Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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One of the more prominent clinical treatments for skin diseases such as psoriasis and vitiligo involves the use of a combination of psoralens and UV light, a procedure referred to as PUVA chemotherapy. This drug regimen markedly alters epidermal cell growth and differentiation. In many cell types, an early cellular event following treatment of cells with PUVA is inhibition of binding of epidermal growth factor (EGF) to its receptor. To examine the mechanism underlying this effect, we used A431 cells, a human epidermal cell line known to express large numbers of EGF receptors. We found that exposure of A431 cells to PUVA caused a dramatic inhibition of EGF-stimulated EGF receptor tyrosine kinase activity. Inhibition required intact cells and did not appear to be mediated by protein kinase C, because this inhibition was apparent in cells in which the enzyme was down-regulated by phorbol ester pretreatment and in cells treated with inhibitors of protein kinase C. Inhibition of tyrosine kinase activity by PUVA was distinct from other inhibitors of EGF receptor function in that it was associated with a rapid increase in the amount of phosphate incorporated into serine residues of the EGF receptor. This suggested that PUVA-induced serine phosphorylation may mediate EGF receptor kinase activity. These results demonstrate that alterations in EGF receptor function may contribute to the therapeutic efficacy of PUVA in photo-chemotherapy.
Mol Pharmacol 1989 Dec
PMID:Inhibition of epidermal growth factor receptor tyrosine kinase activity in A431 human epidermoid cells following psoralen/ultraviolet light treatment. 255 35

Electron microscopic investigation of skin biopsies revealed that keratinocytes in clinically uninvolved skin from psoriatic patients show the same mitochondrial ring phenomenon after the application of dithranol as has been observed in the cutaneous lesions proper. In various other skin diseases no mitochondrial reaction was evident after dithranol treatment, nor was it seen in chronic dermatitis when dithranol was not applied. It appears, therefore, that this morphological phenomenon is specific to psoriasis and may provide information concerning functional alterations in the pathogenesis of this disease.
Virchows Arch B Cell Pathol Incl Mol Pathol 1988
PMID:Unusual mitochondrial reaction in psoriatic keratinocytes. 290 91

Eleven axillary lymph nodes from patients with different cutaneous disorders (systemic scleroderma, atopic eczema, psoriasis, hairy cell erythroderma, dermatopathic lymphadenitis) were examined by electron microscopy. In systemic scleroderma interdigitating cells (IDC's) showed typical ultrastructural features as well as intimate contacts with neighboring lymphocytes. In atopic eczema IDC's were characterized by widespread invaginations of the cell membrane, and an increase in tubulo-vesicular structures and microfilaments. Similar observations have been made in dermatopathic lymphadenitis. In psoriasis and hairy cell erythroderma. IDC's showed only a few interdigitations and invaginations of the cell surface. It is supposed that these structural changes in IDC's reflect the different immunological conditions of the diverse cutaneous disorders.
Virchows Arch B Cell Pathol Incl Mol Pathol 1980
PMID:Ultrastructural differences of interdigitating cells in human lymph nodes. 610 48

It is generally accepted that in psoriasis there is an alteration of epidermal cell proliferation. It has been reported that an increased rate of thymidine incorporation into keratinocytes is found in the upper part of the hair follicle in involved skin, but this is not the case in the lower part. Here we show that cells from psoriatic hair follicles could be brought in culture under the same conditions as those of normal hair follicles. Cells, whether originating from the upper or lower part of the hair follicle sheath either from involved or uninvolved psoriatic skin, show a faster rate of outgrowth in the first days of culture. Moreover, a large number of psoriatic cells have an increased motility in the early stages of culture, as compared to control cells. These properties can no longer be observed after several days in culture. The activity of glucose-6-phosphate dehydrogenase known to be increased in psoriatic plaques is normal in hair follicles isolated from these plaques. Protein gel electrophoretic investigations showed that there is no difference in gel patterns between normal and psoriatic hair follicles. In conclusion, the isolation of human hair follicles represents a simple method that allows psoriatic keratinocytes to be brought in culture and permits the study of certain aspects of the disease.
Mol Biol Rep 1984 Jul
PMID:Psoriatic hair follicle cells. I. Biochemistry and behavior in culture. 647 58

Epidermal keratinocytes have important immunologic functions, which is apparent during wound healing, in psoriasis, and in allergic and inflammatory reactions. In these processes, keratinocytes not only produce cytokines and growth factors that attract and affect lymphocytes but also respond to the polypeptide factors produced by the lymphocytes. Gamma interferon (IFN-gamma) is one such signaling polypeptide. Its primary molecular effect is activation of specific transcription factors that regulate gene expression in target cells. In this work, we present a molecular mechanism of lymphocyte-keratinocyte signaling in the epidermis. We have induced cutaneous delayed-type hypersensitivity reactions that are associated with an accumulation of lymphocytes. These resulted in activation and nuclear translocation of STAT-91, the IFN-gamma-activated transcription factor, in keratinocytes in vivo and subsequent induction of transcription of keratin K17. Within the promoter of the K17 keratin gene, we have identified and characterized a site that confers the responsiveness to IFN-gamma and that binds the transcription factor STAT-91. Other keratin gene promoters tested were not induced by IFN-gamma. These results characterize at the molecular level a signaling pathway produced by the infiltration of lymphocytes in skin and resulting in the specific alteration of gene expression in keratinocytes.
Mol Cell Biol 1994 Jul
PMID:Disease-activated transcription factor: allergic reactions in human skin cause nuclear translocation of STAT-91 and induce synthesis of keratin K17. 751 73

In a series of transgenic mice, the human tissue collagenase gene was expressed in the suprabasal layer of the skin epidermis. Visually, the mice had dry and scaly skin which upon histological analysis revealed acanthosis, hyperkeratosis, and epidermal hyperplasia. At the ultrastructural level, intercellular granular materials were absent in the transgenic skin epidermis but contact was maintained through the intact desmosomes. Despite a diversity of underlying etiologies, similar morphological hyperproliferative changes in the epidermis are observed in the human skin diseases of lamellar ichthyosis, atopic dermatitis, and psoriasis. Subsequent experiments demonstrate that when the transgenic mouse skin was treated once with an initiator (7,12-dimethyl-benz[a]anthracene) and then twice weekly with a promoter (12-O-tetradecanoylphorbol-13-acetate), there was a marked increase in tumor incidence among transgenic mice compared with that among control littermates. These experiments demonstrate that by overexpressing the highly specific proteolytic enzyme collagenase, a cascade of events leading to profound morphological changes which augment the sensitivity of the skin towards carcinogenesis is initiated in the epidermis.
Mol Cell Biol 1995 Oct
PMID:Collagenase expression in transgenic mouse skin causes hyperkeratosis and acanthosis and increases susceptibility to tumorigenesis. 756 25

A retinoic acid (RA) inducible skin-specific gene transcript (RIS-1) was isolated by differential hybridization screening of a RA-treated human skin cDNA library. The library was constructed from pooled RNA derived from normal adult human skin treated with all trans-RA for 4 h (n = 6) and 12 h (n = 6) in vivo. RIS-1 cDNA corresponded to a 0.6 kb transcript that was barely detectable in normal adult human skin but was significantly induced by 8 h in RA-treated compared to vehicle-treated skin (range 1.1-3.6 fold). Prolonged RA treatment for up to 24 h further increased relative RIS-1 mRNA levels by 1.3-5.5 fold. HPLC analysis of the RA content of 0.1% RA-treated skin in vivo revealed significant levels at 6 h (18.8-120.6 ng RA/g wet weight tissue; approximately 240 nM), immediately preceding the time point at which the increased RIS-1 mRNA level was first seen. This concentration of RA also induced the mRNA levels for cellular RA binding protein II (1.6-19 fold), a marker of RA activity in human skin. RIS-1 mRNA was detected by Northern and dot blotting only in normal skin but not in any other normal human tissues examined, indicating a tissue-specific pattern of gene expression. RIS-1 transcripts were detected at very low levels in untreated cultured human epidermal keratinocytes, while no expression was seen in dermal fibroblasts and melanocytes, the other major cell types in skin. Southern analysis of human and mouse DNA indicated the existence of evolutionarily conserved sequences for RIS-1 between these two species. The polypeptide sequence derived from the partial RIS-1 cDNA was found to be identical to the calcium binding domain found in 'psoriasin', a gene whose expression appears to be increased in the skin of psoriasis patients.
Mol Biol Rep 1994
PMID:A retinoic acid-inducible skin-specific gene (RIS-1/psoriasin): molecular cloning and analysis of gene expression in human skin in vivo and cultured skin cells in vitro. 771 11

The regulation of proteinases secreted by neutrophils is very important for the prevention of tissue injury. We recently described the isolation of elafin from bronchial secretions, a new elastase-specific inhibitor that is also found in the skin of patients with psoriasis. In this study, we investigated the secretion of elafin and mucus proteinase inhibitor (MPI), another inhibitor showing sequence similarity with elafin, in two lung carcinoma cell lines, NCI-H322 and A549, which have features of Clara cells and type II alveolar cells, respectively. The results presented show that the two inhibitors are produced when the cells are cultured either in serum-free or in serum-containing media. MPI was detected immunologically as a unique molecule of M(r) 14 kD, in accordance with previous studies. Conversely, one or two elafin-immunoreactive species were detected depending on the cell line: a 12- to 14-kD species was observed in the A549 cell line, regardless of the culture conditions, whereas in the NCI-H322 cell line we detected a 6-kD species in serum-containing (10% fetal calf serum) conditions and a 12- to 14-kD species in serum-free conditions. The 12- to 14-kD molecule probably represents an active precursor of elafin. Whether the cleavage of the 12- to 14-kD precursor giving rise to the elafin molecule is of any physiologic significance is not known. In showing for the first time that MPI and elafin (and its precursor) are secreted by the A549 cell line, this report implicates the type II alveolar cell in the defense of the peripheral lung against the neutrophil elastase secreted during inflammation.
Am J Respir Cell Mol Biol 1993 Feb
PMID:Secretion of mucus proteinase inhibitor and elafin by Clara cell and type II pneumocyte cell lines. 842 5

The complex nature of epidermal tissue homeostasis is borne out by the range of diseases affecting this tissue. Indeed, mutations in proteins involved in intracellular integrity and cell-cell or cell-matrix adhesion can cause disease in an appropriate epidermal compartment. The most important realization in epidermal disease in the last two years has been that point mutations in key structural genes can result in filaments collapsing, cell cytolysis, or cell adhesion defects; and that these defects can result in severe human skin disease. Now that these associations have been made, the important next step will be to alleviate the suffering of these patients. Animal models will be an important part of these investigations; many molecules including growth factors, oncogenes, and cell adhesion molecules have been targeted to the epidermis of transgenic mice to investigate their role in disease. Such animal models should also elucidate the causes of diseases like psoriasis, a very common skin disease, the molecular basis of which remains elusive. Gene therapy involving the replacement of defective genes or local delivery of therapeutic molecules will be one of the main goals in alleviating these known epidermal diseases. Such protocols in the epidermis are aided by the relative accessibility of the skin and the presence of the "stem cells" in relatively accessible compartments. Indeed, as the last few years have shed much light on the genetic causes of epidermal disease, it is hoped that the next several years will prove as illuminating in the alleviation of these diseases.
Mol Med 1995 Jan
PMID:The latest fashions in skin disease. 852 91

Keratins K6 and K16 are expressed in suprabasal interfollicular epidermis in wound healing and other pathological conditions associated with hyperproliferation, such as psoriasis and are induced when keratinocytes are cultured in vitro. However, these keratins are also constitutively expressed in normal suprabasal mucosal and palmoplantar keratinocytes. Mutations in keratins have been reported in the basal keratin pair K5 and K14 in epidermolysis bullosa simplex and in suprabasal epidermal keratins K1, K2 and K10 in epidermolytic ichthyoses. Two families with autosomal dominant disorder of focal non epidermolytic palmoplantar keratoderma, have oral mucosal and follicular lesions in addition to the palmoplantar hyperkeratosis. Previous studies have shown linkage in these families to the type I keratin gene cluster at 17q12-q21 and this report shows that the cDNA of affected members of both families have novel heterozygous mutations in the expressed keratin 16 gene. These mutations (R10C and N8S) lie in the helix initiation motif of the 1A domain. These mutations do not appear to cause epidermolysis on light or electron microscopy, which may reflect differences in function, assembly or interaction of the 'hyperproliferative' or 'mucoregenerative' keratins from other major types of keratins. The mutations reported here are the first to describe the molecular pathology of focal non epidermolytic palmoplantar keratoderma.
Hum Mol Genet 1995 Oct
PMID:Novel mutations in keratin 16 gene underly focal non-epidermolytic palmoplantar keratoderma (NEPPK) in two families. 859 10


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