Your search keyword '"Hohl D"' showing total 9 results

1. Opioid receptors in skin - link between stress and skin disease?

Author

Bigliardi-Qi, M., primary, Gaveriaux-Ruff, C., additional, Hohl, D., additional, and Bigliardi, P. L., additional

Published

2008

2. An asparagine to threonine substitution in the 1A domain of keratin 1: a novel mutation that causes epidermolytic hyperkeratosis

Author

Arin, M. J., primary, Longley, M. A., additional, Küster, W., additional, Huber, M., additional, Hohl, D., additional, Rothnagel, J. A., additional, and Roop, D. R., additional

Published

1999

3. HaCaT cells as a model system to study primary cilia in keratinocytes.

Author

Blanchard G, Pich C, and Hohl D

Subjects

Animals, Epidermis, HaCaT Cells, Humans, Keratinocytes metabolism, Mammals, Cilia metabolism, Ciliopathies metabolism

Abstract

Primary cilium (PC) is a microtubule-based organelle found on the apical surface of most mammalian cell types, playing a role in development and tissue homeostasis. Ciliopathies are a rapidly growing group of human diseases characterized by disordered cilium. PC plays an important role in pathogenesis of basal cell cancer, the most common human malignancy. A significant increase in ciliation has been observed in the epidermis of atopic dermatitis and psoriasis patients. Spontaneously immortalized human keratinocytes, HaCaT are a model to study the epidermal homeostasis and pathophysiology. In contrast to what has been previously described, here, we show that HaCaT can be efficiently ciliated. In HaCaT cells, differentiation significantly increased the number of ciliated cells and we were able to analyse in detail the ciliary length progression with duration of differentiation. As the number of recognized ciliopathies continues to increase, the importance of ciliary models also rises. Even though keratinocytes do not become as highly and rapidly ciliated as cell lines frequently used in ciliary studies, they are a better model for the study of skin ciliopathies. Detailed progression of ciliation in HaCaT could serve as the basis for ciliary studies in this cell line., (© 2022 The Authors. Experimental Dermatology published by John Wiley & Sons Ltd.)

Published

2022

4. Keratoacanthoma: a distinct entity?

Author

Gleich T, Chiticariu E, Huber M, and Hohl D

Subjects

Carcinoma, Squamous Cell diagnosis, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic radiation effects, Comparative Genomic Hybridization, Diagnosis, Differential, Disease Progression, Genetic Predisposition to Disease, Humans, Neoplasm Proteins genetics, Neoplasm Proteins physiology, Neoplasms, Radiation-Induced chemistry, Neoplasms, Radiation-Induced diagnosis, Neoplasms, Radiation-Induced genetics, Neoplasms, Radiation-Induced pathology, Protein Serine-Threonine Kinases deficiency, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases physiology, Receptor, Transforming Growth Factor-beta Type I, Receptors, Transforming Growth Factor beta deficiency, Receptors, Transforming Growth Factor beta genetics, Receptors, Transforming Growth Factor beta physiology, Signal Transduction, Skin Neoplasms diagnosis, Sunlight adverse effects, Transforming Growth Factor beta physiology, Ultraviolet Rays adverse effects, Keratoacanthoma diagnosis, Keratoacanthoma etiology, Keratoacanthoma genetics, Keratoacanthoma metabolism, Keratoacanthoma pathology, Skin Diseases diagnosis, Skin Diseases etiology, Skin Diseases genetics, Skin Diseases metabolism, Skin Diseases pathology

Abstract

Keratoacanthoma (KA) are common but exceptional benign tumors, often appearing on sun-exposed areas of light skinned people and showing spontaneous resolution. The goal of this study was to review existing literature, to point out the etiological complexity of KA biology and to answer the controversial debate if or not KA is a distinct entity or a variant of squamous cell carcinoma (SCC). Relying on recent results, we highlight that KA is an individual lesion with a unique molecular signature caused by alterations in the TGFβ signalling pathway. These recent findings will help to understand the nature of KA and to develop new reliable diagnostic tools, simplifying the discrimination of the histologically similar KA and SCC., (© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2016

5. The human epidermal differentiation complex: cornified envelope precursors, S100 proteins and the 'fused genes' family.

Author

Kypriotou M, Huber M, and Hohl D

Subjects

Animals, Chromosomes, Human, Pair 1, Cornified Envelope Proline-Rich Proteins metabolism, Epidermis metabolism, Filaggrin Proteins, Gene Expression Regulation, Developmental, Humans, Intermediate Filament Proteins genetics, Keratinocytes cytology, Keratinocytes metabolism, Kruppel-Like Factor 4, S100 Proteins metabolism, Cell Differentiation genetics, Cornified Envelope Proline-Rich Proteins genetics, Epidermal Cells, S100 Proteins genetics

Abstract

The skin is essential for survival and protects our body against biological attacks, physical stress, chemical injury, water loss, ultraviolet radiation and immunological impairment. The epidermal barrier constitutes the primordial frontline of this defense established during terminal differentiation. During this complex process proliferating basal keratinocytes become suprabasally mitotically inactive and move through four epidermal layers (basal, spinous, granular and layer, stratum corneum) constantly adapting to the needs of the respective cell layer. As a result, squamous keratinocytes contain polymerized keratin intermediate filament bundles and a water-retaining matrix surrounded by the cross-linked cornified cell envelope (CE) with ceramide lipids attached on the outer surface. These cells are concomitantly insulated by intercellular lipid lamellae and hold together by corneodesmosmes. Many proteins essential for epidermal differentiation are encoded by genes clustered on chromosomal human region 1q21. These genes constitute the 'epidermal differentiation complex' (EDC), which is divided on the basis of common gene and protein structures, in three gene families: (i) CE precursors, (ii) S100A and (iii) S100 fused genes. EDC protein expression is regulated in a gene and tissue-specific manner by a pool of transcription factors. Among them, Klf4, Grhl3 and Arnt are essential, and their deletion in mice is lethal. The importance of the EDC is further reflected by human diseases: FLG mutations are the strongest risk factor for atopic dermatitis (AD) and for AD-associated asthma, and faulty CE formation caused by TG1 deficiency causes life-threatening lamellar ichthyosis. Here, we review the EDC genes and the progress in this field., (© 2012 John Wiley & Sons A/S.)

Published

2012

6. The role of the TRAF-interacting protein in proliferation and differentiation.

Author

Chapard C, Hohl D, and Huber M

Subjects

Animals, Embryonic Development physiology, Humans, Mice, Mice, Knockout, NF-kappa B antagonists & inhibitors, Signal Transduction physiology, Skin cytology, Tumor Necrosis Factor Receptor-Associated Peptides and Proteins genetics, Cell Differentiation physiology, Cell Proliferation, Tumor Necrosis Factor Receptor-Associated Peptides and Proteins physiology

Abstract

Ubiquitination of proteins is a post-translational modification, which decides on the cellular fate of the protein. Addition of ubiquitin moieties to proteins is carried out by the sequential action of three enzymes: E1, ubiquitin-activating enzyme; E2, ubiquitin-conjugating enzyme; and E3, ubiquitin ligase. The TRAF-interacting protein (TRAIP, TRIP, RNF206) functions as Really Interesting New Gene (RING)-type E3 ubiquitin ligase, but its physiological substrates are not yet known. TRAIP was reported to interact with TRAF [tumor necrosis factor (TNF) receptor-associated factors] and the two tumor suppressors CYLD and Syk (spleen tyrosine kinase). Ectopically expressed TRAIP was shown to inhibit nuclear factor-kappa B (NF-κB) signalling. However, recent results suggested a role for TRAIP in biological processes other than NF-κB regulation. Knock-down of TRAIP in human epidermal keratinocytes repressed cellular proliferation and induced a block in the G1/S phase of the cell cycle without affecting NF-κB signalling. TRAIP is necessary for embryonal development as mutations affecting the Drosophila homologue of TRAIP are maternal effect-lethal mutants, and TRAIP knock-out mice die in utero because of aberrant regulation of cell proliferation and apoptosis. These findings underline the tight link between TRAIP and cell proliferation. In this review, we summarize the data on TRAIP and put them into a larger perspective regarding the role of TRAIP in the control of tissue homeostasis., (© 2012 John Wiley & Sons A/S.)

Published

2012

7. Human epidermal Langerhans cells express the tight junction protein claudin-1 and are present in human genetic claudin-1 deficiency (NISCH syndrome).

Author

Zimmerli SC, Kerl K, Hadj-Rabia S, Hohl D, and Hauser C

Subjects

Biopsy, Cell Movement, Cholangitis, Sclerosing pathology, Claudin-1, Humans, Ichthyosis pathology, Keratinocytes metabolism, Keratinocytes pathology, Langerhans Cells pathology, Skin metabolism, Skin pathology, Syndrome, Cholangitis, Sclerosing metabolism, Ichthyosis metabolism, Langerhans Cells metabolism, Membrane Proteins metabolism, Tight Junctions metabolism

Abstract

Claudin-1 (CLDN1) is a structural tight junction (TJ) protein and is expressed in differentiating keratinocytes and Langerhans cells in the epidermis. Our objective was to identify immunoreactive CLDN1 in human epidermal Langerhans cells and to examine the pattern of epidermal Langerhans cells in genetic human CLDN1 deficiency [neonatal ichthyosis, sclerosing cholangitis (NISCH) syndrome]. Epidermal cells from healthy human skin labelled with CLDN1-specific antibodies were analysed by confocal laser immunofluorescence microscopy and flow cytometry. Skin biopsy sections of two patients with NISCH syndrome were stained with an antibody to CD1a expressed on epidermal Langerhans cells. Epidermal Langerhans cells and a subpopulation of keratinocytes from healthy skin were positive for CLDN1. The gross number and distribution of epidermal Langerhans cells of two patients with molecularly confirmed NISCH syndrome, however, was not grossly altered. Therefore, CLDN1 is unlikely to play a critical role in migration of Langerhans cells (or their precursors) to the epidermis or their positioning within the epidermis. Our findings do not exclude a role of this TJ molecule once Langerhans cells have left the epidermis for draining lymph nodes.

Published

2008

8. Formation of the cornified envelope.

Author

Hohl D

Subjects

Cell Membrane physiology, Humans, Keratinocytes drug effects, Lipid Bilayers, Epidermis physiology, Keratinocytes physiology, Skin Physiological Phenomena

Published

2005

9. Hair shaft defects visualized after detergent extraction.

Author

Rice RH, Wong VJ, Williams ML, Price VH, Hohl D, Sundberg JP, and Pinkerton KE

Subjects

Animals, Detergents, Genes, Recessive, Humans, Ichthyosis genetics, Ichthyosis pathology, Keratinocytes metabolism, Mice genetics, Mutation physiology, Transglutaminases genetics, Hair ultrastructure

Published

1999