Characterization of Kallikrein-related Peptidase-8 in Normal Human Epidermis and Psoriasis

Eissa, Azza

10 January 2014

Kallikrein-8 (KLK8) is a relatively-uncharacterized epidermal protease. Although proposed to regulate wound-healing and barrier repair in KLK8-deficient mouse skin, KLK8-catalytic activity was never demonstrated in human epidermis and its regulators and targets remain largely unknown. KLK8 overexpression was reported in inflammatory skin diseases, but the underlying mechanisms are poorly understood. In this thesis, we elucidated for the first time KLK8-specific activity in normal human non-palmoplantar stratum corneum and sweat, and identified epidermal regulators and targets that augment its involvement in a skin-barrier proteolytic cascade. Given that inflammatory skin diseases have interlinked immune and epidermal roots, we hypothesized that epidermal KLK8 expression is distinctly regulated by the aberrant T-cell immunity implicated in the two common skin diseases, psoriasis and atopic dermatitis, independent of skin-barrier insults. We profiled secretion of KLK8 by normal human keratinocytes post-treatment with T-helper (Th1, Th17 and Th2) cell-derived cytokines, and investigated the effect of KLK8 overexpression on terminal keratinocyte differentiation and innate immunity gene expression. Our results show that TNFα and IL-17A synergistically induce potent KLK8 hyper-secretion, while IL4 and IL13 reduce its expression. TNFα and IL-17A overexpression and KLK8 hyperactivity resulted in hyperkeratosis and upregulation of keratinocyte innate defense genes’ expression mimicking psoriatic lesions. Consistently, KLK8 expression was reduced in lesional skin of atopic dermatitis patients and significantly elevated in lesional skin and sera of psoriatic patients. KLK8 levels correlated with psoriasis skin severity and were significantly reduced by effective treatment with biologic TNFα-blockers, correlating positively with psoriasis clearance. Thus, KLK8 is a new epidermal psoriasis therapeutic target. We performed high throughput screens of small molecule compound libraries to identify KLK8-specific inhibitors and discovered promising KLK8 small molecule inhibitors with IC50s in the nanomolar range. This thesis provides original findings corroborating KLK8 as an active serine protease in normal human skin and a down-stream epidermal respondent to TNFα and IL17A overexpression in psoriatic skin. Our novel KLK8-specific inhibitors may have future potential as topical barrier-enhancing agents in psoriasis.

Kallikrein

Epidermis

Stratum corneum

Psoriasis

0487

0307

Studies on the mechanism of staphylococcal conjugation /

Von David, William J.

January 1998

Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / "December 1998." Typescript. Vita. Includes bibliographical references (leaves [89]-98). Also available on the Internet.

Modeling large whale entanglement injuries: an experimental analysis of the influence of tissue compliance, line tension, and draw-length on epidermal abrasion resistance /

Winn, Jeremy Paul,

January 2006

Thesis (M.S.) in Marine Bio-Resources--University of Maine, 2006. / Includes vita. Includes bibliographical references (leaves 39-43).

Structure, development and composition of the integument of the southern right whale, Eubalaena australis

Reeb, Desray

28 November 2005

The general architecture of the skin of the southern right whale, Eubalaena australis, is comparable to that described for other cetacean species. As found in bowhead whales, Balaena mysticetus, of the same family, southern right whales possess an acanthotic epidermis and a notably thick hypodermis. Epidermal rods and extensive papillomatosis support these unique characteristics. A "fat-free" reticular dermis makes the integument of southern right whales more like that of odontocetes than that described for balaenopterids. Skin samples taken in South African and Antarctic waters showed evidence of superficial moultin'g throughout the austral winter and in mid-summer. Unidentified "microfIora" and fungal microbes were detected on the skin of whales sampled in both South African and Antarctic waters. The predominance of "microfIoral" aggregations on cows and calves in OctoberlNovember suggests that these micro-organisms are acquired in coastal waters. A Candida-like invasive fungal infestation of the skin of a stranded neonate was recorded for the first time in this species and may be related to the demise of this animal. The film-forming diatom, Bennettella [Cocconeis] ceticola, was not detected on any skin samples. This may imply that southern right whales exhibit high cellular proliferation rates, which prevent diatomaceous films from forming. Neonatal southern right whales undergo a spectacular form of ecdysis approximately 6-7 days after birth. Histologically, "rough-skinned" neonates possess a distinct "fault line" above the distal tips of the dermal papillae, that becomes characterised by intercellular oedema, which causes all the cell layers above the plane to separate from those below it. The fatty acid composition of the dermal and hypodermal layers provides indications of prey species consumed as well as reflecting physiological processes within the digestive system of the southern right whale. Total lipid values in the blubber of late season cows and calves are reported for the first time. A new hand¬held biopsy system for collecting deep-core integument samples from free-swimming balaenids is described. It is a practical and cheaper alternative to projectile systems and the head design allows for the collection of samples that can be used for multidisciplinary research on right whales (e.g. histology, toxicology and blubber composition studies). / Thesis (PhD (Zoology))--University of Pretoria, 2006. / Zoology and Entomology / unrestricted

Eubalaena australis

Southern right whale epidermis

UCTD

Q10-triggered facial vitiligo.

Schallreuter, Karin U.

17 August 2013

no / Background Generation and accumulation of reactive oxygen/nitrogen species in the epidermis of patients with vitiligo has been widely documented. Moreover, semiquinone radical-mediated sensitivity has been shown in blood lymphocytes of these patients. Objectives To determine the possible mechanism behind Q10-induced facial vitiligo. Methods This was a clinical assessment supported by in vivo Fourier transform–Raman spectroscopy and repigmentation. Results Topical Q10 application generated hydrogen peroxide (H2O2) leading in turn to facial vitiligo in susceptible individuals. Proof of the basic result stemmed from reduction of epidermal H2O2 by using narrowband ultraviolet B-activated propseudocatalase PC-KUS in association with cessation of depigmentation and repigmentation of the lost skin colour. Conclusions Over-the-counter availability of Q10-containing topical formulations can be harmful to individuals susceptible to vitiligo.

Quantitative Analyse histologischer Aufnahmen der Haut / Quantitative analysis of histological images of the skin

Kruse, Daniel

January 2024

Diese Arbeit hatte zum Ziel quantitative Analysen histologischer Aufnahmen der Haut nach unterschiedlichen Gesichtspunkten zu etablieren. Im ersten Abschnitt wurde die bildgestützte Quantifizierung der epidermalen Histomorphologie untersucht. Nach Sichtung und Beurteilung von 2145 hochauflösenden Fotografien HE-gefärbter Epidermis- und Vollhautmodellen jeglichen Zustands, wurde der BSGC-Score als Facettenklassifikation mit seinen insgesamt 40 Beurteilungskriterien aufgestellt. Die unterschiedlichen epidermalen Strata wurden mit Wichtungsfaktoren belegt. Die Bewertungskategorien sind mit einem Ampelsystem unterlegt. Eine Befundungsformel wurde aufgestellt. Weitere Bestandteile des BSGC-Scores sind eine Anleitung mit Bildbeilage sowie Dokumentationselemente. Die Anwendung erfolgte erfolgreich im Rahmen der Qualitätssicherung an Chargentests und zur Verlaufsbeurteilung eines In-vitro-Verbrennungsmodells aus humaner Epidermis durch Schneider et al. (2021) Der BSGC-Score dient als zügig durchführbares Evaluationstool zur Befundung von In-vitro-Epidermismodellen und nicht als diagnostisches Mittel. Der zweite Abschnitt beschäftigt sich mit der Vaskularisierung als Parameter der kutanen Wundheilung. Es wurden aSMA-IF-gefärbte Abbildungen porciner Verwundungsmodelle betrachtet und nach der Entfernung drüsiger Strukturen Gefäßanschnitte zu Beginn manuell ausgezählt. Hieraus wurden die nötigen Einstellungen für die Bildbearbeitungssoftware ImageJ ermittelt und die Abbildungen dieser anschließend zugeführt. Es erfolgte die automatisierte Quantifizierung elliptischer Formationen mit einer Größe ≥ 30 Pixel. Im nächsten Schritt wurden die Abbildungen in die Bereiche Wundrand, Wundgrund und Wundheilung unterteilt. In dem Bereich Wundheilung zeigte sich eine signifikant größere Revaskularisierung als in Wundgrund. Abschließend erfolgte der Vergleich sekundärer Wundauflagen. Der Vergleich der Quotienten Wundheilung/Wundgrund nicht-okklusiver und okklusiver Wundauflagen zeigte keinen signifikanten Unterschied in der Neovaskularisierung. Die isolierte Betrachtung der Revaskularisierung als einzelner Prozess der Wundheilung kann nicht als generelles Kriterium für die Gesamtbeurteilung dienen. Hier findet die gewählte Methodik ihre Limitation. Zukünftige Anwendungsbereiche des BSGC-Scores sind die Ausweitung auf Vollhautmodelle und andere Verwundungsmodalitäten. Eine automatisierte und durch eine KI-gestützte Befundung ist ebenfalls aufgrund des zugrundeliegenden umfangreichen Datensatzes denkbar. Auch kann eine automatisierte softwaregestützte Quantifizierung der Vaskularisierung als überblickende und zügige Beurteilung der Wundheilung sinnvoll erscheinen. / This work aimed to establish quantitative analyses of histological images of the skin according to different aspects. In the first section, image-based quantification of epidermal histomorphology was investigated. After reviewing and assessing 2145 high-resolution photographs of HE-stained epidermis and full-thickness skin models of any condition, the BSGC score was established as a facet classification with its total of 40 assessment criteria. Weighting factors were assigned to the different epidermal strata. The assessment categories are underlaid with a color system. A scoring formula was established. Further components of the BSGC score are a manual with picture supplement as well as documentation elements. It was successfully applied in the context of quality assurance on batch tests and for progression assessment of an in vitro human epidermis burn model by Schneider et al. (2021). The BSGC score serves as a rapidly feasible evaluation tool for the reporting of in vitro epidermis models and not as a diagnostic tool. The second section focuses on vascularization as a parameter of cutaneous wound healing. ASMA-IF-stained images of porcine wounding models were considered, and after removal of glandular structures, vascular formations were manually counted at baseline. From this, the necessary settings for the image processing software ImageJ were determined and the images were subsequently fed to it. Automated quantification of elliptical formations with a size ≥ 30 pixels was performed. In the next step, the images were divided into the areas of wound margin, wound bed and wound healing. The wound healing area showed significantly greater revascularization than wound bed. Finally, secondary wound dressings were compared. The comparison of the wound healing/wound bed quotients of non-occlusive and occlusive wound dressings showed no significant difference in neovascularization. The isolated consideration of revascularization as a single process of wound healing cannot serve as a general criterion for the overall assessment. This is where the chosen methodology finds its limitation. Future areas of application of the BSGC score include extension to full-thickness skin models and other wound modalities. Automated and AI-assisted scoring is also conceivable due to the extensive underlying data set. Automated software-assisted quantification of vascularization may also appear useful as an overview and expeditious assessment of wound healing.

Wundheilung

Vaskularisation

Epidermis

Haut

ddc:610

Establishing tissue-specific chromatin organization during development of the epidermis : nuclear architecture of different layers of murine epidermis and the role of p63 and Satb1 in establishing tissue-specific organization of the epidermal differentiation complex locus

Gdula, Michal Ryszard

January 2011

During development, multipotent stem cells establish tissue-specific programmes of gene expression that underlie a process of differentiation into specialized cell types. It was shown in the study that changes in the nuclear architecture during terminal keratinocyte differentiation show correlation with the dynamics of the transcriptional and metabolic activity. In particular, terminal differentiation is accompanied by the decrease of nuclear volume, elongation of its shape, reduction of the number and fusion of nucleoli, increase in the number of centromeric clusters and a dramatic decrease of the transcriptional activity. Global changes in the nuclear architecture of epidermal keratinocytes are associated with marked remodelling of the higher-order chromatin structure of the epidermal differentiating complex (EDC). EDC is positioned peripherally in the epidermal nuclei at E11.5 when its genes show low expression levels and relocates towards the nuclear interior at E16.5 when EDC genes are markedly upregulated. P63 transcription factor serving as a master regulator of epidermal development is involved in the control of EDC relocation in epidermal progenitor cells. The epidermis of E16.5 p63KO exhibits significantly more peripheral positioning of the EDC loci, compared to wild-type. The genome organizer Satb1 serving as a direct p63 target controls higher order chromatin folding of the central part of EDC and Satb1 knockout mice show alterations of epidermal development and expression of the EDC encoded genes. Thus, this study shows that the programme of epidermal development and terminal differentiation is regulated by p63 and other factors and include marked remodelling of three-dimensional nuclear organization and positioning of tissue specific gene loci. In addition to the direct involvement of p63 in controlling the expression of tissue-specific genes, p63 via regulation of the chromatin remodelling factors such as Satb1 promotes establishing specific conformation of the EDC locus required for efficient expression of terminal differentiation-associated genes.

612.7

Proprotein convertases in terminal differentiation of epidermis and processing of the profilaggrin amino terminus /

Pearton, David Jonathan,

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 121-136).

Establishing tissue-specific chromatin organization during development of the epidermis. Nuclear architecture of different layers of murine epidermis and the role of p63 and Satb1 in establishing tissue-specific organization of the epidermal differentiation complex locus.

Gdula, Michal R.

January 2011

During development, multipotent stem cells establish tissue-specific programmes of gene expression that underlie a process of differentiation into specialized cell types. It was shown in the study that changes in the nuclear architecture during terminal keratinocyte differentiation show correlation with the dynamics of the transcriptional and metabolic activity. In particular, terminal differentiation is accompanied by the decrease of nuclear volume, elongation of its shape, reduction of the number and fusion of nucleoli, increase in the number of centromeric clusters and a dramatic decrease of the transcriptional activity. Global changes in the nuclear architecture of epidermal keratinocytes are associated with marked remodelling of the higher-order chromatin structure of the epidermal differentiating complex (EDC). EDC is positioned peripherally in the epidermal nuclei at E11.5 when its genes show low expression levels and relocates towards the nuclear interior at E16.5 when EDC genes are markedly upregulated. P63 transcription factor serving as a master regulator of epidermal development is involved in the control of EDC relocation in epidermal progenitor cells. The epidermis of E16.5 p63KO exhibits significantly more peripheral positioning of the EDC loci, compared to wild-type. The genome organizer Satb1 serving as a direct p63 target controls higher order chromatin folding of the central part of EDC and Satb1 knockout mice show alterations of epidermal development and expression of the EDC encoded genes. Thus, this study shows that the programme of epidermal development and terminal differentiation is regulated by p63 and other factors and include marked remodelling of three-dimensional nuclear organization and positioning of tissue specific gene loci. In addition to the direct involvement of p63 in controlling the expression of tissue-specific genes, p63 via regulation of the chromatin remodelling factors such as Satb1 promotes establishing specific conformation of the EDC locus required for efficient expression of terminal differentiation-associated genes.

Chromatin organization

; Epidermis development

; Murine epidermis

; p63

; Satb1

; Multipotent stem cells

; Keratinocyte differentiation

; Epidermal keratinocytes

Entwicklung und Einsatz eines In-vitro-Ischämiemodels zur Untersuchung zellulärer Pathomechanismen der Klauenrehe des Rindes / Development and experimental application of an in vitro ischemia model for investigating the cellular pathomechanism of laminitis in cattle

Lübbe, Katharina

22 June 2015

Die subklinische Klauenrehe oder claw horn disruption (CHD) ist von großer wirtschaftlicher Bedeutung für die Rinderhaltung, da sie zu Lahmheiten, Beeinträchtigungen des Allgemeinbefindens sowie einer eingeschränkten Leistungsfähigkeit der Tiere führt. Trotz zahlreicher Untersuchungen sind die pathophysiologischen Grundlagen der CHD noch immer nicht vollständig geklärt. Die derzeitigen Hypothesen weisen auf eine Ischämie in den noch lebensfähigen Epidermisschichten infolge einer veränderten dermalen Mikrozirkulation. Diese hat pathophysiologische Veränderungen zur Folge, die eine Störung der epidermalen Zellproliferation, eine Schädigung der dermo-epidermalen Verbindung sowie eine veränderte Keratinisierung und Hornproduktion umfassen. Von Bedeutung sind daher In-vitro-Ischämiemodelle, um die epidermale Reaktionsmechanismen auf die pathologischen Veränderungen der Dermis zu untersuchen. Ziel in der vorliegenden Arbeit war die Etablierung eines In-vitro-Ischämiemodells auf der Grundlage boviner Keratinozyten aus der Klauenepidermis. Mithilfe dieses Modells sollten die zellulären Pathomechanismen infolge einer Ischämie, einer Hypoxie sowie eines Glukoseentzugs untersucht werden. Des Weiteren stand die Analyse des Differenzierungsverhaltens der Keratinozyten infolge ischämischer, hypoxischer und hypoglykämischer Konditionen im Mittelpunkt. Für die Etablierung des In-vitro-Ischämiemodells diente als Grundlage das oxygen glucose deprivation (OGD)-Modell, das die Untersuchung eines gleichzeitigen Sauerstoff- und Glukosemangels sowie lediglich einer Hypoxie und eines Glukoseentzugs bei bovinen Keratinozyten ermöglichte. Die Versuche wurden in eine Kurzzeitanalyse über 96 Stunden sowie eine Langzeitanalyse über drei Wochen geteilt. Nach erfolgter Exposition wurde die Zellviabilität mittels LDH(Lactatdehydrogenase)- und MTT(3-(4,5-Dimethylhiazol-2-yl)-2,5-diphenyltetrazoliumbromid)-Assay untersucht. Des Weiteren wurde das veränderte Differenzierungsverhalten der Keratinozyten infolge der veränderten Kultivierungsbedingungen mittels Western Blot-Analyse anhand der Involukrin- und Lorikrin-Expression untersucht. Die Keratinozyten zeigten infolge einer OGD nach kurzer Expositionsdauer die höchsten zytotoxischen Effekte, die von einer zeitabhängigen Abnahme der Zellviabilität sowie massiven morphologischen Veränderungen gefolgt wurde. Hypoxische Bedingungen bewirkten eine zeitabhängige Abnahme der Zellviabilität, die erst nach zweiwöchiger Inkubation die größte Zytotoxizität aufwies, sowie eine geringgradig veränderte Zellmorphologie bei Erhaltung des Zellverbands. Der Glukoseentzug bewirkte eine stark verminderte Zellviabilität sowie starke morphologische Zellveränderungen. In der Western Blot-Analyse konnte eine gesteigerte Involukrin- und Lorikrin-Expression infolge einer OGD, einer Hypoxie und eines Glukoseentzugs nachgewiesen werden. In der vorliegenden Arbeit konnte erstmalig ein auf bovinen Keratinozyten basierendes In-vitro-Ischämiemodell etabliert werden, das die Untersuchung zellulärer Mechanismen der Epidermis ermöglichte. Die OGD zeigte den stärksten Einfluss auf die Zellviabilität sowie eine veränderte Zelldifferenzierung der Keratinozyten, was die pathophysiologischen Veränderungen im Rahmen der CHD reflektiert. Die ebenfalls starken Zellveränderungen infolge eines Glukoseentzugs verdeutlichen die Rolle der Glukose im Zellmetabolismus der Keratinozyten. Solch ein epidermaler Glukosemangel ist in Verbindung mit der negativen Energiebilanz der Rinder im peripartalen Zeitraum denkbar. Die Ergebnisse infolge einer Hypoxie verweisen auf vielfältige Adaptationsmechanismen der Keratinozyten an hypoxische Bedingungen, denen sie in der Epidermis in vivo während der Zelldifferenzierung ausgesetzt werden. Damit besitzt das In-vitro-Ischämiemodell ein großes Potenzial für den Einsatz in der Klauenreheforschung, um einerseits die mit einer Ischämie einhergehenden pathologischen Veränderungen der CHD untersuchen zu können. Andererseits liefert das Modell wertvolle Informationen zu den physiologischen Grundlagenmechanismen der Epidermis, die mit der Zelldifferenzierung einhergehen. / The subclinical laminitis or claw horn disruption (CHD) is of great economic importance in the dairy industry as it causes lameness, poor general condition and reduced performance. Despite extensive research efforts, the pathomechanism of CHD remains widely unclear. The current hypotheses on CHD pathogenesis include ischemic alterations of the epidermal keratinocytes resulting from an impaired blood supply. This causes an alteration of cell proliferation, a dermo-epidermal separation and an impaired keratinization and horn production. Therefore, in vitro ischemia models are of critical importance in clarification of the epidermal responses to an altered microcirculation. The aim of this study was the establishment of an in vitro ischemia model based on bovine claw keratinocytes. This in vitro model should enable the investigation of cellular pathomechanisms following exposure to ischemia, hypoxia and glucose deprivation. An additional aim was the analysis of the differentiation pattern of keratinocytes under ischemic, hypoxic and hypoglycaemic conditions. To establish the in vitro ischemia model, the keratinocytes were exposed to oxygen-glucose deprivation (OGD). In addition, this model allowed the parallel examination of hypoxic and hypoglycaemic conditions on bovine claw keratinocytes. The experiments were divided into a short-term analysis over 96h and a long-term analysis over three weeks. Measurement of cell viability was performed by LDH(lactatedehydrogenase) and MTT(3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetra- zolium bromide) assays. Furthermore, the differentiation pattern of the keratinocytes after exposure to ischemia, hypoxia and glucose deprivation was detected by western blot analysis of the focus on expression of involucrin and loricrin. The highest cytotoxic effect was measured after short exposure to OGD followed by a time-dependent decrease of cell viability and extensive morphological changes of the keratinocytes. Hypoxic conditions lead to a time-dependent decrease of cell viability with the highest cytotoxicity after two weeks. The keratinocytes showed slight changes in cell morphology while maintaining a confluent cell layer. Exposure of keratinocytes to glucose deprivation showed a high decrease of cell viability and strong morphological changes. Furthermore, western blot analysis showed an altered expression pattern with increased involucrin and loricrin levels after exposure to OGD, hypoxia and glucose deprivation. The present study established for the first time an in vitro ischemia model based on bovine claw keratinocytes to study the cellular mechanisms of the epidermis. After exposure to OGD, keratinocytes showed the highest loss in cell viability and an altered cell differentiation. This reflects the pathophysiological changes following epidermal ischemia occurring during the pathogenesis of CHD. The massive cellular alterations after glucose deprivation provide good evidence for the importance of glucose in the cellular metabolism of keratinocytes. An epidermal glucose deficiency may occur in combination with a negative energy balance during peripartal period in cattle. The results of hypoxia show the different adaptive mechanisms of keratinocytes to hypoxic conditions which are present in the epidermis during cell differentiation. Thus, the in vitro ischemia model has a great potential for use in research into CHD pathogenesis and pathomechanisms associated with ischemia. On one side, it is possible to investigate the pathological changes following ischemia during CHD. On the other side, the model offers useful information on physiological response mechanisms of the epidermis that correlate with cell differentiation.

Keratinozyten

Epidermis

Rinderklaue

claw horn disruption

Ischämiemodell

keratinocytes

epidermis

bovine claw

claw horn disruption

ischemia model

ddc:636.089

Keratinozyten

Epidermis

Rinderklaue

claw horn disruption

Ischämiemodell