Thomas P. Dooley scite author profile

Abstract. The cornified envelope is a layer of transglutaminase cross-linked protein that is deposited under the plasma membrane of keratinocytes in the outermost layers of the epidermis. We present the sequence of one of the cornified envelope precursors, a protein with an apparent molecular mass of 210 kD. The 210-kD protein is translated from a 6.5-kb mRNA that is transcribed from a single copy gene. The mRNA was upregulated during suspension-induced terminal differentiation of cultured human keratinocytes. Like other envelope precursors, the 210-kD protein became insoluble in SDS and [3-mercaptoethanol on activation of transglutaminases in cultured keratinocytes. The protein was expressed in keratinizing and nonkeratinizing stratified squamous epithelia, but not in simple epithelia or nonepithelial cells. Immunofluorescence staining showed that in epidermal keratinocytes, both in vivo and in culture, the protein was upregulated during terminal differentiation and partially colocalized with desmosomal proteins. Immunogold EM confirmed the colocalization of the 210-kD protein and desmoplakin at desmosomes and on keratin filaments throughout the differentiated layers of the epidermis. Sequence analysis showed that the 210-kD protein is homologous to the keratin-binding proteins desmoplakin, bullous pemphigoid antigen 1, and plectin. These data suggest that the 210-kD protein may link the cornified envelope to desmosomes and keratin filaments. We propose that the 210-kD protein be named "envoplakin."T hE cornified envelope is a layer of insoluble protein, ~15 nm thick, that is deposited under the plasma membrane of keratinocytes in the outermost layers of the epidermis (reviewed by Reichert et al., 1993;Simon, 1994). The cornified envelope provides a protective barrier between the environment and the living layers of the skin, and is believed to play an important role in maintaining the structural integrity of the epidermis. The envelope is made of several precursor proteins that are cross-linked by e-(~/-glutamyl) lysine bonds in a calcium-dependent reaction that is catalyzed by epidermal transglutaminases. In lamellar ichthyosis, an autosomal recessive disorder of the skin, reduced activity of the membrane-bound, keratinocyte-specific transglutaminase (TGK) 1 results in severe perturbation of epidermal differentiation and function (Huber et al., 1995).

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Development of an in vitro Primary Screen for Skin Depigmentation and Antimelanoma Agents

Dooley

Gadwood²,

Kilgore³

et al. 1994

Skin Pharmacol Physiol

114

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An in vitro cell culture assay was developed to identify inhibitors of melanogenesis and agents which produce cytostatic or cytotoxic effects specifically in melanocytes. A total of 50 compounds related to tyrosine, dihydroxyphenylalanine, and hydroquinone (HQ) were tested in vitro in order to determine their effects upon a murine melanocyte cell line, Mel-Ab, that produces copious amounts of melanin in culture. The agents that demonstrated an inhibition of growth or pigment production by 50% (IC₅₀) at < 100 µg/ml were considered active. The cytotoxicity of melanocyte-active compounds were also tested in vitro on a control nonmelanocyte cell line (HT 1080), using a simple crystal violet staining method to quantitate adherent cell number after treatment. The cell culture assay was validated with known potent melanocyte cytotoxic agents, including HQ and 4-S-cysteaminylphe-nol (4-S-CAP). Although most cytotoxic chemicals were nonspecific in this primary screen (i.e. killing both Mel-Ab and HT-1080 cells), several of the compounds tested exhibited high melanocyte-specific cytotoxicity, similar to HQ and 4-S-CAP. Potentially these compounds may be useful as either antimelanoma or skin depigmentation agents. All of the compounds identified as active in this primary screen were cytotoxic or cytostatic to melanocytes, except for the methyl ester of gentisic acid, which uniquely inhibited the de novo synthesis of melanin without cytotoxicity.

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Expression Profiling of Human Sulfotransferase and Sulfatase Gene Superfamilies in Epithelial Tissues and Cultured Cells

Dooley¹,

Haldeman-Cahill²,

Joiner³

et al. 2000

Biochemical and Biophysical Research Communications

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Regulation of Gene Expression in Inflammatory Bowel Disease and Correlation with IBD Drugs

Dooley¹,

Curto²,

Reddy³

et al. 2004

Inflammatory Bowel Diseases

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Potential biomarkers for Crohn's disease (CD) and ulcerative colitis (UC) were identified from two sets of full thickness pathologic samples utilizing DermArray and PharmArray DNA microarrays relative to uninvolved (Un) colon or normal colon. Seven of the over-expressed genes were verified using quantitative RT-PCR (i.e., TMPT, FABP1, IFI27, LCN2, COL11A2, HXB, and metallothionein). By correlating gene expression profiles between inflammatory bowel disease (IBD) tissue samples and IBD drug-treated cell cultures it might be possible to identify new candidate molecular target genes for IBD therapy and drug discovery. Potential biomarkers for CaCo2 cell cultures, which are routinely used as a GI tract surrogate model for in vitro pharmacokinetic studies, treated with azathioprine, 5-aminosalicylic acid, metronidazole, and prednisone were also identified from another experiment. Metallothionein mRNA expression was found to be down-regulated in azathioprine-treated CaCo2 cells, and was coincidentally up-regulated in the CD sample, thus resulting in an anti-correlation. These results suggest that this new screening methodology is feasible, that metallothioneins might be biomarkers for azathioprine therapy in vivo in CD, and that azathioprine might mechanistically down-regulate metallothionein gene expression. Correlations were also observed between IBD samples and either metronidazole- or 5-aminosalicylic acid-treated CaCo2 cells. Similar comparisons of disease tissue samples in vivo vs drug-treated cell cultures in vitro might reveal new mechanistic insights concerning established or experimental drug therapies. This affordable in vitro methodology is promising for expanded studies of IBD and other diseases.

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Thomas P. Dooley

Inhibitors of mammalian melanocyte tyrosinase: in vitro comparisons of alkyl esters of gentisic acid with other putative inhibitors

Envoplakin, a novel precursor of the cornified envelope that has homology to desmoplakin.

Development of an in vitro Primary Screen for Skin Depigmentation and Antimelanoma Agents

Expression Profiling of Human Sulfotransferase and Sulfatase Gene Superfamilies in Epithelial Tissues and Cultured Cells

Regulation of Gene Expression in Inflammatory Bowel Disease and Correlation with IBD Drugs

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