Optimalizace modelu kožní bariéry s obsahem ceramidů izolovaných z lidského stratum corneum / Optimization of the skin barrier model with isolated ceramides of human stratum corneum

Dulanská, Lucia

January 2021

Charles University, Faculty of Pharmacy in Hradec Králové Department of Biophysics and Physical Chemistry Author: Lucia Dulanská Supervisor: Mgr. Petra Pullmannová, Ph.D Title of thesis: Optimization of the skin barrier model with isolated ceramides of human Stratum corneum Stratum corneum (SC), the uppermost layer of the skin, regulates transcutaneous water loss and protects against outer conditions and harmful substances. It consists of cornified cells - corneocytes and extracellular lipid matrix, which is responsible for the barrier functions. Corneocytes are covered with covalently bound lipids creating the corneocyte lipid envelope (CLE). CLE is considered to interconnect the extracellular lipids with corneocytes and to have a templating effect. We aimed to optimize a skin lipid model simulating also the presence of CLE. The lipidic part of the model was prepared from an equimolar mixture of isolated human skin ceramides (hCer), cholesterol and free fatty acids (FFA, either protonated or deuterated) with 5 weight % of cholesteryl sulfate. hCer were extracted from the isolated human SC and purified by the column chromatography. The composition of hCer was determined by the high- performance thin-layer chromatography. The reverse-phase and normal phase silica gel particles served as the CLE...

Constituintes QuÃmicos dos ZoantÃdeos Palythoa caribaeorum (Duchassaing & Michelotti, 1860) e Protopalythoa Variabilis (Duerden, 1898) / Chemical Constituents of the zoanthids Palythoa caribaeorum (Duchassaing & Michelotti, 1860) and Protopalythoa variabilis (Duerden, 1898)

Josà Gustavo Lima de Almeida

24 November 2011

nÃo hà / Este trabalho descreve a composiÃÃo quÃmica das espÃcies marinha Palythoa caribaeorum e Protopalythoa variabilis, coletadas no municÃpio de Paracuru-CE. O fracionamento cromatogrÃfico do extrato hexÃnico de P. caribaeorum, resultou no isolamento de quatro esterÃides tetracÃclico de esqueleto ergostano: 24(R)-ergost-5-en-3-ol (P-1); 5,8-epidioxi-24(R)-ergost-6-en-3-ol (P-2); 24(R)-ergost-5-en-3,7-diol (P-4) e 24(R)-7-hidroperoxi-ergost-5-en-3-ol (P-7), um derivado do glicerol, 1-O-hexadecilglicerol (P-3) e quatro ceramidas: N-(2S,3R,4E,8E,1,3-dihidroxi-4,8-octadecadieno)hexadecanamida (P-5); N-(2S,3R,4E,1,3-dihidroxi-4-octadeceno)-hexadecanamida (P-6), N-[2S,3R,4E,8E,1-(2â-metilamino-etanosulfonila)-3-hidroxi-4,8-octadecaÂdieno]hexadecanamida (P-8) e N-[2S,3R,4E,1-(2â-metilaminoetano-sulfonila)-3-hidroxi-4-octadeceno]hexadecanamida (P-9). Do fracionamento cromatogrÃfico do extrato etanÃlico, foi possÃvel isolar o esterÃide 24(R)-ergost-7-en-3,56-triol (P-10) e o nucleosÃdeo 2-metil-timidina (P-11). Do estudo quÃmico do extrato hexÃnico de P. variabilis obteve-se os mesmos constituintes quÃmicos isolados de P. caribaeorum (P-1, P-2, P-3 e P-4) e as quatro ceramidas (P-5, P-6, P-8 e P-9). AlÃm destes compostos foi isolado um Ãster de cadeia alifÃtica, hexadecanoato de nonila (P-12) e o esterÃide Ãcido 24(R)-B-norergostan-3-5-diol-6-carboxÃlico (P-13). O potencial citotÃxico e antifÃngico das ceramidas foi avaliado, entretanto, estas nÃo apresentaram atividade. Os compostos foram isolados atravÃs de cromatografia de adsorÃÃo em gel de sÃlica e cromatografia lÃquida de alta eficiÃncia. As estruturas dos compostos obtidos foram elucidadas utilizando tÃcnicas espectroscÃpicas e espectromÃtricas, tais como: espectrometria de massa acoplada a cromatografia gasosa (CG/EM); espectrometria de massa de alta resoluÃÃo (EMAR); espectroscopia na regiÃo do infravermelho (IV) e RessonÃncia MagnÃtica Nuclear (RMN 1H, 13C e 15N) atravÃs de sequÃncias de pulsos uni e bidimensionais e comparaÃÃo com dados de RMN na literatura. / This work describes the chemical composition of the marine species Palythoa caribaeorum and Protopalythoa variabilis, both collected at Paracuru beach, state of CearÃ. The cromatographic fractionation of the hexane extract from P. caribaeorum resulted in the isolation of four tetracyclic sterols possessing the ergostan skeleton: 24(R)-ergost-5-en-3b-ol (P-1); 5 a,8a-epidioxy-24(R)-ergost-6-en-3b-ol (P-2); 24(R)- ergost-5-en-3b,7a-diol (P-4) and 24(R)-7a-hydroperoxy-ergost-5-en-3b-ol (P-7), a glycerol derivative, 1-O-hexadecylglycerol (P-3) and four ceramides: N- (2S,3R,4E,8E,1,3-dihydroxy-4,8-octadecadienyl)hexadecanamide (P-5); N- (2S,3R,4E,1,3-dihydroxy-4-octadecenyl)hexadecanamide (P-6); N-[2S,3R,4E,8E,1-(2â- methylamino-ethanosulfonyl)-3-hydroxy-4,8-octadecaenyl]hexadecanamide (P-8) and N-[2S,3R,4E,1-(2â-methylaminoethano-sulfonyl)-3-hydroxy-4-octadecenyl]hexadecanamide (P-9). The cromatographic fractionation of the ethanol extract permited the isolation of a steroid, 24(R)-ergost-7-en-3b,5a,6b-triol (P-10) and a nucleoside 2- methyltimidine (P-11). Column chromatography of the hexane extract of P. variabilis led to the isolation of nonyl hexadecanoate (P-12), the sterol 24(R)-B-norergostan-3b- 5b-diol-6b-carboxylic acid (P-13) and the same chemical constituents previously isolated from P. caribaeorum (P-1, P-2, P-3 e P-4) including the four ceramides (P-5, P-6, P-8 e P-9). The citotoxic and antifungal properties of all ceramides were evaluated, nevertheless none of them showed any activity. All compounds were isolated through adsorption column cromatography over silica gel followed by high performance liquid chromatography. The structures of the isolated compounds were elucidated using spectrometric techniques, such as: GC/MS, HRESIMS, IR and NMR (1H, 13C and 15N) through 1D and 2D pulse sequences and, whenever the case, comparison with literature data

EsterÃides

ceramidas

RMN 1H 13C e 15N

ZoantÃdeos

Palythoa caribaeorum

Protopalythoa variabilis

Steroids

Ceramides

13C and 15N NMR 1H

Zoanthids

Palythoa caribaeorum

Protopalythoa variabilis

QUIMICA ORGANICA

Lipides intramyocellulaires (IMCL) et exercice. Evaluation par la technique histochimique dans les champs d’application : effet de l’exercice aigu de très longue durée : effet de l’entraînement chez les sujets âgés et les sujets en surpoids / Intramyocellular lipids (IMCL) and exercise. Estimation by histochemical assay in practical applications : effects of very long lasting exercise : effects of exercise training in ageing and overweighting subjects

Ngo, Kim Tu An

13 December 2013

Le métabolisme lipidique est stimulé lors de l'exercice musculaire. La contribution énergétique des lipides s'accentue pendant l'exercice d'endurance d'intensité modérée de longue durée (40% à 60% de VO2max). Outre les acides gras circulants, les réserves de lipides intramyocellulaires (IMCL) sont sensées être utilisées pendant des performances dépassant 4 heures. Devant le manque de preuves expérimentales jusqu'à ce jour, une 1ere étude a été entreprise sur 10 sportifs (40 ± 6 ans) lors d'une course de 24h. Les résultats obtenus sur le muscle vaste externe ont montré une baisse significative d'IMCL de 56% et 45% dans les fibres de type I et IIA respectivement, alors que le glycogène n'a diminué que dans les fibres I. Ces données indiquent un catabolisme d'IMCL plus efficace que celui du glycogène dans les fibres rapides lors de l'exercice d'ultra endurance, dont le mécanisme reste à déterminer. IMCL s'accumule lors du vieillissement ou de l'obésité et peut constituer un risque de résistance à l'insuline (RI). Un entraînement combiné en endurance (EE) et en résistance (ER) de 14 semaines a été mené sur des sujets âgés (73 ± 4 ans) et d'autres en surpoids (58 ± 5 ans). Dans les deux groupes IMCL a augmenté (p<0.05) dans le muscle vaste externe (après EE) mais est resté stable dans le muscle deltoïde (après ER) et s'est accompagné de l'augmentation (p<0.05) de la capacité enzymatique de la β-oxydation après EE. Les céramides musculaires, une classe de lipides impliquée dans RI, ont été diminués (p=0.052) par EE et non par ER. Ces résultats confirment que l'augmentation d'IMCL n'est pas un facteur de risque métabolique et que EE se traduit par une diminution des céramides et de RI / Lipid metabolism is involved during muscle exercise. Energetic contribution of lipids increases during long lasting endurance exercise of moderate intensity (40% à 60% of VO2max). As well as circulating free fatty acids, intramyocellular lipid storages (IMCL) are postulated to be used during performances longer than 4 hours. Due the the lack experimental evidences untill today, a first study was undertaken on 10 athletes (40 ± 6 yrs) during a 24h running. Results obtained on vastus lateralis muscle showed a significant 56% and 45% decrease of IMCL in type I and IIA fibres respectively while glycogen decreased only in type I fibres. These data indicate a more efficient catabolism of IMCL than those of glycogen in fast twitch fibres during ultra endurance exercise, of which mechanism remains to be explored. IMCL accumulates during ageing or overweighting and may constitute a risk of insulin resistance (IR). A combined 14 weeks endurance (ET) and resistance (RT) training was followed by older (73 ± 6 yrs) and overweighted (58 ± 5 yrs) subjects. In the two groups IMCL increased (p<0.05) in vastus lateralis muscle (after ET) but remained stable in deltoidus muscle (after RT) and was linked to an increase (p<0.05) of β-oxydation enzymatic capacity after ET. Muscle ceramides, a category of lipids implicated in IR, decreased (p=0.052) after ET and not after RT. These results confirm that increase in IMCL is not a metabolic risk factor and that ET induces a decrease of both ceramides and IR

Lipides musculaires

Histochimie

Exercice musculaire

Endurance

Résistance à l'insuline

Vieillissement

Obésité

Céramides

Muscular lipids

Histochemistry

Muscle exercise

Endurance

Insulin resistance

Ageing

Obesity

Ceramides

Invalidation du gène de la myostatine dans un modèle murin de cachexie associée au cancer : implication dans la régulation de la masse musculaire / Myostatin gene inactivation in a mouse model of cancer cachexia : involvement in the regulation of muscle mass

Gallot, Yann

06 November 2013

La cachexie est un syndrome clinique et métabolique caractérisé par une perte de tissu adipeux et de tissu musculaire, fréquemment observé chez les patients atteints de cancer. La myostatine (Mstn) régule négativement la masse musculaire. Bien que la régulation des mécanismes moléculaires impliqués dans le contrôle de la masse musculaire joue un rôle central dans la cachexie associée au cancer, les relations existant entre la Mstn et les mécanismes physiopathologiques restent largement inconnues. Suite à l’inoculation de cellules Lewis lung carcinoma (LLC) à des souris, nous avons montré que l’invalidation du gène de la Mstn (souris Mstn-/-) confère une résistance au développement de la cachexie associée au cancer par rapport à des souris sauvages. La déficience en Mstn prévient la perte de masse musculaire et réduit la croissance tumorale, 35 jours après l’injection des cellules LLC, et est associée à un allongement de la durée de vie des souris. L’invalidation du gène de la Mstn provoque aussi une augmentation de l’apoptose des cellules LLC et une diminution de l'expression de gènes impliqués dans la prolifération et le métabolisme tumoraux. L’activation des systèmes protéolytiques ubiquitine-protéasome et autophagie-lysosome, due au développement tumoral, est réduite voire supprimée dans le muscle des souris Mstn-/-. L’accumulation de céramides intramusculaires, un sphingolipide formé suite à une lipolyse exacerbée, est corrélée à la perte de masse musculaire, suggérant que les céramides pourraient être un médiateur cellulaire impliqué dans la cachexie associée au cancer. Ces résultats montrent que la Mstn joue un rôle essentiel dans la cachexie associée au cancer / Cachexia is a complex clinical and metabolic syndrome, whose definition is imprecise, characterized by an uncontrolled loss of adipose tissue and skeletal muscle mass, frequently observed in cancer patients, and leading to death in 25% of cancer patients. Myostatin (Mstn) is a negative regulator of skeletal muscle mass and a critical determinant of skeletal muscle homeostasis. Although the regulation of the molecular mechanisms involved in the control of skeletal muscle mass plays a central role in the pathogenesis of cancer cachexia, the relationships between Mstn and the pathophysiological mechanisms remain largely unknown. Following subcutaneous inoculation of Lewis lung carcinoma cells (LLC) in mice, we showed that the Mstn gene inactivation (Mstn-/- mice) confers resistance to the development of cancer cachexia, compared to wild type mice. Mstn deficiency prevents the loss of skeletal muscle mass and reduces tumor growth, 35 days after the inoculation of LLC cells, and this is associated with a longer life of mice. Mstn gene inactivation also causes an increased apoptosis of LLC cells and decreases expression of genes involved in tumor proliferation and metabolism. Activation of ubiquitin-proteasome and autophagy-lysosome proteolytic systems, triggered by tumor growth is significantly reduced or suppressed in skeletal muscle of Mstn-/- mice. Accumulation of intramuscular ceramides, a sphingolipid synthesized due to excessive lipolysis, is correlated with the loss of muscle mass, suggesting that ceramides may be a cellular mediator involved in the pathogenesis of cancer cachexia. These results show that Mstn plays a critical role in the pathogenesis of cancer cachexia

Atrophie musculaire

Autophagie

Cachexie associée au cancer

Céramides

Lewis lung carcinoma

Myostatine

Ubiquitine-protéasome

Muscle atrophy

Autophagy

Cancer cachexia

Ceramides

Lewis lung carcinoma

Myostatin

Ubiquitin-proteasome

Protein phosphatase 2A (PP2A) holoenzymes regulate death associated protein kinase (DAPK) in ceramide-induced anoikis

Widau, Ryan Cole

03 May 2010

Indiana University-Purdue University Indianapolis (IUPUI) / Modulation of sphingolipid-induced apoptosis is a potential mechanism to enhance the effectiveness of chemotherapeutic drugs. Ceramide is a pleiotropic, sphingolipid produced by cells in response to inflammatory cytokines, chemotherapeutic drugs and ionizing radiation. Ceramide is a potent activator of protein phosphatases, including protein phosphatase 2A (PP2A) leading to dephosphorylation of substrates important in regulating mitochondrial dysfunction and apoptosis. Previous studies demonstrated that death associated protein kinase (DAPK) plays a role in ceramide-induced apoptosis via an unknown mechanism. The tumor suppressor DAPK is a calcium/calmodulin regulated serine/threonine kinase with an important role in regulating cytoskeletal dynamics. Auto-phosphorylation within the calmodulin-binding domain at serine308 inhibits DAPK catalytic activity. Dephosphorylation of serine308 by a hitherto unknown phosphatase enhances kinase activity and proteasomal mediated degradation of DAPK. In these studies, using a tandem affinity purification procedure coupled to LC-MS/MS, we have identified two holoenzyme forms of PP2A as DAPK interacting proteins. These phosphatase holoenzymes dephosphorylate DAPK at Serine308 in vitro and in vivo resulting in enhanced kinase activity of DAPK. The enzymatic activity of PP2A also negatively regulates DAPK protein levels by enhancing proteasomal-mediated degradation of the kinase, as a means to attenuate prolonged kinase activation. These studies also demonstrate that ceramide causes a caspase-independent cell detachment in HeLa cells, a human cervical carcinoma cell line. Subsequent to detachment, these cells underwent caspase-dependent apoptosis due to lack of adhesion, termed anoikis. Overexpression of wild type DAPK induced cell rounding and detachment similar to cells treated with ceramide; however, this effect was not observed following expression of a phosphorylation mutant, S308E DAPK. Finally, the endogenous interaction of DAPK and PP2A was determined to be required for ceramide-induced cell detachment and anoikis. Together these studies have provided exciting and essential new data regarding the mechanisms of cell adhesion and anoikis. These results define a novel cellular pathway initiated by ceramide-mediated activation of PP2A and DAPK to regulate inside-out signaling and promote anoikis.

SPHINGOLIPID

ADHESION

CERAMIDE

APOPTOSIS

ANOIKIS

PP2A

PROTEIN PHOSPHATASE 2A

DAPK

DEATH ASSOCIATED PROTEIN KINASE

Apoptosis

Ceramides

Sphingolipids

Phosphoprotein phosphatases

Protein kinases

Chemotherapy -- Effectiveness

Stereoselektive Synthese von lipophilen Inositolen und Ceramiden

Munick, Michael

09 April 2007

Die Arbeit umfasst die Synthese von lipophilen Inositolen und Glycerollipiden, welche auf ihre Raftophilie getestet wurden. Des weiteren wurden eine Reihe neuer Ceramide synthetisiert und diese in Bioassays auf ihre Wirksamkeit gegenüber diversen Krankheiten wie Influenza getestet.

Inositol

GPI

Glycerollipide

Lipide

Lipid Rafts

Ceramide

Raftophil

DRM

Inositols

GPI

Glycerollipids

Lipids

Lipid Rafts

Ceramides

Raftophil

DRM

ddc:540

rvk:VK 5807

Inosite

GPI

Glycerolipide

Lipide

Ceramide

Digital Rights Management

Effets des acides gras saturés sur la voie de sécrétion. Relation avec la mucoviscidose / Effects of saturated fatty acids on the secretory pathway. Relationship with cystic fibrosis

Payet, Laurie-Anne

29 November 2013

Les acides gras saturés (AGS) altèrent la fonctionnalité des organites dans de nombreux types cellulaires. Il a été proposé que ce processus, également nommé lipointoxication, puisse être responsable de plusieurs pathologies humaines telles que le diabète de Type 2.Au niveau cellulaire, l'accumulation d'AGS est associée à une augmentation du taux de saturation des phospholipides (PL) membranaires, les composants majoritaires des membranes des organites, mais également du taux de céramides, impliqués dans l'induction de l'apoptose.Dans une première partie de ce travail, nous avons étudié, chez le modèle cellulaire simple Saccharomyces cerevisiae, la contribution relative des PL saturés et des céramides à la cytotoxicité des AGS. Nous avons pu démontrer que les céramides agissaient à des étapes précoces de la voie de sécrétion, alors que les PL saturés impactaient des étapes plus tardives en altérant en particulier la formation de vésicules de sécrétion.Parallèlement, nous avons également constaté que le taux d'AGS était significativement augmenté dans les PL membranaires des patients atteints d'une maladie génétique, la mucoviscidose. La mutation la plus fréquente responsable de cette maladie, résulte en la rétention de la protéine correspondante dans le réticulum endoplasmique. Des molécules pharmacologiques, capables de corriger le trafic de la protéine à sa destination finale ont été isolées in vitro, mais des limitations importantes ont pu être observées lors des tests cliniques. Nous proposons dans le présent manuscrit que la lipointoxication liée aux AGS pourrait être un écueil important à l'utilisation des correcteurs actuels pour le traitement de la mucoviscidose. / Saturated fatty acids (SFA) have been reported to alter organelle integrity in many cell types. This process, also known as lipotoxicity, has been proposed to be responsible for several human pathologies such as type 2 diabetes.At the cellular level, SFA accumulation is associated with an increase of the saturation rate of membrane phospholipids (PL), the major components of organelle membranes, and an increase of ceramides levels, implicated in apoptosis induction.In the first part of this work, we took advantage of a simple yeast-based model to study the relative contributions of saturated PL and ceramides to SFA cytotoxicity. We demonstrated that ceramides act early in the secretory pathway, while saturated PL impact the later steps, and particularly the formation of secretory vesicles.In parallel, we observed that SFA amounts were significantly increased in the membrane PL of cystic fibrosis (CF) patient cells. The most common mutation responsible for this genetic disease results in the retention of the corresponding protein in the endoplasmic reticulum. Pharmacological agents, which correct the mistrafficking of the protein, have been isolated in vitro, but they did not show significant improvements in clinical trials. We propose in the present manuscript, that SFA-related lipointoxication could be an important bottleneck for the use of these pharmacological agents in clinical trials.

Palmitate

Phospholipides

Céramides/sphingolipides

Stress du RE

Apoptose

Formation des vésicules

Trafic des protéines

Diabète de type 2

Diabète lié à la mucoviscidose

Palmitate

Phospholipids

Ceramides/sphingolipids

ER stress

Apoptosis

Vesicular budding

Protein trafficking

Type 2 diabetes

CFRD (Cystic Fibrosis Related Diabetes)

571.6

Stereoselektive Synthese von lipophilen Inositolen und Ceramiden

Munick, Michael

22 January 2007

Die Arbeit umfasst die Synthese von lipophilen Inositolen und Glycerollipiden, welche auf ihre Raftophilie getestet wurden. Des weiteren wurden eine Reihe neuer Ceramide synthetisiert und diese in Bioassays auf ihre Wirksamkeit gegenüber diversen Krankheiten wie Influenza getestet.

info:eu-repo/classification/ddc/540

ddc:540

Spectroscopies vibrationnelles (MCR et ATR-FTIR) et Chromatographie Liquide couplée à la Spectrométrie de Masse Haute Résolution (LC-HR-MS) : Outils d’investigation in vivo de l’impact du vieillissement cutané sur le Stratum Corneum aux niveaux tissulaire, supra-moléculaire et moléculaire / Vibrational spectroscopies (MCR and ATR-FTI) and Liquid Chromatography coupled Mass Spectrometry High Resolution : In vivo investigation tools for the effect of skin aging on the Stratum Corneum at tissular, supra-molecular and molecular levels

Boireau-Adamezyk, Elise

22 May 2015

La peau est l’organe le plus étendu du corps humain. Doté d’une membrane biologique fine appelée la couche cornée, celle-ci le protège du desséchement et des agressions extérieures chimiques ou mécaniques auxquelles le corps humain doit faire face. Ce travail de thèse a consisté, dans un premier temps, à décrire via la littérature existante les effets de l’âge,dûs au vieillissement intrinsèque et extrinsèque,sur la physiologie cutanée du Stratum Corneum (SC).La partie expérimentale basée sur la microscopie vibrationnelle traitera des variations de la fonction barrière et de l’hydratation du SC lors du vieillissement chronologique et photo-vieillissement. D’autres méthodes ont également été utilisées comme la chromatographie liquide en phase normale couplée à la spectrométrie de masse haute résolution dotée d’une source APCI et d’un détecteur Orbitrap pour l’étude de la composition détaillée des lipides du SC ainsi que des méthodes plus globales comme la PIE ou la cornéométrie. Le caractère non invasif de toutes ces méthodes a permis de réaliser ces études in vivo. L’évolution de la fonction barrière a été étudiée aux niveaux tissulaire, moléculaire et supramoléculaire par micro-spectroscopie confocale Raman et spectroscopie Infrarouge. Puis le lien moléculaire a été fait entre le vieillissement intrinsèque et les céramides de la matrice lipidique intercornéocytaires par chromatographie en phase liquide couplée à la spectrométrie de masse. Les molécules discriminantes entre population jeune et âgée ont été déterminées par analyse chimiométrique. L’évolution de l’hydratation cutanée aux niveaux tissulaire, moléculaire et supramoléculaire a également été l’objet d’une investigation approfondie. Les variations de la composition des NMF et la teneur en eau dans le SC lors du vieillissement cutané ont été mises en lumière en utilisant des descripteurs spectraux Raman. Les variations structurelles des molécules d’eau impactant l’organisation supramoléculaire des édifices lipidiques ont également été évaluées. Au cours du vieillissement, la fonction barrière cutanée et hydratation sont conservées. / Skin is the external surface defining the human body in space. Its outer-most layer is a thin biological membrane, called Stratum Corneum(SC), that protects the internal organs from desiccation as well as chemical or mechanical external aggressions. The present thesis aimsin a first step, to summarize the current knowledge regarding the effects of intrinsic and extrinsic aging on SCphysiology,based on available literature. The experimental part addresses the gaps in our understanding of the effects of chronological aging and photoaging on the SC barrier function and hydration, using traditional methods (such as trans epidermal water loss and skin conductance) as well as more advanced ones (vibrational spectroscopies, liquid chromatography in normal phase tandem mass spectrometry high resolution with an APCI source and an Orbitrap detector. As these methods are non-invasive, all studies have been carried out in vivo. The evolution of the barrier function has been studied at the tissular, molecular and supramolecular levels using confocal Raman micro-spectroscopy and infrared spectroscopy. Then the link between the intrinsic aging and the ceramides of the intercorneocytary lipid matrix has been studied by liquid chromatography tandem mass spectrometry. The discriminant molecules between young and old population have been identified by a chemometric analysis. The evolution of cutaneous hydration at the tissular, molecular and supramolecular level has also been investigated. The variations in the NMF composition and the SC water content have been studied by Raman spectral descriptors. Moreover, the structural variations of water molecules impacting the supramolecular organization of the lipid structures have been evaluated. Chronological aging and chronic exposure to environmental factors mildly affect SC barrier function and hydration levels. However, the processes controlling these properties are affected by aging in a site-dependent fashion.

Fonction barrière

Hydratation cutanée

SC

Lipides

Céramides

Mobilité de l’eau

Chronological aging and photoaging

Barrier function

Cutaneous hydration

SC

Lipids

Ceramides

Mobility of water

The role of acid sphingomyelinase in autophagy

Justice, Matthew Jose

11 July 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Autophagy is a conserved cellular process that involves sequestration and degradation of cytosolic contents. The cell can engulf autophagic cargo (lipids, long-lived proteins, protein aggregates, and pathogens) through a double bound membrane called an autophagosome that fuses with a lysosome where hydrolases then degrade these contents. This process is one of the main defenses against starvation and is imperative for newborns at birth. Research on this process has increased exponentially in the last decade since its discovery almost a half a century ago. It has been found that autophagy is an important process in many diseases, continues to be at the forefront of research, and is clearly not fully understood. Our preliminary cell culture data in endothelial and epithelial cells show that a blockade of the de novo ceramide synthesis pathway, during treatment with an autophagy stimulus (cigarette smoke extract exposure), does not result in any reduction in autophagy or autophagic flux. Conversely, when acid sphingomyelinase (ASM) is pharmacologically inhibited, which prevents the generation of ceramide from sphingomyelin in an acidic environment, a profound increase in autophagy is observed. In this work, we hypothesize that (ASM) is an endogenous inhibitor of autophagy. ASM has two forms, a secreted form and a lysosomal form. N-terminal processing in the Golgi determines its cellular fate. In the lysosomal form, the phosphodiesterase is bound in the lysosomal membrane. The pharmacological inhibition mechanism is to release ASM from the membrane and allow other hydrolases to actively degrade the enzyme which, in turn, decreases the activity of ASM. This suggests that either the activity of ASM is a regulator of autophagy or that the presence of ASM, activity aside, is required for the lysosomal nutrient sensing machinery (LYNUS) to function properly. Here, we show that ASM is, in fact, an endogenous inhibitor of autophagy in vitro. The phosphorylation status of P70 S6k, a downstream effector of mammalian target of rapamycin (mTOR), which is part of the LYNUS, shows that dissociation of ASM from the membrane regulates mTOR and disturbs the LYNUS in such a manner as to signal autophagy.

Lysosomes -- Research

Rapamycin

Apoptosis

Autophagic vacuoles

Cell death

Cytosol

Cell physiology -- Methodology

Cell cycle -- Regulation

Ceramides

Phospholipids

Phosphorylation

Endothelial cells

Epithelial cells

Hydrolases

Endocytosis