in polyneuropathy but not in myopathies. Our results suggest that intramuscular accumulation of type IV collagen occurs in polyneuropathy, possibly leading to thickening of the capillary and muscle fiber basement membranes. This may complicate the transportation of nutrients and cellular excreta between blood and muscle cells.

The production of collagen and the activity of mast-cell chymase increase in human skin after irradiation therapy.

Fibrosis is a common complication of radiotherapy. The pathogenesis of radiation-induced fibrosis is not known in detail. There is increasing evidence to suggest that mast cells contribute to various fibrotic conditions. Several mast-cell mediators have been proposed to have a role in fibrogenesis. Tryptase and chymase, the predominant proteins in mast cells, have been shown to induce fibroblast proliferation and collagen synthesis in vitro. In order to explore the role of mast cells in irradiation-induced fibrosis, we analyzed skin biopsies and suction blister fluid (SBF) samples from the lesional and healthy-looking skin of 10 patients who had been treated for breast cancer with surgery and radiotherapy. The biopsies were analyzed histochemically for mast-cell tryptase, chymase, kit receptor, and tumor necrosis factor-alpha. Skin collagen synthesis was assessed by determining the levels of type I and III procollagen amino-terminal propeptides (PINP and PIIINP) in SBF and using immunohistochemical staining for PINP. Immunohistochemical stainings for prolyl-4-hydroxylase reflecting collagen synthesis and chymase immunoreactivity in irradiated and control skin were also performed. The mean level of procollagen propeptides in SBF, which reflects actual skin collagen synthesis in vivo, was markedly increased in irradiated skin compared to corresponding healthy control skin areas. The mean number of PINP-positive fibroblasts was also significantly increased in the upper dermis of radiotherapy-treated skin. The number of cells positive for tryptase, chymase and kit receptor was markedly increased in irradiated skin. In addition, using double-staining techniques, it was possible to demonstrate that in some areas of the dermis, tryptase-positive mast cells and fibroblasts are closely associated. These findings suggest a possible role of mast cells in enhanced skin collagen synthesis and fibrosis induced by radiotherapy.

A thyroid hormone analogue, triiodothyroacetic acid, corrects corticosteroid-downregulated collagen synthesis.

The aim of this study was to compare the change in collagen synthesis between topical treatments with two doses of triiodothyroacetic acid (TRIAC), a thyroid hormone analogue, and placebo, after pretreatment with topical betamethasone 17-valerate (BM). Eighteen healthy volunteers were pretreated with BM on abdominal skin for 3 days, and were then treated for 14 days with a cream containing TRIAC (0.03% or 0.1%) or a placebo cream. Collagen production was assessed by quantifying the amino terminal propeptides of human type I and type III procollagen (PINP and PIIINP) in fluids from suction-induced blisters on the treated skin. Three days of treatment with BM led to an average reduction of PINP of 70% and of PIIINP of 50%. Seven days after treatment, the median increase in PINP was 230% (p = 0.03) in the Triac 0.03% group, 148% (p = 0.2) in the TRIAC 0.1% and 5% in the placebo group. The median increase in PINP in the skin area from the start of treatment to the end of treatment was 521% (p = 0.06) in the TRIAC 0.03% group, 339% (p = 0.2) in the TRIAC 0.1% group, and 55% in the placebo group (the p values are related to baseline). Seven days after treatment, the median increase in PIIINP was 24% (p = 0.6) in the Triac 0.03% group, 23% (p = 0.6) in the TRIAC 0.1% group, and -12% in the placebo group. The median increase in PIIINP in the skin area from the start of treatment to the end of treatment was 137% (p = 0.7) in the TRIAC 0.03% group, 230% (p = 0.9) in the TRIAC 0.1% group and 58% in the placebo group (the p values are related to baseline). Histologic examinations of sections from punch biopsies taken at the end of the treatment showed more thickened collagen fibers and increased density of PINP-producing dermal fibroblasts in the TRIAC groups compared to the placebo group. The result suggests a potential role for TRIAC-containing cream concomitant with anti-inflammatory topical treatment with potent glucocorticoids to prevent their suppressive activity on dermal collagen production.

Comparison of clinical and computerized image analyses in the assessment of skin ageing in smokers and non-smokers.

Tobacco smoke and UV radiation are extrinsic risk factors for accelerated skin ageing. In this study the effects of smoking on wrinkling and ageing were assessed in males living in Northern Finland, where cumulative sun exposure is low. Smoking habits, age and facial wrinkling were estimated from facial photographs of 41 smokers and 48 non-smokers by eight panellists, using a blinded standardized assessment. Wrinkling of 26 smokers and 31 non-smokers was also assessed by computerized image analysis. The panellists identified 68% of the smokers correctly as being smokers and the smokers were estimated as being an average of 2.1 years older than their age by the panellists, whereas the non-smokers were estimated as being an average of 0.7 years younger than their age (p < 0.05). No significant difference in skin wrinkling was found between the groups by either clinical assessment or by computerized image analysis. In conclusion, even in the absence of increased wrinkling, the smokers looked older than their age and a majority of them could be identified as smokers by their facial features alone.

Increased expression of collagen types I and III in human skin as a consequence of radiotherapy.

To study the mechanisms of irradiation-induced fibrosis, the expression of types I and III collagen was analysed in radiotherapy-treated human skin. The subjects were ten randomly chosen women who had been treated for breast cancer with surgery and radiotherapy. The subjects ranged in age from 42 to 68 years (mean 53 years) and the time from treatment ranged from 7 to 94 months. The irradiated skin was compared with a corresponding healthy skin area in the same subject. Suction blisters were induced on both skin areas. The aminoterminal propeptides of types I and III collagen (PINP and PIIINP), which reflect actual in vivo skin collagen synthesis, were determined in the suction blister fluid using radioimmunoassays. mRNA of types I and III collagen were determined in skin specimens using a nonradioactive in situ hybridization (ISH) technique. Immunohistochemical staining for PINP was also performed. The level of PINP in suction blister fluid was increased more than threefold and the level of PIIINP more than twofold in irradiated skin compared to control skin. The number of cells containing type I and type III collagen mRNA was increased in the upper dermis of irradiated skin. Immunohistochemical staining showed the amount of PINP-positive fibroblasts to be increased in irradiated skin. We conclude that skin collagen gene expression is increased as a result of irradiation and this leads to fibrosis and thickening of the dermis.