NF-ĸB mediated signaling mechanisms in epidermal homeostasis and carcinogenesis

Lorenz, Verena Natalie

30 May 2013

Der Transkriptionsfaktor NF-κB ist von großer Bedeutung, da er verschiedene zelluläre Prozesse wie Proliferation, Apoptose, Invasion oder Inflammation beeinflusst. Im Gegensatz zu den meisten anderen Zelltypen ist in der humanen Epidermis ein wachstumsinhibierender Effekt mit der Aktivierung von NF-ĸB assoziiert. Die epidermale Homöostase dient der Aufrechterhaltung der intakten Hautbarriere und beschreibt das Gleichgewicht zwischen proliferierenden und differenzierenden epidermalen Keratinozyten. Schädliche äußere Einflüsse wie übermäßige Sonnenlichtexposition können die epidermale Homöostase stören, was zur Entstehung epidermaler Neoplasien wie aktinischer Keratosen oder Plattenepithelkarzinomen beiträgt. Das Ziel dieser Arbeit war die Expressions- und Funktionsanalyse der einzelnen NF-κB Proteinuntereinheiten in humanen Keratinozyten in vitro. Die siRNA-vermittelte transiente Reduktion von c-Rel beeinflusste deutlich das Zellschicksal von Keratinozyten. Obwohl vorangegangene Experimente durch eine stärkere Zellproliferation nach Inhibierung der NF-ĸB Proteine p50 und p65 das Gegenteil suggerierten, konnte für die Reduktion von c Rel ein inhibierender Effekt auf das Zellwachstum festgestellt werden. Außerdem zeigten sich eine veränderte Zellzyklusphasenverteilung sowie eine Akkumulation mitotischer Zellen mit aberranter, hauptsächlich monopolarer Spindelformation. Die zusätzlich detektierte Apoptose-Induktion könnte aus dem verlängerten mitotischen Arrest der c-Rel Knockdown Keratinozyten resultieren. Insgesamt lässt sich ein regulatorischer Effekt von c-Rel beim Eintritt in die Mitose oder der mitotischen Progression vermuten, wobei die beteiligten Zielgene noch zu identifizieren sind. Des Weiteren bewirkte der c-Rel Knockdown phänotypische Veränderung von HaCaT Keratinozyten mit tendenziell spindelzellartiger Elongation und einem insgesamt veränderten Wachstumsmuster. Die Adhäsion und besonders die Wundheilung von c-Rel reduzierten HaCaT Zellen war vermindert, möglicherweise bedingt durch ein reduziertes Stressfaservorkommen. Dieser Effekt zeigte sich allerdings nicht in c Rel herunter regulierten primären Keratinozyten, was auf Mutationen der spontan immortalisierten HaCaT Keratinozytenzelllinie zurückzuführen sein könnte. Zusammenfassend konnte in dieser Arbeit ein neuer Aspekt der einzelnen NF-ĸB Proteine aufgezeigt werden, besonders in Bezug auf die Proteinuntereinheit c-Rel. Hieraus resultiert ein besseres Verständnis der vielfältigen und komplexen Regulation von NF-κB abhängigen Funktionen und deren Effekte auf die epidermale Homöostase.

570

NF-κB

epidermal homeostasis

c-Rel

HaCaT keratinocytes

Biologie (PPN619462639)

Omega-3 polyunsaturated fatty acids and their impact upon the biosynthesis of endocannabinoids and N-acylethanolamines in human skin cells in the presence and absence of ultraviolet radiation

Almaedani, Abdalla

January 2015

Endocannabinoids are endogenous lipid mediators involved in various biological processes, and have immunomodulatory and anti-inflammatory activities. Anandamide (arachidonoyl ethanolamine, AEA) and 2-arachidonoyl glycerol (2-AG) are the main representatives of this group. The endocannabinoid receptors CB1 and CB2 with AEA have been found in human HaCaT keratinocytes and fibroblasts, but the metabolic pathway leading to endocannabinoid production in the skin has not been fully elucidated. This study aimed to investigate the profile of endocannabinoids and their main metabolizing enzymes in human skin cells and assess whether omega-3 polyunsaturated fatty acids (n-3 PUFA) altered these profiles. In addition, an investigation was carried out to check whether UV radiation could stimulate the production of endocannabinoids and N-acylethanolamines (NAE) in human skin cells. For this purpose HaCaT keratinocytes and 46RB.1N fibroblast cells were treated with 10 and 50µM of eicosapentaenoic acid (EPA), docosahexaenoic acid (DHA) or oleic acid (OA) in the presence or absence of UVR (15mJ/cm2). Data suggest that n-3 PUFA may both directly (by up-regulating NAPE-PLD levels) and indirectly (by decreasing FAAH levels) increased endocannabinoid and NAE levels in HaCaT keratinocytes and 46BR.IN fibroblasts. DHA treatment significantly decreased COX-2 expression in the absence of UVR and inhibited UVR-induced COX-2 overexpression in 46BR.IN fibroblasts. In contrast, DHA appeared to induce COX-2 up-regulation in the absence of UVR and did not prevent UVR induced COX-2 up-regulation in HaCaT keratinocytes. EPA appeared to induce COX-2 down-regulation in the absence of UVR and did not prevent UVR induced COX-2 up-regulation in both HaCaT keratinocytes and 46BR.IN fibroblasts. UVR did not have any significant effect on endocannabinoid and NAE biosynthesis. However, UVR induced endocannabinoid production in some experiments of this study. A clinical study was carried on 16 volunteers from two different ethnic groups and two different skin types. The purpose was to assess the effect of UVR on the serum endocannabinoids and NAE, therefore, the volunteers were subjected to multiple doses (1.3, SED/ 6 min) of UVR for 6 weeks. Data showed that UVR did not have major effect on human serum NAE in both skin phototypes II and V but increased 2-AG in human serum in both skin types but the more pronounced effect was evident in skin phototypes V rather than in skin phototypes II. Human serum docosahxaenoylethanolamide levels were found to be higher in White Caucasians group (skin phototypes II). Based on these it can be concluded that n-3 PUFA and UVR alter the endocannabinoids and NAE profile in HaCaT keratinocytes and 46BR.IN fibroblasts. In addition, results of the clinical study indicated that UVR has no major effects on serum endocannabinoids or NAE therefore, further studies are required to address this question in vivo.

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An examination of the bioactive lipids involved in skin cell inflammation and in response to ultraviolet radiation. Effect of n-3 polyunsaturated fatty acid supplementation on red blood cell and human dermal fatty acid and production of eicosanoids by HaCaT keratinocytes and 46BR.1N fibroblasts following exposure to UVR.

Al-Aasswad, Naser M.I.

January 2013

Ultraviolet radiation (UVR) in solar light is important for skin biology. It is involved in the development acute and chronic skin inflammation, aging and cancer, causing erythema, tanning and local or systemic immunosuppression. Omega-3 polyunsaturated fatty acids (n-3 PUFA) are considered anti- inflammatory and could reduce the damage caused by overexposure to UVR. Although, n-3 PUFA have been considered as photoprotective agents, their exact mechanisms of action is not completely understood. The aim of the work is to determine the effect of UVR and the n-3 PUFA eicosapentaenoic acid (EPA), or docosahexaenoic acid (DHA) on human skin cells (in vitro study), specifically on: cell viability, apoptosis and their metabolism through the cyclooxygenase and lipoxygenase pathways. Also, to study the cellular incorporation and effect of n-3 PUFA on the fatty acid profile of skin cells. A clinical study was undertaken to assess the incorporation of n-3 PUFA supplements in human skin. A clinical study was performed in 40 healthy women (active group) supplemented with 4g/day of EPA (70%) and DHA (10%) and 40 healthy women (placebo group) supplemented with 4g/day of glyceryl tricoprylate coprate (GTCC). After 3 months, both blood samples and skin punch biopsies were collected and analysed for fatty acids by gas chromatography (GC). HaCaT keratinocytes and 46BR.1N fibroblasts were cultured and treated with 10 and 50μM of either EPA, or DHA or oleic acid (OA) for 72h and exposed to 15 and 50 mJ/cm2. Cell viability was measured by the MTT assay and cell apoptosis by a colorimetric method, at 24h post UVR. Cells and culture media were analysed by GC and liquid chromatography tandem mass spectrometry (LC/ESI-MS/MS) to assess cellular fatty acids and production of eicosanoids. The clinical a study showed that in RBC saturated fatty acids (SFA) (44.27±7.43%) were the main fatty acid group followed by n-6 PUFA (29.61±5.53%). While in dermal tissue monounsaturated fatty acids (MUFA) (58.90±9.80%) was the main fatty acid group followed by SFA (27.06±6.78%). A significant increase in EPA, DHA and docosapentaenoic acid (DPA) was observed in RBC but only EPA was significantly increased in the dermis post n-3 PUFA supplementation. . The viability of HaCaT keratinocytes and 46BR.1N fibroblasts decreased post UVR and this was further reduced post PUFA treatment. Cell apoptosis increased when cells were exposed to UVR and further increased when cells were treated with EPA and DHA. . In HaCaT keratinocytes MUFA (54.22±8.82%) was the main fatty acid group followed by FAS (37.11±.9.16%), while SFA (51.94±8.68%) was the main group followed by MUFA (27.07±4.79) in 46BR.1N. Treated both cells with EPA and DHA showed significant increased in cellular EPA, DPA and DHA. 46BR.1N fibroblasts produced higher levels of prostaglandins (PG) compared to HaCaT keratinocytes: PGE2 and PGD2 were the main PG in both HaCaT (7.96±3.18 and 1.48±1.19 pg/million cell; respectively) and 46BR.1N with (44.2±23.00 and 17.1±9.71 pg/million cell; respectively). Significant increase in PGE1 and PGE2 occurred when cells were exposed to 15mJ/cm2 UVR. Treatment with n-3 PUFA decreased the level of PGE1 and PGE2, and increase production PGE3 at the baseline and post UVR. Both cell lines produced hydroxy fatty acids and the concentration of these mediators was higher in 46BR.1N than HaCaT. The concentrations of these mediators were significant increased post UVR: treatment with n-3 PUFA decreased the level of HODE and HETE, and increase production of HEPE and HDHA at baseline and post UVR. Overall, n-3PUFA treatment led to increases in the content of EPA and DHA on RBC, dermal tissue and human skin cell lines. EPA and DHA in skin cell lines appear to offer protection by increasing cellular apoptosis, decreasing inflammatory mediators specifically PGE2 and 12-HETE, and increasing anti-inflammatory mediators such as PGE3, 15-HEPE and 17-HDHA.

An examination of the bioactive lipids involved in skin cell inflammation and in response to ultraviolet radiation : effect of n-3 polyunsaturated fatty acid supplementation on red blood cell and human dermal fatty acid and production of eicosanoids by HaCaT keratinocytes and 46BR.1N fibroblasts following exposure to UVR

Al-Aasswad, Naser M. I.

January 2013

Ultraviolet radiation (UVR) in solar light is important for skin biology. It is involved in the development acute and chronic skin inflammation, aging and cancer, causing erythema, tanning and local or systemic immunosuppression. Omega-3 polyunsaturated fatty acids (n-3 PUFA) are considered anti- inflammatory and could reduce the damage caused by overexposure to UVR. Although, n-3 PUFA have been considered as photoprotective agents, their exact mechanisms of action is not completely understood. The aim of the work is to determine the effect of UVR and the n-3 PUFA eicosapentaenoic acid (EPA), or docosahexaenoic acid (DHA) on human skin cells (in vitro study), specifically on: cell viability, apoptosis and their metabolism through the cyclooxygenase and lipoxygenase pathways. Also, to study the cellular incorporation and effect of n-3 PUFA on the fatty acid profile of skin cells. A clinical study was undertaken to assess the incorporation of n-3 PUFA supplements in human skin. A clinical study was performed in 40 healthy women (active group) supplemented with 4g/day of EPA (70%) and DHA (10%) and 40 healthy women (placebo group) supplemented with 4g/day of glyceryl tricoprylate coprate (GTCC). After 3 months, both blood samples and skin punch biopsies were collected and analysed for fatty acids by gas chromatography (GC). HaCaT keratinocytes and 46BR.1N fibroblasts were cultured and treated with 10 and 50μM of either EPA, or DHA or oleic acid (OA) for 72h and exposed to 15 and 50 mJ/cm2. Cell viability was measured by the MTT assay and cell apoptosis by a colorimetric method, at 24h post UVR. Cells and culture media were analysed by GC and liquid chromatography tandem mass spectrometry (LC/ESI-MS/MS) to assess cellular fatty acids and production of eicosanoids. The clinical a study showed that in RBC saturated fatty acids (SFA) (44.27±7.43%) were the main fatty acid group followed by n-6 PUFA (29.61±5.53%). While in dermal tissue monounsaturated fatty acids (MUFA) (58.90±9.80%) was the main fatty acid group followed by SFA (27.06±6.78%). A significant increase in EPA, DHA and docosapentaenoic acid (DPA) was observed in RBC but only EPA was significantly increased in the dermis post n-3 PUFA supplementation. . The viability of HaCaT keratinocytes and 46BR.1N fibroblasts decreased post UVR and this was further reduced post PUFA treatment. Cell apoptosis increased when cells were exposed to UVR and further increased when cells were treated with EPA and DHA. . In HaCaT keratinocytes MUFA (54.22±8.82%) was the main fatty acid group followed by FAS (37.11±.9.16%), while SFA (51.94±8.68%) was the main group followed by MUFA (27.07±4.79) in 46BR.1N. Treated both cells with EPA and DHA showed significant increased in cellular EPA, DPA and DHA. 46BR.1N fibroblasts produced higher levels of prostaglandins (PG) compared to HaCaT keratinocytes: PGE2 and PGD2 were the main PG in both HaCaT (7.96±3.18 and 1.48±1.19 pg/million cell; respectively) and 46BR.1N with (44.2±23.00 and 17.1±9.71 pg/million cell; respectively). Significant increase in PGE1 and PGE2 occurred when cells were exposed to 15mJ/cm2 UVR. Treatment with n-3 PUFA decreased the level of PGE1 and PGE2, and increase production PGE3 at the baseline and post UVR. Both cell lines produced hydroxy fatty acids and the concentration of these mediators was higher in 46BR.1N than HaCaT. The concentrations of these mediators were significant increased post UVR: treatment with n-3 PUFA decreased the level of HODE and HETE, and increase production of HEPE and HDHA at baseline and post UVR. Overall, n-3PUFA treatment led to increases in the content of EPA and DHA on RBC, dermal tissue and human skin cell lines. EPA and DHA in skin cell lines appear to offer protection by increasing cellular apoptosis, decreasing inflammatory mediators specifically PGE2 and 12-HETE, and increasing anti-inflammatory mediators such as PGE3, 15-HEPE and 17-HDHA.

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