Vias de sobrevivência e morte em queratinócitos submetidos ao estresse oxidativo e choque hiperosmótico / Survival and death signaling pathways in keratinocytes exposed to oxidative stress and hyperosmotic shock

Silva, Rodrigo Augusto da

18 August 2018

Orientador: Giselle Zenker Justo / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-18T14:42:19Z (GMT). No. of bitstreams: 1 Silva_RodrigoAugustoda_D.pdf: 6436030 bytes, checksum: 9f8fa7c9b01f00bc5d2d2396d4099a1e (MD5) Previous issue date: 2011 / Resumo: A epiderme é constantemente confrontada por inúmeros agentes estressores. Variações na umidade ou exposição à radiação ultravioleta afetam o balanço osmótico e o estado redox celular alterando, assim, as características fisiológicas da pele. Em resposta aos diferentes estímulos os queratinócitos ativam vias distintas de sinalização. Portanto, o balanço entre as vias de sobrevivência e morte determina o destino celular. A fim de se determinar possíveis alvos moleculares associados a morte e sobrevivência de queratinócitos, vias de sinalização celular disparadas pela exposição ao choque hiperosmótico e estresse oxidativo foram investigadas em células HaCaT tratadas com sorbitol e peróxido de hidrogênio (H2O2) respectivamente. Os resultados obtidos neste estudo demonstraram que, em ambos os modelos, a redução da viabilidade celular dependeu da dose e do tempo de exposição ao agente extressor, apresentando valores de IC50 de aproximadamente 1 mol/L de sorbitol e 2 mmol/L de H2O2 após 2 e 4 h de exposição respectivamente. Os danos causados foram irreversíveis e estão associados à ativação da via intrínseca de morte celular apoptótica, acompanhada de perda da integridade da membrana lisossomal, extravasamento de catepsina B para o citosol e alterações morfológicas atípicas no citoesqueleto, principalmente no arranjo dos filamentos de actina. A investigação do status de funcionamento de proteínas quinases ativadas por mitógenos (MAPKs) e do estado redox celular indicou que esses eventos foram mediados por espécies reativas de oxigênio e pela ação da quinase c-Jun N-terminal (JNK). Adicionalmente, a exposição dos queratinócitos aos diferentes estímulos estressores foi acompanhada de ativação da proteína tirosina fosfatase de baixa massa molecular (LMWPTP), cuja relevância nos estudos de biologia celular aumentou nos últimos anos. A LMWPTP atua em importantes vias de sinalização que estão associadas à sobrevivência e morte celular. Cientificamente, este estudo é pioneiro ao demonstrar alterações no citoesqueleto e ação de proteínas quinases e fosfatases nos mecanismos que determinam o destino de queratinócitos expostos ao choque hiperosmótico e ao estresse oxidativo. De fato, o melhor conhecimento da relação entre as vias de sobrevivência e morte celular em queratinócitos é fundamental para promover o desenvolvimento de novas estratégias terapêuticas aplicadas às doenças dermatológicas. Desta maneira, o presente trabalho apresenta resultados inéditos, contribuindo no conhecimento da biologia dos queratinócitos e com sua aplicação no desenvolvimento da terapia dermatológica / Abstract: The epidermis is constantly confronted with multiple environmental stressors. Changes in humidity or exposition to UV radiation affect the redox state and osmotic balance, modifying the physiological characteristics of the skin. In response to different stresses, epidermal keratinocytes can activate distinct signaling pathways and the balance between death and life signals will determine the cell fate, leading to programmed cell death or cell survival. In order to determine the possible molecular targets associated to death and survival of keratinocytes, the signaling pathways activated by the exposition of HaCaT cells to sorbitol (hyperosmotic shock) and H2O2 (oxidative stress) were investigated. The results showed that in both models the reduction in cellular viability was time and dose-dependent, displaying IC50 values of 1 mol/L for sorbitol and 2 mmol/L for H2O2 after 2 and 4 h of exposition to the stressors, respectively. The damages caused by the stressors were irreversible and associated to the induction of the intrinsic apoptotic pathway, accompanied by the loss of lisosomal membrane integrity, release of cathepsin B to cytosol and atypical morphological alterations in cytoskeleton, particularly in the arrangement of actin filaments. Analysis of the functional status of mitogen-activated protein kinases (MAPKs) and the cellular redox state showed that such events were mediated by reactive oxygen species and occurred through c-Jun N-terminal kinase (JNK) activation. Additionally, exposure of keratinocytes to the different stress inducers was followed by low molecular weight tyrosine protein phosphatase (LMWPTP) activation, which is responsible for the regulation of important signaling pathways associated to cell survival and death. It is important to highlight the novelty of these results showing alterations in the cytoskeleton and the action of protein kinases and phosphatases during exposure of keratinocytes to hyperosmotic and oxidative stresses. In fact, the development of more efficacious therapies against skin diseases depends on the establishment of the relationships between the survival and death signaling pathways in keratinocytes. In this direction, this work contributes to a better understanding of the keratinocyte biology and the improvement of traditional dermatological therapies / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular

Queratinócitos

Estresse oxidativo

Morte celular

Transdução de sinal

Keratinocytes

Hyperosmotic stress

Oxidative stress

Cell death

Signal transduction

Vliv vybraných superpotravin a jejich složek na lidské buňky / Influence of some super-foods and their active components on human cells

Maslonková, Ivana

January 2018

The presented diploma thesis is focused on the study of composition and biological effects of some super-foods. Theoretical part deals with basic information about chosen superfoods and their bioactive substances. Further, theoretical part describes the overview of vesicular systems used for encapsulation and the most common methods of particle characterization. A brief review of cell cultures and cultivation of human cells is presented as well as methods for cytotoxicity a genotoxicity testing. In the experimental section, aqueous and ethanol extracts of super-foods were prepared. These extracts were then encapsulated into liposomal and combined PHB particles. Super-food extracts were characterized by spectrophotometrical methods in order to determine the content of polyphenols, flavonoids, anthocyanins, carotenes, chlorophyll, tannins, and antioxidant activity. The physico-chemical characteristics of prepared liposomal and combined particles were determined too. The particles with encapsulated extracts were further tested using the MTT assay and SOS chromotest to describe their potential cytotoxic and genotoxic effects.

Příprava a využití nanočástic a nanovláken s přírodními UV filtry / Preparation and application of nanoparticles and nanofibres with natural UV filters

Plachá, Monika

January 2018

The presented diploma thesis is focused on preparation of nanoparticles and nanofibres with natural UV filters. Liposomes with encapsulated aqueous, ethanol and lipid extracts were prepared. Nanofibers from PHB containing lipid extract were prepared too. As a part of this work, an overview of natural sources with potential effects as UV filters were introduced. Moreover, nanoparticles and nanofibers and methods of their characterization were described. Size, polydisperse index and colloid stability of prepared nanoparticles were characterized via DLS. In experimental part aqueous, ethanol and lipid extracts were prepared from roasted coffee, green coffee and cascara. These extracts were spectrophotometrically characterized for the content of polyphenols, flavonoids, antioxidant activity, tannins and their SPF. Liposomes and liposomes containing PHB with these extracts were prepared and the encapsulation effectivity, short–term and long–term stability as well as SPF of nanoparticles were determined. Nanofibers from PHB containing lipid extracts were prepared via electrospinning and forcespinning methods. Prepared nanofibers were examined via FTIR–ATR. Antioxidant activity, short–term and long–term stability were determined spectrophotometrically. From selected nanoparticles, emulsions and gels were prepared and their SPF was also determined. Three types of emulsions with the best SPF were selected and tested on volunteers. Sedimentation stability of emulsions was tested by analytical centrifuge. Finally, cytotoxicity of selected nanoparticles and nanofibers was tested via MTT assay using human keratinocytes.

Možnosti přípravy nanočástic a nanovláken s antimikrobiální složkou / Preparation of nanoparticles and nanofibers with antimicrobial components

Sosková, Simona

January 2017

The presented diploma thesis is focused on the preparation of new materials with antimicrobial effect. Liposomes and nanofibers from polyhydroxybutyrate containing clotrimazole and natural extracts with good antifungal and antioxidant effects were prepared. The theoretical part contains examples and short description of using nanoparticles and nanofibers in cosmetics and medicine and the description of plants which have positive and potential antimycotic effects. Moreover, methods for particles and fibers characterisation were shortly described. In the experimental part, natural water and lipid extracts were prepared and spectrophotometrically characterised for the content of polyphenols, flavonoids and the antioxidant activity. Liposomes and liposomes containtng PHB were prepared from selected extracts and the encapsulation effectivity, shortterm and longterm stability via determination of polyphenols were determined. Prepared particles were characterized with DLS method (size) and zeta- potential (stability). PHB nanofibers functionalised with selected lipid extracts and clotrimazole were prepared via electrospinning and forcespinning, and examined via FLIM and FTIR-ATR methods and spectrophotometry was used for antioxidant activity and release of active substances determination. Antifungal properties of prepared particles, extracts and fibers using the test system Candida glabrata were studied. Finally, cytotoxicity of selected samples was tested with MTT assay using human keratinocytes.

Adhézia, rast a diferenciácia kožných buniek na nanovlákenných polymérnych nosičoch / Adhesion, growth and differentiation of skin cells on nanofibrous polymer membranes

Pajorová, Júlia

January 2015

Our study contributes to the tissue engineering, mainly to the construction of appropriate scaffolds for regeneration of damaged skin. Simultaneously, it brings valuable insights for basic research in the field of molecular mechanisms of adhesion, proliferation and phenotypic maturation of cells and the control of the cell behavior through the cell extracellular matrix (ECM), represented by synthetic nanofibrous material. Nanofibrous polylactic-co-glycolic acid (PLGA) membranes were prepared by needle-less electrospinning technology. These membranes were further modified with cell adhesion-mediating biomolecules, e.g. collagen, fibronectin and fibrin in order to increase their affinity to colonizing cells. Adhesion, growth and differentiation of keratinocytes (HaCaT) and fibroblasts, i.e. major cell types of epidermis and dermis, were evaluated on these nanofibrous membranes. The results show that the membrane modification using fibrin structures improved adhesion and proliferation of human dermal fibroblasts. The collagen structure on the surface of membranes improved the adhesion and proliferation of human HaCaT keratinocytes. Furthermore, fibrin structure stimulated fibroblasts to produce collagen, which is a major component of ECM in the natural skin dermis. Fibronectin enhanced cell attachment...

Les allergies cutanées aux fragrances : mécanisme d'action et rôle du facteur de transcription Nrf2. Du modèle 2D au modèle 3D. / Skin allergy to fragances : mechanism of action and role of the transcription factor Nrf2. From 2D to 3D models.

Raffalli, Chloé

15 February 2018

La dermatite allergique de contact (DAC) est une réaction inflammatoire aiguë, médiée par les cellules dendritiques (DCs) survenant suite à l’exposition répétée de la peau avec une molécule allergisante. La prévalence estimée des cas de DAC aux substances parfumantes est de 1,7 % à 4,1 % dans la population générale. Les molécules allergisantes sont des molécules appelées haptènes, qui vont se conjuguer avec des protéines de l’épiderme ou du derme. C’est le cas du cinnamaldéhyde (CinA), une molécule retrouvée dans la cannelle. Le linalol et le limonène sont des terpènes présents dans la lavande et l’orange, qui vont s’autoxyder au contact de l’air pour former des allergènes puissants, tels que les hydroperoxydes allyliques. Le premier objectif de cette thèse a été d’étudier le mécanisme d’action de ces terpènes et leurs hydroperoxydes allyliques respectifs sur la lignée cellulaire THP-1, qui sert de substitut aux cellules dendritiques. Le rôle du facteur de transcription Nrf2, majeur dans la lutte contre le stress oxydant, a également été investigué.Les consommateurs de produits cosmétiques sont exposés à de faibles concentrations de molécules allergisantes, mais plusieurs fois par jour ou par semaine. Nous avons souhaité étudier l’exposition répétée à de faibles doses d’haptène sur la peau.Les kératinocytes jouent également un rôle dans la DAC : ce sont les premières cellules qui vont rencontrer la molécule allergisante dans la peau. La deuxième partie de ce travail a été d’étudier l’impact d’une exposition répétée de CinA à de faible concentration sur ces KCs et plus particulièrement sur la différenciation de l’épiderme, en utilisant un modèle organotypique de peau en 3D. / Allergic contact dermatitis (ACD) represents a severe health problem. It is a dendritic cells (DCs) mediated skin disease caused by repeated exposure to an allergenic compound. ACD cases of fragrances in general population is estimated from 1.7 % to 4.1%. Contact sensitizers are compounds termed haptens and they will form a conjugate with epidermis and dermis proteins. Example is cinnamaldehyde (CinA), a molecule found in cinnamon. Linalool and limonene are terpenes found in lavender and oranges. In contact with the air, they will autoxidize to form highly allergenic compounds: allylic hydroperoxides. The first aim of this thesis was to study the mechanism of action of those terpenes and their respective allylic hydroperoxides on THP-1 cell-line, described as a surrogate of DCs. The transcription factor Nrf2 is playing a major role in oxidative stress and was also investigated.Consumers of cosmetic products are exposed to low quantities of allergenic compounds, but several times a day or a week. We wanted to study repeated exposure of low concentration of haptens on the skin.KCs also play a key role in ACD: they are the first cells that will encounter the allergenic compound in the skin. The second aim of this thesis was to study the impact of repeated exposure of low concentrations of CinA on those KCs and more particularly on the epidermis differenciation, using a 3D organotypic culture of skin.

Allergie cutanée

Fragrance

Nrf2

In vitro

Kératinocyes

Cellules dendritiques

Skin allergy

Fragrance

Nrf2

In vitro

Keratinocytes

Dendritic cells

Regulation of Microvesicle Particle release in keratinocytes

Awoyemi, Azeezat Afolake

24 August 2018

No description available.

Pharmacology

Microvesicle particle

MVP release

keratinocytes

acid sphingomyelinase

platelet-activating factor

Charakterizace nově vyvinutých fluorescenčních sond v buněčných systémech / Characterization of newly developed fluorescence probes in cellular systems

Kadlecová, Julie

January 2021

Nanoparticles (NP) are currently a progressive area of scientific research. The possibility of synthesizing them according to the required parameters opens up possibilities for their wide use also in biomedicine. One example is a nanoparticle that can detect cellular processes, such as pH. We already know that the pH of healthy and cancer cells differs by the opposite gradient on the intracellular and extracellular side of the membrane. In this context, this work deals with the study of fluorescent silicon nanoparticles (SiNP) tested on a human keratinocyte cell line from a healthy donor (HaCaT) and from skin cancer donor (A431). Once found that even the highest concentrations of SiNP used are not cytotoxic, they can be further studied by fluorescence, confocal and super-resolution microscopy. In order to assess the pH detection properties of these SiNPs, a method for measuring intracellular pH with a fluorescent raciometric probe SNARF-1 using fluorescence spectroscopy and flow cytometry was introduced. Since the pH values of the intracellular environment are closely related to cellular metabolism, the metabolism of A431 and HaCaT cells was characterized and compared. To do this, methods for measuring analog glucose consumption (2-NBDG) and another new method for measuring real-time metabolism...

Protective Effects of Milk Phospholipids Against UV-Induced DNA Damage in Human Skin Cells

Nguyen, Lan-Anh

01 December 2014

Skin cancer is the most common type of cancer in the US. The American Academy of Dermatology estimated that more than 3.5 million new cases of skin cancer are diagnosed in the US each year and 1 in 5 Americans will likely to develop skin cancer in their life time. Most cases of skin cancer are caused by exposure to ultraviolet (UV) radiation from the sun. Some of the most common sunscreen ingredients are unstable and can form harmful radicals upon exposure to UV radiation. There is a strong clinical need for a more stable and effective sunscreen ingredient such as bovine milk phospholipids (MP). Phospholipids were shown to have beneficial health effects such as regulation of the inflammatory reactions, protective effects against colon cancer, and reducing cardiovascular risk factors. Previous histology and MTT tissue viability research studies suggested that MP act upon skin cells in a protective manner against UV radiation. This thesis aims to further investigate the protective effects of bovine milk phospholipids by evaluating the expression of a UV-induced DNA damage marker, cyclin-dependent kinase inhibitor, p21WAF1/CIP1. Western blots were used to quantify p21 expression in human keratinocytes in four categories of samples: No-UV, UV, UV+MP, MP and in HeLa (p21 positive control). In the No-UV samples, cells were not irradiated by UV light. However, in the UV samples, keratinocytes were exposed to a UV dosage of 10 mJ/cm2. In the UV+MP samples, keratinocytes were first treated with 1% MP solution (w/v) in their culture media for 24 hours then exposed to a UV dosage of 10 mJ/cm2. In MP, keratinocytes were treated with 1% MP solution in their culture media for 24 hours. Total cell proteins were extracted 24 hours post-UV irradiation. The same amount of protein from each sample (determined by BCA assay) was loaded into a 4-12% Bis-Tris SDS-PAGE gel, run under denaturing, non-reducing conditions then blotted and treated with antibodies for the quantitative detection of p21 proteins. Finally, intensities of p21 protein bands were analyzed by using ImageJ software. Under non-reducing conditions, three p21 proteins covalently bonded with each other showed up as 63 KDa molecules on the PVDF membrane. The UV, and HeLa samples showed a 2.28 fold, and 1.23 fold increase in p21 expression, respectively, compared with the No-UV samples control. The MP samples showed a 0.948 fold decrease in p21 compared with the No-UV samples, and the UV+MP samples showed only a 1.13 fold increase in p21. When comparing with the UV sample, the UV+MP sample has 50.4% less p21 expression. Less p21 expression in the UV+MP sample compare with the UV sample suggested that less DNA damage occurred in the sample that was treated with milk phospholipids. This result strongly suggests that 1% bovine milk phospholipids can protect skin cells from UV induced DNA damage.

Keratinocytes

milk phospholipids

p21

UV-induced DNA damage

skin cancer

Protective Effects of Sphingomyelin Against UV Photodamage in Human Keratinocytes

De Guzman, Kathleen

01 December 2013

Ultraviolet (UV) radiation has been demonstrated in numerous studies to be a major risk factor for non-melanoma skin cancer development. Despite the emergence of current UV-preventative strategies, such as sunscreens and skin-protective clothing, the incidence of non-melanoma skin cancer has continued to rise. This has encouraged investigations on alternative methods for UV prevention. In particular, bovine milk sphingomyelin has been studied for its potential in protecting human skin against UV photodamage. While the previous studies have suggested that sphingomyelin exhibits UV-protective properties in a human skin equivalent model, the exact mechanisms behind sphingomyelin’s photoprotective effects are yet unknown. This thesis aims to further investigate the UV-protective effects of sphingomyelin in normal human epidermal keratinocytes, using nuclear p21 expression as a marker for UV photodamage. Keratinocytes were incubated for 24 hours in a 0.1% sphingomyelin solution and then exposed to 40mJ/cm2 of 302nm UV radiation. After 24 hours of post-UV incubation, nuclear p21 expression was evaluated using immunofluorescence. Confocal images were analyzed for their mean nuclear p21 fluorescence intensity measured in grayscale (0-255). Keratinocytes treated with sphingomyelin showed approximately a 50% decrease in UV-induced mean nuclear p21 intensity compared to keratinocytes with no sphingomyelin treatment (via Tukey’s test; p

keratinocytes

p21

UV radiation

sphingomyelin

skin cancer

Biology

Cancer Biology

Cell Biology