Mechanisms involved in adenovirus binding to and infection of host cells

Nyberg, Cecilia,

January 2009

Diss. (sammanfattning) Umeå : Umeå universitet, 2009. / Härtill 4 uppsatser. Även tryckt utgåva.

How the exposure to idealized advertisement affect young women's self-esteem and body satisfaction: testing for the influence of lifestyle

Borg, Linda, Fredriksson, Lis

January 2015

Eating disorders and low self-esteem among young women is a growing concern in today’s society. Due to this growing concern, this subject has been given a lot of attention both in media and through academic research during recent years. One area that has been highly criticized and examined is the idealized ideals often presented in media and advertisement today. These ideals can, according to literature, harm young women due to social comparison with these idealized images. According to previous research, this social comparison can have a negative effect on both self-esteem and body satisfaction. Research also show that continued exposure to such ideals can lead to internalization of thin and beauty ideals, which in turn is proven to be a strong predictor for these images negative affect on self-esteem and body satisfaction. Because of these findings and the critique of these ideals in media, this is an important subject to study both because of the ethical concerns with continuing to reinforce these ideals in advertisement, and from a society’s perspective in order to learn who might need extra protection in order to not be harmed by these ideals. Therefore, this study will firstly examine if we can see a negative effect on high school student’s self-esteem and body satisfaction, after being exposed to idealized images (in our case thin-models). Our study will also examine, in a second part, if we can see, depending on the lifestyle of the students, if some girls are more vulnerable than others to the exposure of idealized images. The second part of the study will contribute with information of which young women that need extra protection and attention to not develop low self-esteem due to the pressure of living up to the ideals. The method of our study is mostly of a deductive nature since this is an extensively researched topic, where pre-established methods and theories can be found. However, as the second part of the study has not been previous research this part will use a combination of deductive and inductive strategy. To collect the primary data an experimental design is used, with pre-established measurements for self-esteem and body satisfaction. Moreover, statements regarding the participant’s lifestyle are constructed with the help of AIOs lifestyle questionnaire as an inspiration. The experiment processes consists of two steps. First, the participants are exposed to two images, either thin-model images, normal sized woman images, or control images (which is images without any persons in it). After the exposure, the participants are asked to answer the questionnaire consisting of the self-esteem measurement, the body satisfaction measurement, and the lifestyle statements. The first part of our study did not show any sign of the thin-model image having any effect on the participant’s self-esteem or body satisfaction. However, we found a significant difference between the girls of 15-17 years old and those who were 18-20 years old self-esteem and body satisfaction means. Where the girls 15-17 scored significantly lower in both. Our conclusion of these findings is that there still is a high internalization of unhealthy thin and beauty ideals especially among the younger girls. Therefore, idealized media still is harmful for these girls since they are reinforcing and contributing to these ideals in society. For the second part of the study, we found a significant difference between the Party lifestyle group and the Sport lifestyle group’s self-esteem, where the Party Lifestyle group had a significantly lower self-esteem than the Sport lifestyle group. Further, we could also see a connection throw-out all of our results between self-esteem and body satisfaction, where those who scored low in self-esteem most often also scored low in body satisfaction and the other way around. This finding showed us that those with a party lifestyle are more vulnerable to idealized media exposure in that way that they are more likely to internalize unhealthy beauty and thin ideals.

Self-esteem

body satisfaction

social comparison

internalization of thin ideals

media influence

lifestyle

young female

Självförtroende

kroppsuppfattning

internalisering

medias påverkan

livsstil

unga kvinnor

Αλληλεπιδράσεις των επταελικοειδών υποδοχέων με διάφορες πρωτεΐνες. Χαρακτηρισμός νέων σηματοδοτικών μονοπατιών / Protein-protein interactions of the heptahelical receptors. Identification of new signaling pathways

Παπακωνσταντίνου, Μαρία-Παγώνα

07 April 2015

Οι οπιοειδείς υποδοχείς (OR), μ, δ, κ και NOP, είναι μέλη των επταελικοειδών υποδοχέων που συζεύγνυνται με G πρωτεΐνες (7ΤΜ ή GPCR), οι οποίοι αποτελούν τη μεγαλύτερη υπεροικογένεια υποδοχέων και έναν από τους κύριους φαρμακολογικούς στόχους λόγω της υψηλής φυσιολογικής τους σημασίας. Οι OR ρυθμίζουν μια ποικιλία φυσιολογικών αποκρίσεων στο νευρικό σύστημα, με κυριότερη την αναλγησία. Τα οπιοειδή φάρμακα είναι τα πιο ισχυρά και αποτελεσματικά αναλγητικά έναντι στον οξύ πόνο, όμως η παρατεταμένη χρήση τους οδηγεί σε φαινόμενα ανοχής και εξάρτησης. Γι’ αυτό υπάρχει έντονο ενδιαφέρον στην αποσαφήνιση των μηχανισμών που εμπλέκονται στα φαινόμενα αυτά προκειμένου να σχεδιαστούν πιο αποτελεσματικά φάρμακα χωρίς τέτοιες παρενέργειες. Η σηματοδότηση των οπιοειδών υποδοχέων γίνεται κυρίως μέσω της ενεργοποίησης των Gi/o πρωτεϊνών που με τη σειρά τους ρυθμίζουν κατάλληλους τελεστές. Πέρα όμως από αυτούς τους κλασσικούς αλληλεπιδρώντες εταίρους οι OR έχουν την ικανότητα να αλληλεπιδρούν και με πολλές άλλες πρωτεΐνες κυρίως μέσω των περιοχών της τρίτης ενδοκυτταρικής τους θηλιάς (i3L) και του καρβοξυτελικού τους άκρου (CT) (Georgoussi et al., 2006- Georgoussi, 2008- Georgoussi et al., 2012). Οι αλληλεπιδράσεις αυτές επηρεάζουν όχι μόνο την σηματοδότηση των OR αλλά και την εν γένει εύρυθμη λειτουργία τους. Μια σημαντική πρωτεϊνική οικογένεια που ελέγχει τη μεταγωγή σήματος από τις G πρωτεΐνες βρέθηκε να είναι οι πρωτεΐνες Ρυθμιστές της κυτταρικής Σηματοδότησης μέσω G πρωτεϊνών ή RGS πρωτεΐνες (Regulators of G protein signaling, RGS). Ο πρωταρχικός τους ρόλος είναι η αλληλεπίδραση τους με τις Gα υπομονάδες των G πρωτεϊνών και η επιτάχυνση της υδρόλυσης του GTP από τις τελευταίες οδηγώντας στη μείωση της σηματοδότησης των GPCR. Μέλη της οικογένειας των RGS πρωτεϊνών είχε δειχθεί ότι πέρα από τις Gα πρωτεΐνες αλληλεπιδρούν επίσης με υποδοχείς GPCR, τελεστές αλλά και με άλλες ρυθμιστικές πρωτεΐνες, προσδίδοντας τους έναν ιδιαίτερο οργανωτικό ρόλο στη λειτουργία του κυττάρου και καθιστώντας τις RGS πρωτεΐνες μόρια υψηλού φαρμακολογικού ενδιαφέροντος. Παρελθόντα πειράματα in vitro συγκατακρήμνισης, του εργαστηρίου Κυτταρικής Σηματοδότησης και Μοριακής Φαρμακολογίας, με τη χρήση GST-χιμαιρικών πεπτιδίων των καρβοξυτελικών άκρων των μ-OR και δ-OR (μ-CT και δ-CT αντίστοιχα) και της τρίτης ενδοκυτταρικής θηλιάς του δ-OR (δ-i3L), έδειξαν ότι η RGS4, ένα μέλος της B/R4 υποοικογένειας, αλληλεπιδρά και με τους δυο υποδοχείς στις περιοχές αυτές (Georgoussi et al., 2006- Leontiadis et al., 2009). Η αλληλεπίδραση της RGS4 στα καρβοξυτελικά άκρα των υποδοχέων αυτών γίνεται στην περιοχή που σχηματίζει μια 8η αμφιπαθική α-έλικα (έλικα VIII), σημείο επαφής των OR και για άλλες πρωτεϊνικές αλληλεπιδράσεις όπως αυτή των STAT5A/B ((Mazarakou and Georgoussi, 2005- Georganta et al., 2010), της σπινοφιλίνης (Fourla et al., 2012) και άλλων πρωτεϊνών (Georgoussi et al., 2012). Βρέθηκε επίσης ότι η RGS4 είναι αρνητικός ρυθμιστής της κυτταρικής σηματοδότησης των μ-OR και δ-OR (Georgoussi et al., 2006- Leontiadis et al., 2009). Τέλος, αποδείχθηκε για πρώτη φορά ότι η RGS4 παίξει το ρόλο «μοριακού φίλτρου» καθοδηγώντας τους μ-OR και δ-OR να αλληλεπιδράσουν με συγκεκριμένο διαφορετικό υποπληθυσμό Gα υπομονάδων των G πρωτεϊνών (Leontiadis et al., 2009). Καμία πληροφορία για τον ρόλο των RGS πρωτεϊνών δεν υπάρχει για τον κ-OR. Για τον λόγο αυτό σκοπός της παρούσας διατριβής ήταν να ελέγξουμε αν οι RGS πρωτεΐνες της Β/R4 υποοικογένειας αλληλεπιδρούν με τον κ-OR και αν ναι, ποιος είναι ο ρόλος τους στη σηματοδότηση του κ-OR και των G πρωτεϊνών με τις οποίες ο τελευταίος συζεύγνυται. Τα αποτελέσματά μας έδειξαν ότι ο κ-OR μπορεί να αλληλεπιδράσει και με την RGS4 και με την RGS2 τόσο in vitro όσο και in vivo. Η δημιουργία GST-χιμαιρικών πεπτιδίων του καρβοξυτελικού άκρου του κ-OR (κ-CT) έδειξε ότι η RGS4 αλληλεπιδρά επίσης εντός της έλικας VIII ενώ η RGS2 αλληλεπιδρά με το τελικό μη συντηρημένο άκρο του κ-CT όσο και του δ-CT. Επιπλέον η συνέκφραση της RGS4 ή της RGS2 σε κύτταρα 293F που εκφράζουν τον κ-OR έδειξε ότι και οι δυο RGS πρωτεΐνες προάγουν την επιλεκτική και διαφορική σύζευξη του κ-OR με συγκεκριμένο υποπληθυσμό των Gαi/o υπομονάδων. Σε ότι αφορά τον φυσιολογικό ρόλο των RGS4 και RGS2 στις ελεγχόμενες από τον κ-OR κυτταρικές αποκρίσεις βρήκαμε ότι τόσο η RGS4 όσο και η RGS2 ανέστειλαν την καταστολή της αδενυλικής κυκλάσης που ελέγχει ο κ-OR, αλλά όχι ο δ-OR, με την RGS2 να έχει ισχυρότερη επίδραση στο μονοπάτι αυτό. Επίσης οι RGS4 και RGS2 μείωσαν την ενεργοποίηση των ERK1,2 κινασών που σηματοδοτούσε ο κ-OR. Τέλος, βρήκαμε ότι παρόλο που καμία από τις δυο RGS δεν επηρεάζει την εσωτερίκευση του κ-OR, η RGS4 επιταχύνει την εσωτερίκευση του δ-OR. Τα ευρήματά μας καταδεικνύουν ότι οι RGS4 και RGS2 πρωτεΐνες είναι δυο νέοι αρνητικοί ρυθμιστές στην σηματοδότηση των κ-OR και δ-OR. Εμφανίζουν διαφορικό ρυθμιστικό ρόλο στα σηματοδοτικά μονοπάτια καθενός OR, με ρόλο κλειδί στην καθοδήγηση της σύζευξής τους με τις Gα υπομονάδες και μπορούν να αποτελέσουν ενδιαφέροντες φαρμακολογικούς στόχους για τον έλεγχο της δράσης των οπιοειδών. / Οpioid receptors (OR) (subtypes μ, δ, κ and NOP) belong to the superfamily of the Heptahelical G protein-coupled receptors (7TM or GPCRs), the largest class of receptors in the human genome and common targets for therapeutics. ORs mediate their responses in the nervous system via coupling to members of the Gi/Go proteins to regulate the activity of various effector systems. Opioids are the most potent analgesics but prolonged administration leads to phenomena of tolerance and dependence thus there is a great interest towards understanding of OR signalling in an effort to develop new drugs devoid of adverse effects. Extended observations have demonstrated that the cytoplasmic face of the ORs is critical in mediating their signal through interactions not only with G proteins but also with multiple other proteins. These regulatory proteins play distinct roles in the regulation of the OR signalling, and in the fine tuning of these receptors. Regulators of G protein signalling (RGS) proteins is a class of proteins that modulate G protein signalling events by directly interacting with Gα subunits and accelerating the GTP hydrolysis, thus reducing GPCR signalling towards their effectors. RGS can also interact with many GPCRs, effectors and auxiliary proteins thus playing a key role in the cell functions, making them highly attractive as pharmacological targets (Abramow-Newerly et al., 2006). Our previous in vitro studies have shown that a member of the B/R4 subfamily of RGS proteins such as RGS4 interacts directly with μ-OR and δ-OR within a conserved region in their C-termini (μ-CT and δ-CT), forming a helix VIII, as well as within the δ-third intracellular loop (δ-i3L). RGS4 associates with μ-OR and δ-OR in living cells and forms selective complexes with Gαi/o proteins in a receptor dependent manner. Expression of RGS4 in HEK293 cells attenuated adenylyl cyclase inhibition mediated by μ-OR and agonist-mediated ERK1,2 phosphorylation for both receptors (Georgoussi et al., 2006- Leontiadis et al., 2009), suggesting for the first time that RGS4 is a negative modulator of μ-OR and δ-OR signalling. To deduce whether similar effects also occur for the κ-opioid receptor (κ-ΟR) and define the ability of other members of the B/R4 subfamily of RGS proteins, such as RGS2, to interact with OR we generated fusion peptides encompassing the C-terminus of κ-OR (κ-CT). Results from pull down experiments indicated that RGS2 interacts with the κ-CT, the δ-CT and the δ-i3L but fails to interact with the μ-CT. RGS4-N-terminal domain is responsible for OR interaction. Mapping the sites of RGS2 interaction indicated that RGS2 interacts with the non conserved portion of the C-termini of ORs exhibiting a different docking site as compared to that of RGS4. Co-precipitation studies in living cells indicated that RGS2 and RGS4 associate with κ-ΟR constitutively and upon receptor activation and confer selectivity for coupling with a specific subset of G proteins in an RGS protein dependent manner. Expression of both RGS2 and/or RGS4, in 293F cells attenuated agonist mediated-adenylyl cyclase inhibition for κ-ΟR, but not δ-OR, with RGS2 exhibiting a more robust effect. RGS4 and RGS2 reduced κ-ΟR-mediated ERK1,2 phosphorylation whereas, RGS4 accelerated agonist-induced internalization of the δ-OR but not of the κ-OR. Collectively, our observations demonstrate that RGS2 and RGS4 are novel interacting partners and negative modulators of κ-ΟR and δ-OR signalling. These two RGS proteins display a differential modulatory effect in each signalling pathway tested and play a key functional role by conferring selectivity for both κ-OR and δ-OR coupling with a specific subset of G proteins. Therefore they can be considered as attractive new pharmacological targets to manipulate opioid receptors signalling.

Πρωτεΐνες G

Εσωτερίκευση

Σηματοδότηση

572.6

Kappa and delta opioid receptors

Regulators of G protein signalling

G proteins

Internalization

Signaling

Identifizierung der für die Agonisten-induzierte Phosphorylierung und Internalisierung relevanten Serine und Threonine in der C-terminalen Domäne des humanen Prostaglandin E2 Rezeptors, Subtyp EP4 / Identification of relevant serine and threonine residues in the C-terminal domain of the human prostaglandin E2 receptor, subtyp EP4, for agonist-induced phosphorylation and internalization

Rehwald, Matthias

07 May 2003

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Prostaglandin E2 Rezeptor

Phosphorylierung

beta-Arrestin

Internalisierung

prostaglandin E2 receptor

phosphorylation

beta-arrestin

internalization

Étude du trafic du récepteur delta-opiacé suite à sa stimulation par différents agonistes

Charfi, Iness

06 1900

Les opiacés figurent parmi les analgésiques les plus puissants pour le traitement des douleurs sévères. Les agonistes du DOR (récepteur delta opiacé) induisent moins d'effets secondaires que ceux du mu, ce qui les rend une cible d'intérêt pour le traitement des douleurs chroniques. Cependant, ils induisent la tolérance à l'analgésie. Des hypothèses récentes proposent que le potentiel des drogues à induire la tolérance soit la conséquence de la stabilisation de différentes conformations du récepteur induites par la liaison avec différents ligands, chacune ayant différentes propriétés de trafic. Dans ce contexte, nous avons déterminé si différents ligands du DOR différaient dans leur capacité à induire la signalisation et le trafic du récepteur. Nos résultats indiquent que DPDPE et SNC-80 sont les drogues les plus efficaces à inhiber la production d’AMPc, suivis par UFP-512, morphine et TIPP. DPDPE et SNC-80 induisent à eux seuls l’internalisation du DOR dans les cellules HEK-293 de façon dépendante de la β-arrestine mais pas de la GRK2 ni PKC. Ces deux drogues induisent également l’internalisation du DOR dans les neurones corticaux et c’est seulement le DPDPE qui permet au DOR de regagner la membrane des cellules HEK-293 et des neurones après récupération. Cette capacité de recyclage était suggérée comme un mécanisme protégeant contre la survenue de la tolérance. Ces observations indiquent que le DOR peut subir différentes régulations en fonction du ligand lui étant associé. Cette propriété de sélectivité fonctionnelle des ligands pourrait être utile pour le développement de nouveaux opiacés ayant une activité analgésique plus durable. / Opiates are among the most powerful painkillers to treat severe pain. Delta opioid receptor (DOR) agonists induce fewer side effects than mu opioid receptor agonists, which makes them a target of interest for the treatment of chronic pain. However, they induce tolerance to analgesia. Recent hypotheses suggest that drugs tolerance is the result of stabilization of ligand-specific conformations of the receptor, with distinct traffic properties such as internalization and/or recycling. In this context, we determined whether different DOR ligands differed with respect to their ability to induce signaling and receptor trafficking. Our results indicate that DPDPE and SNC-80 are the most effective drugs to inhibit the production of cAMP, followed by UFP-512, morphine and TIPP. Only DPDPE and SNC-80 manage to induce DOR internalization in HEK-293 cells. This effect is dependent on β-arrestin but not on GRK2 or PKC. Of these two internalizing agonists, only DPDPE allows the DOR to recycle back to the membrane of HEK-293 cells after recovery. DPDPE and SNC-80 also trigger similar DOR internalization in cortical neurons, and as observed in HEK293 cells only DPDPE allowed the receptor to recycle back to the membrane. This recycling capacity was suggested as a mechanism to protect against the onset of tolerance. These observations indicate that the DOR can undergo different regulations depending on the ligand bound to it. This property of functional selectivity of DOR ligands could be useful for the development of new opiates with longer lasting analgesic properties.

Récepteur delta opiacé

Signalisation

Internalisation

Recyclage

Analgésie

Tolérance

Sélectivité fonctionnelle

Delta opioid receptor

Signaling

Internalization

Recycling

Analgesia

Tolerance

Functional selectivity

Etude des propriétés physicochimiques des vecteurs nanoparticulaires

Banquy, Xavier

06 1900

Cette thèse rapporte l’étude des propriétés physicochimiques des nanoparticles polymériques et leur impact sur l’interaction avec les cellules vivantes. Nous nous sommes tout spécialement attachés à étudier l’effet des propriétés adhésives et mécaniques des nanoparticules sur leur capacité de pénétration de la membrane cellulaire. Pour ce faire, nous avons tout d’abord utilisé des nanoparticules d’acide polylactique (PLA) fonctionnalisées en surface avec un ligand des sélectines E et P. Le greffage du ligand sur la particule s’est fait par une nouvelle méthode expérimentale garantissant la présence du ligand à la surface de la particule durant toute sa durée de vie. Cette méthode consiste à mélanger un polymère fonctionnalisé avec le ligand avec un autre polymère non fonctionnalisé. La présence du ligand à la surface des nanoparticules formées à partir de ce mélange de polymères a été confirmée par analyse ToF SIMS. Nous avons pu prouver que les particules possédant le ligand greffé à leur surface démontraient une capacité adhésive supérieure à leurs homologues non fonctionnalisés sur des cellules endothéliales HUVEC activées par différentes drogues. De plus, le captage des particules par les cellules HUVEC est modulé par le niveau d’expression des récepteurs selectine E et P et aussi par la quantité de ligand libre. Ces résultats montrent clairement que le greffage du ligand confère aux particules des propriétés adhésives accrues et spécifiques ce qui permet leur usage postérieure comme vecteur pharmaceutique capable de cibler un récepteur particulier à la surface d’une cellule. Nous avons aussi démontré que l’interaction entre les nanoparticules et la membrane cellulaire peut aussi être contrôlée aussi bien par les propriétés mécaniques de la cellule que de la nanoparticule. Dans une première étape, nous avons mesuré à l’aide de l’appareil de forces de surface l’élasticité de cellules macrophagiques déposées sur différents substrats. En contrôlant l’interaction entre la cellule et le substrat sur lequel elle repose nous avons montré qu’il était possible de modifier à ii volonté les propriétés mécaniques cellulaire. Une augmentation de l’élasticité cellulaire s’accompagne d’une augmentation systématique de l’internalisation de nanoparticules de PLA non fonctionnalisées. Ceci suggère un rôle prépondérant des propriétés mécaniques du cortex cellulaire dans le captage des nanoparticules de PLA. Dans une seconde étape, nous avons étudié l’effet des propriétés mécaniques des nanoparticules sur leur capacité de pénétration cellulaire. Pour ce faire, nous avons synthétisé des particules d’hydrogel dont l’élasticité était contrôlée par le degré d’agent réticulant inclus dans leur formulation. Le contrôle des propriétés mécaniques des nanoparticules a été confirmé par la mesure du module de Young des particules par microscopie de force atomique. L’impact des propriétés mécaniques de ces particules sur leur capacité de pénétration dans les cellules vivantes a été étudié sur des cellules macrophagiques de souris. Les résultats ont montré que la cinétique d’internalisation, la quantité de particules internalisées et le mécanisme d’internalisation dépendent tous du module de Young des nanoparticules. Aucune différence dans le trajet intracellulaire des particules n’a pu être observée malgré le fait que différentes voies d’internalisation aient été observées. Ce dernier résultat peut s’expliquer par le fait que les nanoparticules sont internalisées par plusieurs voie simultanément ce qui facilite leur accumulation dans les organelles digestives intracellulaires. Un modèle simple permettant d’expliquer ces résultats a été proposé et discuté. / This thesis reports the study of physical chemical properties of polymeric nanoparticles and their impact on the interaction with living cells. In particular we endeavoured to study the effect of the adhesive and mechanical properties of the vector on its capacity of penetration of the cellular membrane. With this intention, we firstly used nanoparticules of polylactic acid (PLA) functionalized on their surfaces with a ligand of the selectines E and P receptor. The grafting of the ligand on the particle’s surface was carried out thanks to a new experimental method guaranteeing the presence of the active molecule on the surface of the particle during its whole life cycle. This method consists in mixing a polymer functionalized with the ligand with another polymer not functionalized. The presence of the ligand on the surface of the nanoparticules formed starting from this mixture of polymers was confirmed by ToF SIMS analysis. We could show that the particles having the ligand grafted on their surface exhibit a higher adhesive capacity than their non-functionalized counterpart on endothelial cells HUVEC activated by various drugs. Nanoparticles adhesion on cells membrane was modulated by the level of expression of the receptors selectine E and P and also by the quantity of free ligand. These results show clearly that the functionalized particles possess all the characteristics of a pharmaceutical vector capable of targeting a particular receptor on a cell surface. The interaction between nanoparticules and cellular membrane can also be controlled by the mechanical properties of the cell as well as of the nanoparticule. To demonstrate it we have measured the elasticity of macrophagic cells deposited on various substrates using the SFA. We have thus showed that it was possible to control the cell mechanical properties at will by controlling the interaction between the cell and the substrate on which it rests. An increase of the cell elasticity is accompanied by an increase of the internalization of non-functionalized PLA nanoparticules. This suggests a major role of cytocortical mechanical properties in the capture of hard PLA particles. iv Lastly, we studied the effect of the mechanical properties of the nanoparticules on their cellular penetration capacity. With this intention, we synthesized hydrogel particles whose elasticity was controlled by the degree of crosslinking agent included in their formulation. The control of the mechanical properties of the nanoparticules was confirmed by the measurement of the Young modulus of the particles by AFM. The interaction of these particles with macrophagess showed that the mechanical properties of the particles affect various aspects related to the internalization of the nanoparticles. The internalization kinetics, the quantity of internalized particles and the mechanism of internalization depend all on the Young modulus of the nanoparticules. No differences in the intracellular pathway could be observed in spite of the fact that various pathways of internalization were observed for these nanoparticules. This last result can be explained by the fact that the nanoparticules are internalized by several mechanisms of simultaneously which facilitates their accumulation in intracellular digestive organelles. A simple model explaining these results is proposed and discussed.

nanoparticules

élasticité

selectine

hydrogel

SFA

PLA

AFM

interactions

internalisation

nanoparticles

elasticity

selectin

hydrogel

SFA

PLA

AFM

interactions

internalization

Étude des voies d’internalisation de l’entérotoxine STb d’Escherichia coli dans des lignées cellulaires

Albert, Marie-Astrid

12 1900

L’entérotoxine stable à la chaleur STb est produite par les Escherichia coli entérotoxinogènes (ETEC). Son rôle dans la diarrhée post-sevrage porcine est établi. L’internalisation de STb a été observée dans des cellules épithéliales intestinales humaines et de rat. Cependant, le mécanisme d’internalisation n’est pas totalement compris, particulièrement dans le jéjunum porcin, la cible in vivo de STb. Par la cytométrie en flux, nous avons examiné l’internalisation de STb couplée à un marqueur fluorescent dans les cellules épithéliales intestinales porcines IPEC-J2 et les fibroblastes murins NIH3T3. Nos résultats révèlent que l’internalisation de STb est températureindépendante dans les IPEC-J2 tandis qu’elle est température-dépendante dans les NIH3T3, où la réorganisation de l’actine est aussi nécessaire. Toutefois, les niveaux de sulfatide, le récepteur de STb, sont semblables à la surface des deux lignées. Le sulfatide est internalisé à 37°C de façon similaire entre les deux types cellulaires. La rupture des lipid rafts, les microdomaines membranaires contenant le sulfatide, par la méthyl-βcyclodextrine ou la génistéine, n’affecte pas l’internalisation de STb dans les deux lignées. Notre étude indique que le mécanisme d’internalisation de STb est dépendant du type cellulaire. L’activité de la cellule hôte peut être requise ou non. Le récepteur de STb, le sulfatide, n’est pas directement impliqué dans ces mécanismes. L’internalisation activité cellulaire-dépendante suggère une endocytose, nécessitant la réorganisation de l’actine mais pas les lipid rafts. L’internalisation de STb est donc un processus complexe dépendant du type cellulaire, qu’il apparait plus relevant d’étudier dans des modèles cellulaires représentatifs des conditions in vivo. / Heat-stable enterotoxin b (STb) is one of the toxins produced by enterotoxigenic Escherichia coli (ETEC) and its role in swine post-weaning diarrhea is well established. Internalization of STb in intestinal human and rat epithelial cells has been shown by previous studies. However, the uptake mechanism is still not fully understood, especially in porcine jejunum epithelium, the in vivo STb target. Using flow cytometry, we studied internalization of fluorescently-labelled STb in porcine epithelial intestinal IPEC-J2 and murine fibroblast NIH3T3 cell lines. Our results revealed that STb is internalized in both cell lines. Toxin uptake is not dependent on the temperature in IPEC-J2 cells, whereas it is in NIH3T3 fibroblasts. Actin reorganization is only required for STb internalization in NIH3T3 cells. However, membrane sulfatide, the toxin receptor, is similarly present in both cell lines and similarly internalized with time at 37°C. Disruption of lipid rafts, known to contain sulfatide, with inhibitors (methyl-βcyclodextrin or genistein), did not affect toxin uptake in both cell lines. Altogether, these data indicate that STb internalization mechanisms are cell-type dependent. Moreover, uptake can depend on host cell activity or not. Sulfatide, the toxin receptor, is not directly involved in these mechanisms. Uptake independent on cell activity occurs in porcine intestinal epithelium. The cell activity-dependent uptake suggests an endocytosis, which requires actin rearrangement and is not mediated by lipid rafts. STb internalization is therefore a complex process varying upon cell type, which should preferentially be studied in cellular models representative of in vivo conditions, such as porcine cell lines.

Escherichia coli

Entérotoxine STb

Internalisation

Type cellulaire

Sulfatide

Lipid rafts

Escherichia coli

STb enterotoxin

Internalization

Cell type

Sulfatide

Lipid rafts

The Sociocultural Model of Eating Disorders in New Zealand Women: Family Food-Related Experiences and Self-Compassion as Moderators.

Shephard, Sonia Lee

January 2012

Eating disorders are debilitating psychiatric conditions which often result in severe impairment in many life domains. The sociocultural model specifies mechanisms through which sociocultural pressure leads to eating pathology among young women (Stice, 1994) and posits that exposure to the Western cultural thin ideal, internalization of the ideal and experience of a difference between self and ideal leads to body dissatisfaction, which is a well validated precursor to eating pathology. The current research examined whether the relationships between awareness of Western appearance ideals, internalization of such ideals, and body dissatisfaction were moderated by family food-related experiences and self-compassion. The current paper also investigated whether the strength of relationships between awareness of Western appearance ideals, internalization of such ideals, and body dissatisfaction are affected by certain types of family food-related experiences. Female university students (N = 106) completed self-report questionnaires. Results indicated that mindfulness, a constituent of self-compassion, moderated the relationship between internalization of cultural thinness standards and body dissatisfaction. In addition, self-compassion, each component of self-compassion and women’s perception of negative maternal family food-related experiences predicted internalization of Western societal norms of thinness, as well as body dissatisfaction. Moreover, women’s perception of negative paternal family food-related experiences predicted body dissatisfaction. Women’s perception of negative maternal commentary predicted internalization of Western beauty standards and body dissatisfaction. Finally, women’s perception of negative paternal commentary and paternal modelling of eating difficulties and body image concerns predicted internalization of those values. Future research should attempt to clarify causal relationships among self-compassion and family food-related experiences within the sociocultural model of eating disorders.

Eating disorders

eating pathology

young women

sociocultural model

internalization

body dissatisfaction

Western cultural thin ideal

family food-related experiences

self-compassion

moderated.

Uncovering the Functional Implications of Mu- and Delta-opioid Receptor Heteromerization in the Brain

Kabli, Noufissa

20 June 2014

Opioid Receptors (ORs) are involved in the pathophysiology of several neuropsychiatric conditions yet remain an untapped therapeutic resource. Although only mu-, delta-, and kappa-OR types have been cloned, additional subtypes result from complexes generated by direct receptor-receptor interactions. Mu- and delta-ORs form a heteromeric receptor complex with unique pharmacological and signalling properties distinct from those of mu- and delta-OR homomers. In these studies, we sought to characterize the ligand binding pocket and agonist-induced internalization profile of the mu-delta heteromer, to investigate mu-delta heteromer-specific signalling in brain, and to interrogate the contribution of this receptor complex to opioid-mediated behavioural effects. In competition radioligand binding studies, delta-agonists displaced high affinity mu-agonist binding from the mu-delta heteromer but not the muOR homomer, suggestive of delta-agonists occupying or allosterically modulating the muOR ligand binding pocket within the heteromer. Delta-agonists induced internalization of the mu-delta heteromer in a dose-dependent, pertussis toxin resistant, and muOR- and deltaOR-dependent manner from the cell surface via the clathrin and dynamin endocytic machinery. Agonist-induced internalization of the mu-delta heteromer persisted following chronic morphine treatment conditions which desensitized the muOR homomer. Using Galpha-specific GTPgammaS binding assays, we demonstrated that mu-delta heteromer signalling previously characterized in cell lines was present in the striatum and hippocampus, and did not desensitize following prolonged morphine treatment conditions which desensitized muOR homomer-mediated signalling. Since delta-agonists which also target the mu-delta heteromer possess antidepressant-like and anxiolytic-like properties, we investigated the role of this receptor complex in mood regulation. We devised a strategy to selectively analyze the effects of the mu-delta heteromer by dissociating it using a specific interfering peptide aimed at a sequence implicated in mu-delta heteromerization. The interfering peptide abolished the unique pharmacological and trafficking properties of delta-agonists at the mu-delta heteromer and dissociated this receptor complex in vitro. Intra-accumbens administration of the interfering peptide disrupted the mu-delta interaction in vivo and allowed for isolation of the mu-delta heteromer contribution to the mood-regulatory effects of a delta-agonist with activity at the heteromer. Activation of the mu-delta heteromer in the nucleus accumbens produced antidepressant-like and anxiolytic-like actions in animal models of depression and anxiety.

mu opioid receptor

delta opioid receptor

heteromer

depression

anxiety

brain

chronic morphine

G protein coupled receptor

mood

binding

internalization

interaction

0419

0317

Uncovering the Functional Implications of Mu- and Delta-opioid Receptor Heteromerization in the Brain

Kabli, Noufissa

20 June 2014

Opioid Receptors (ORs) are involved in the pathophysiology of several neuropsychiatric conditions yet remain an untapped therapeutic resource. Although only mu-, delta-, and kappa-OR types have been cloned, additional subtypes result from complexes generated by direct receptor-receptor interactions. Mu- and delta-ORs form a heteromeric receptor complex with unique pharmacological and signalling properties distinct from those of mu- and delta-OR homomers. In these studies, we sought to characterize the ligand binding pocket and agonist-induced internalization profile of the mu-delta heteromer, to investigate mu-delta heteromer-specific signalling in brain, and to interrogate the contribution of this receptor complex to opioid-mediated behavioural effects. In competition radioligand binding studies, delta-agonists displaced high affinity mu-agonist binding from the mu-delta heteromer but not the muOR homomer, suggestive of delta-agonists occupying or allosterically modulating the muOR ligand binding pocket within the heteromer. Delta-agonists induced internalization of the mu-delta heteromer in a dose-dependent, pertussis toxin resistant, and muOR- and deltaOR-dependent manner from the cell surface via the clathrin and dynamin endocytic machinery. Agonist-induced internalization of the mu-delta heteromer persisted following chronic morphine treatment conditions which desensitized the muOR homomer. Using Galpha-specific GTPgammaS binding assays, we demonstrated that mu-delta heteromer signalling previously characterized in cell lines was present in the striatum and hippocampus, and did not desensitize following prolonged morphine treatment conditions which desensitized muOR homomer-mediated signalling. Since delta-agonists which also target the mu-delta heteromer possess antidepressant-like and anxiolytic-like properties, we investigated the role of this receptor complex in mood regulation. We devised a strategy to selectively analyze the effects of the mu-delta heteromer by dissociating it using a specific interfering peptide aimed at a sequence implicated in mu-delta heteromerization. The interfering peptide abolished the unique pharmacological and trafficking properties of delta-agonists at the mu-delta heteromer and dissociated this receptor complex in vitro. Intra-accumbens administration of the interfering peptide disrupted the mu-delta interaction in vivo and allowed for isolation of the mu-delta heteromer contribution to the mood-regulatory effects of a delta-agonist with activity at the heteromer. Activation of the mu-delta heteromer in the nucleus accumbens produced antidepressant-like and anxiolytic-like actions in animal models of depression and anxiety.

mu opioid receptor

delta opioid receptor

heteromer

depression

anxiety

brain

chronic morphine

G protein coupled receptor

mood

binding

internalization

interaction

0419

0317