Factors contributing to chondroplasia in degenerate rotator cuff disease

Cornell, Hannah R.

January 2011

Chondroplasia, the development of cartilage-like characteristics in tendinous tissue, is a form of degeneration found in tendons including those of the rotator cuff. The molecular mechanism of its development is currently unknown. An examination of the features of the torn rotator cuff and the cartilage literature led to the identification of several potential drivers of chondroplasia including cell shape change/actin cytoskeleton and hypoxia. Lovastatin caused actin cytoskeleton disruption and promoted cartilage matrix deposition in the ATDC5 model. It was the most effective member of a panel of cytoskeletal inhibitors, increasing expression of the chondrocytic markers Sox5 and Sox9 and decreasing expression of COL1A1 and COL3A1 in primary human tenocytes. Its effects were dose dependent, reversible by mevalonate addition and long term treatment induced de novo expression of collagen II. Short term hypoxia upregulated VEGF-A and chondrocytic marker gene DEC1 expression but not other chondrocyte markers. Combination treatment with hypoxia did not enhance the effects of lovastatin. These data suggest that modulation of pathways that regulate the actin cytoskeleton and cell shape may alter tenocyte phenotype.

616.7

Rôles des protéines d’échafaudage Gab dans la signalisation et l’angiogenèse médiées par le VEGF

Caron, Christine

10 1900

La protéine d’échafaudage Gab1 amplifie la signalisation de plusieurs récepteurs à fonction tyrosine kinase (RTK). Entre autres, elle promeut la signalisation du VEGFR2, un RTK essentiel à la médiation de l’angiogenèse via le VEGF dans les cellules endothéliales. En réponse au VEGF, Gab1 est phosphorylé sur tyrosine, ce qui résulte en la formation d’un complexe de protéines de signalisation impliqué dans le remodelage du cytosquelette d’actine et la migration des cellules endothéliales. Gab1 est un modulateur essentiel de l’angiogenèse in vitro et in vivo. Toutefois, malgré l’importance de Gab1 dans les cellules endothéliales, les mécanismes moléculaires impliqués dans la médiation de ses fonctions, demeurent mal définis et la participation du second membre de la famille, Gab2, reste inconnue. Dans un premier temps, nous avons démontré que tout comme Gab1, Gab2 est phosphorylé sur tyrosine, qu’il s’associe de façon similaire avec des protéines de signalisation et qu’il médie la migration des cellules endothéliales en réponse au VEGF. Cependant, contrairement à Gab1, Gab2 n’interagit pas avec le VEGFR2 et n’est pas essentiel pour l’activation d’Akt et la promotion de la survie cellulaire. En fait, nous avons constaté que l’expression de Gab2 atténue l’expression de Gab1 et l’activation de la signalisation médiée par le VEGF. Ainsi, Gab2 semble agir plutôt comme un régulateur négatif des signaux pro-angiogéniques induits par Gab1. La migration cellulaire est une des étapes cruciales de l’angiogenèse. Nous avons démontré que Gab1 médie l’activation de la GTPase Rac1 via la formation et la localisation d’un complexe protéique incluant la GEF VAV2, la p120Caténine et la Cortactine aux lamellipodes des cellules endothéliales en réponse au VEGF. De plus, nous montrons que l’assemblage de ce complexe corrèle avec la capacité du VEGF à induire l’invasion des cellules endothéliales et le bourgeonnement de capillaires, deux phénomènes essentiels au processus angiogénique. La régulation des RhoGTPases est également régulée par des inactivateurs spécifiques les « Rho GTPases activating proteins », ou GAPs. Nous décrivons ici pour la première fois le rôle de la GAP CdGAP dans les cellules endothéliales et démontrons son importance dans la médiation de la signalisation du VEGF via la phosphorylation sur tyrosine de Gab1 et l’activation des RhoGTPases Rac1 et Cdc42. Ainsi, dù à son importance sur l’activation de voies de signalisation du VEGF, CdGAP représente un régulateur crucial de la promotion de diverses activités biologiques essentielles à l’angiogenèse telles que la migration cellulaire, et le bourgeonnement de capillaires in vitro et d’aortes de souris ex vivo. De plus, les embryons de souris CdGAP KO présentent des hémorragies et de l’œdème, et ces défauts vasculaires pourraient être responsables de la mortalité de 44% des souris CdGAP knock-out attendues. Nos études amènent donc une meilleure compréhension des mécanismes moléculaires induits par le VEGF et démontrent l’implication centrale de Gab1 et des régulateurs des RhoGTPases dans la promotion de l’angiogenèse. Cette meilleure compréhension pourrait mener à l’identification de nouvelles cibles ou approches thérapeutiques afin d’améliorer le traitement des patients souffrant de maladies associées à une néovascularisation incontrôlée telles que le cancer. / The Gab1 scaffolding protein allows signaling of multiple Receptors Tyrosine Kinase (RTKs). Among other things, it allows VEGFR2 signaling, an essential RTK to mediate angiogenesis via VEGF in endothelial cells. In response to VEGF, Gab1 is tyrosine phosphorylated, resulting in the formation of a signaling protein complex involved in the remodeling of the actin cytoskeleton and the migration of endothelial cells. Gab1 is a key modulator of angiogenesis in vitro and in vivo. However, despite the importance of Gab1 in endothelial cells, the molecular mechanisms involved in mediating its functions remain poorly defined and the participation of the second family member, Gab2, remains unknown. Initially, we demonstrated that as with Gab1, Gab2 is tyrosine phosphorylated, it associates with similar signaling proteins and induces cell migration in response to VEGF in endothelial cells. However, Gab2 does not interact with VEGFR2 and is not essential for the activation of Akt and the promotion of cell survival. In fact, we found that the expression of Gab2 attenuates the expression of Gab1 and activation of VEGF-mediated signaling. In light of these results, we propose that in endothelial cells stimulated with VEGF, Gab2 acts as a negative regulator of pro-angiogenic signals induced by Gab1. Cell migration is a crucial step in angiogenesis, though, few studies have investigated the involvement of Gab1 in regulating different molecular mechanisms for actin remodeling leading to endothelial cell migration. We demonstrated that Gab1 mediates activation of Rac1 GTPase via the formation and localization of a protein complex including the GEF VAV2, p120 Catenin and Cortactin to lamellipodia of endothelial cells in response to VEGF. Furthermore, we show that the assembly of this complex correlates with the ability of VEGF to induce endothelial cell invasion and capillary sprouting, phenomena essential to the angiogenic process. RhoGTPases are also regulated by specific inactivators, "Rho GTPase activating proteins" or GAPs. The involvement of GAPs in promoting angiogenesis is relatively poorly described. Here we describe for the first time the role of the GAP CdGAP in endothelial cells and demonstrate its importance in mediating VEGF signaling via tyrosine phosphorylation of Gab1 and activation of Rac1 and Cdc42 RhoGTPases. Due to its importance in the activation of signaling pathways critical in VEGF signaling, CdGAP is thus an important protein for the regulation of various essential biological activities such as cell migration, sprouting and therefore in vitro and ex vivo angiogenesis. In addition, embryos of CdGAP knock-out mice exhibit vascular defects, excessive branching vessels, haemorrhages and edema which may be responsible for the 44% mortality seen in CdGAP knock-out mice expected. Our studies contribute to a better understanding of the molecular mechanisms induced by VEGF and demonstrate the central involvement of Gab1 and regulators of RhoGTPases in promoting angiogenesis. This understanding could lead to the identification of new targets and therapeutic approaches to improve the treatment of patients with uncontrolled neovascularization associated with diseases such as cancer.

Angiogenèse

Gab1

Gab2

CdGAP

VEGF

Cortactine

VAV2

Cytosquelette d’actine

Angiogenesis

Cell migration

Endothelial cells

Cortactin

Actin cytoskeleton

Migration cellulaire

Cellules endothéliales

Rôle du cytosquelette d'Actine bactérien MreB dans la motilité cellulaire chez Myxococcus xanthus

Mouhamar, Fabrice

02 November 2011

Myxococcus Xanthus possède un cycle developpemental multicellulaire entièrement sous la dépendance de la capacité des cellules à se déplacer sur des surfaces solides. M. xanthus possède deux systèmes de motilité génétiquement séparé, une motilité Sociale dépendant des pili de Type IV et une motilité Aventurière dont le mécanisme est encore peu compris. Notre hypothèse de travail est que la motilité Aventurière est qu’en des points régulièrement répartis le long du corps cellulaire soient couplés adhésion et traction de ce corps par une interaction entre des moteurs moléculaire et le cytosquelette d’Actine bactérienne MreB. Mon projet est de caractériser la relation qu’il pourrait y avoir entre le cytosquelette et les points d’adhésion durant la motilité. Pour étudier l’implication du cytosquelette MreB durant le mouvement, nous avons utilisé une approche pharmaceutique utilisant l’A22, une drogue permettant la dépolymérisation rapide et spécifique du cytosquelette sans affecter la viabilité des cellules à court terme. De plus j’ai aussi étudier les interactions possible entre MreB et différentes protéines de motilité comme la petite GTPase MglA, qui est connue pour est essentielle au recrutement des machineries de motilité. / Myxococcus xanthus has a multicellular developmental cycle which is dependent on the capacity of the cells to move accross solid surfaces. M. xanthus uses two motility systems: Social motility system is dependent on Type-IV pili, and the Adventurous motility system, the mechanism of which is poorly understood. Our working hypothesis is that Adventurous motility is performed by adhesion points localized along the cell body where a molecular machinery pulls the cell body by interacting with the MreB cytoskeleton. My project aims to characterize the relationship between the adhesion points and the cytoskeleton during movement. To study the involvement of MreB during motility we use A22, a drug known to rapidly and specifically depolymerise in live microscopy assays. Furthermore, I have study also the interactions between MreB and differents proteins like MglA a small GTPase, which we belive is essential for the recruitment of the machineries.

A22

Complexes d'adhésion

Polarité cellulaire

Complexe de motilité

Localisation de protéines

MreB

Cytosquelette bactérien

A22

Adhesion complexes

Cell polarity

Motility clusters

Protein localization

Bacterial cytoskeleton

Migration cellulaire : identification d'Arpin, un nouvel inhibiteur du complexe Arp2/3, et mécanismes moléculaires de sa régulation / Cell migration : identification of Arpin, an novel inhibitor of the Arp2/3 complex and molecular mecanisms of its regulation

Dang, Irene

19 September 2014

Dans une cellule en migration, la polymérisation d'actine permet de projeter la membrane plasmique dans une structure appelée le lamellipode. Dans le lamellipode, l'actine est polymérisée de manière branchée par le complexe Arp2/3. L'activation du complexe Arp2/3 au lamellipode est sous le contrôle du complexe WAVE. En réponse à une cascade d’activation moléculaire, une des sous-unités du complexe WAVE expose son domaine WCA (WH2-Connecteur-Acide) qui peut alors se lier au complexe Arp2/3 et l’activer afin d'initier la formation d’un nouveau filament d’actine. La voie d’activation du complexe Arp2/3 par le complexe WAVE a été bien étudiée. Cependant la migration cellulaire est finement régulée et cette unique voie de signalisation nous semblait insuffisante. Dans le but de trouver de nouveaux régulateurs de la migration et en particulier de nouvelles protéines se liant au complexe Arp2/3, nous avons réalisé un crible bioinformatique identifiant les protéines contenant un motif Acide. Ce dernier a abouti à l’identification d’une protéine non caractérisée. In vitro, cette protéine n'active pas le complexe Arp2/3. En revanche, elle est capable d'inhiber l'activation du complexe Arp2/3 induite par le domaine WCA d'un activateur et empêche la formation de branches par le complexe Arp2/3. Nous avons appelé cette nouvelle protéine Arpin pour « Arp2/3 Inhibitor ». De manière cohérente avec son rôle inhibiteur in vitro, la déplétion d'Arpin dans différents type de cellules, induit une augmentation de la vitesse de protrusion des lamellipodes et une demi-vie augmentée des lamellipodes. Ces effets se traduisent par une migration plus rapide et plus persistante en direction. Arpin joue donc le rôle d'un frein de la migration cellulaire et permet à la cellule de tourner. Pour jouer ce rôle-là, Arpin nécessite d’être régulée rigoureusement. Dans la cellule, Arpin est inactive et nécessite d’être activée par Rac. Cependant cette régulation n'est probablement pas directe. Pour mieux comprendre la régulation d'Arpin, nous avons donc recherché des protéines partenaires. Nous avons identifié Tankyrase comme protéine interagissant avec Arpin. De façon significative, le motif d’Arpin qui permet son interaction avec Tankyrase se superpose à la séquence Acide nécessaire à son interaction avec le complexe Arp2/3. Nous avons mis en évidence in vitro une compétition entre Tankyrase et le complexe Arp2/3 sur Arpin. Ces résultats suggèrent Tankyrase inhibe la protéine inhibitrice Arpin. En conclusion, nous avons découvert une nouvelle protéine Arpin, qui inhibe le complexe Arp2/3 et qui joue un rôle régulateur important dans la migration cellulaire. Nous avons identifié une protéine régulatrice de son activité, la Tankyrase. Nous nous attendons à ce qu’Arpin soit impliquée dans des nombreux processus physiologiques ou pathologiques, où la migration cellulaire joue un rôle important, en particulier lors de la formation de métastases dans le cancer. / In migrating cells, the Arp2/3 complex generates branched actin networks that power protrusion of the leading edge in a structure called lamellipodium. The Arp2/3 complex is activated at the leading edge by the Wave complex which is itself activated by the small GTPase Rac. WAVE which is in an inactive state, then exposes its WCA domain (WH2-Connector-Acidic) that can bind to the Arp2/3 complex and activate it to trigger the formation of a new daughter actin filament. This signalling pathway of the Arp2/3 complex has been well studied. However, cell migration is a fine-tuned process that is probably regulated in a more complex manner.To identify new regulators of cell migration, especially proteins that bind to the Arp2/3 complex, we performed a bioinformatics screen to identify proteins containing an acidic motif at its C-terminus, a characteristic motif of Arp2/3 activators. By this method we retrieved an uncharacterized protein. A combination of in vitro assays revealed, however, that this protein inhibits the Arp2/3 complex by competing with the activators. We called this protein Arpin for “Arp2/3 inhibitor”. Depletion of Arpin in different kind of cells, such as mammalian cells or amoeba, induces lamellipodia to protrude faster and to last longer, consistent with its inhibitory role on Arp2/3 complex activity. These effects observed lead to an increased velocity and a more directional migration in random migration assay. The function of the Arp2/3 inhibitory protein Arpin is thus to slow down and steer cell migration.In the cell, Arpin has been shown to be inactive until it is activated by Rac, most likely by an indirect manner. We identified Tankyrase as an interactor of Arpin. Interestingly, the binding motif of Arpin to Tankyrase overlaps the acidic motif required for the binding to the Arp2/3 complex. By a biochemistry approach, we showed a competition between Tankyrase and the Arp2/3 complex for the binding to Arpin. This observation suggests that Tankyrase inhibits the inhibitory protein Arpin in the cell. To conclude, we identified a new protein, Arpin which inhibits the Arp2/3 complex and plays an important role in the control of cell migration. We identified a protein which regulated its activity, Tankyrase. Thus, we can imagine that Arpin could be implicated in numerous physiological and pathological processes where cell migration is involved, particularly during metastases formation in cancer

Migration cellulaire

Actine

Lamellipode

Cytosquelette

Complexe Arp2/3

Arpin

Tankyrase

Cancer

Cell migration

Actin

Lamellipodium

Progression cytoskeleton

Arp2/3 complex

Arpin

Tankyrase

Cancer

Role of the Srf transcription factor in adult muscle stem cells / Rôle du facteur de transcription Srf dans les cellules souches musculaires adultes

Papaefthymiou, Aikaterini

30 November 2016

Le muscle squelettique adulte est un tissu avec une grande plasticité étant donné qu’il adapte sa taille suite à la surcharge fonctionnelle et il régénère suite à une lésion. La base de cette plasticité est la myofibre et les cellules souches associées, les cellules satellites (CS). Suite aux stimuli, les CS sortent de la quiescence, elles s’activent, proliférent, s’engagent dans la voie myogénique et fusionnent entre elles ou bien avec la fibre pre-éxistante. Une partie des CS retourne à la quiescence afin de maintenir le « pool » de progéniteurs. Ce projet a pour objectif de mieux caractériser des voies de signalisation responsables des adaptations des CS au cours de la régénération et le l’hypertrophie compensatoire. Srf est un facteur de transcription, particulièrement exprimé dans les muscles. Les gènes cibles de Srf sont des gènes qui participent à la régulation de la prolifération cellulaire et des gènes codant des protéines sarcomériques du muscle ou bien des gènes ayant un rôle dans l’adhésion cellulaire, la migration et l’organisation du cytosquelette. Il a été montré que la perte de fonction de Srf dans la lignée de cellules musculaire C2C12 inhibe leur prolifération et leur différenciation et que Srf contrôle l’expression de MyoD qui est un gène de détermination myogénique. Aucune donnée n’est disponible à ce jour concernant la fonction de Srf dans les CS in vivo. Nous avons généré des souris dépourvues de Srf spécifiquement dans les CS adultes. Les CS ont été recruitées par l’hypertrophie et la régénération musculaire. En parallèle des études ex vivo ont été menées afin de préciser si les phénotypes observés sont cellule-autonomes et afin de disséquer les mécanismes sous-jacents. Nous montrons que la perte de Srf dans les CS affecte fortement les processus de régénération et d’hypertrophie suggérant un rôle de Srf dans le contrôle du destin cellulaire de CS. Nos études montrent que la perte le Srf dans les SC n’affecte pas leur prolifération et leur engagement dans la différenciation myogénique. Par contre, leur motilité et leur capacité de fusion sont fortement réduites. Afin d’identifier les effecteurs de Srf impliqués dans la motilité et le défaut de fusion des CS mutantes, nous avons réalisé des études transcriptomiques et identifié le set de gènes dont l’expression est altérée par la perte de Srf dans des conditions de prolifération et de différenciation. L’analyse des fonctions altérées nous a indiqué que la voie de signalisation du cytosquelette d’actine était perturbée. En effet les CS dépourvues de Srf expriment moins d’actine et présentent une organisation du cytosquelette d’actine perturbée. Des expériences de sauvetage utilisant un modèle de souris permettant la surexpression inductible d’actine alpha dans les CS dépourvues de Srf ont montré que la surexpression d’actine chez les mutants Srf était suffisante pour rétablir partiellement l’organisation du cytosquelette et améliorer les capacités de fusion des CS. De manière intéressante, seule la fusion hétérotypique (entre une cellule contrôle et une cellule mutante), et pas la fusion homotypique (entre deux cellules mutantes), est rétablie par l’expression de l’actine. In vivo, le rétablissement de la fusion hétérotypique restaure la croissance hypertrophique des muscles alors que l’altération de la régénération chez les mutants Srf n’est que faiblement améliorée par la surexpression de l’actine. Cette étude nous a permis d’avoir une vision d’ensemble et mécanistique de la contribution du facteur de transcription Srf dans la biologie des CS et de mettre en évidence l’importance structurale du maintien du cytosquelette d’actine pour la fusion des cellules musculaires. / The adult skeletal muscle is a high plastic tissue as it adapts its size upon overload and it is capable of regeneration upon muscle lesion. The skeletal muscle is composed of a specialized syncytium, the myofiber, which is the functional unit of the muscle and a small population of myogenic progenitors, residing adjacent to the myofibers, termed as satellite cells (SCs). SCs are the muscle-specific stem cells which endow the skeletal muscle with its remarkable capacity to repair and to maintain homeostasis during muscle turnover. In resting adult muscles, SCs are quiescent but they activate upon exposure to stimuli. The activated SCs (myoblasts) proliferate extensively and subsequently differentiate and fuse between them or pre-existing myofibers, a series of cellular events called myogenesis. In parallel to the myogenesis, a reserve population of SCs escapes the myogenic program and self-renews to replenish the SC pool. The current project aims to further characterize the signalling pathways involved in SC functions during muscle regeneration and compensatory hypertrophy (CH). Srf is a muscle-enriched transcription factor with Srf-target genes implicated in cell proliferation, differentiation (sarcomeric proteins), adhesion, migration and cellular cytoskeleton. Studies in C2C12 mouse myogenic cell line showed that Srf loss prevent the myoblast proliferation and differentiation by down-regulating the expression of the myogenic determinant MyoD gene. We used a genetic murine model for adult SC-specific Srf-loss in order to conduct in vivo and ex vivo studies for the Srf role in SCs. Compensatory hypertrophy and regeneration are the two means by which SCs were recruited. We show that loss of Srf in SCs affects the regeneration process and the CH suggesting the Srf role in the SC fate. Srf-depleted SCs display probably no defect in their proliferation and differentiation but reduced capacity in motility and fusion. Transcriptomic analysis revealed altered actin cytoskeleton and signalling. Srf-depleted SCs show reduced actin expression and altered actin cytoskeleton. Rescue of actin expression in Srf-depleted SCs partially restored the cytoskeleton organization and the fusion process. Interestingly by actin overexpression only the heterotypic/asymmetric fusion was established but not the homotypic/symmetric fusion. Therefore actin overexpression restored the hypertrophic growth in the CH (in vivo model of heterotypic fusion) but failed to do so in the regeneration (in vivo model of homotypic fusion). This study contributed to the in vivo investigation of the Srf mechanistic role in adult SCs and underlined the importance of actin cytoskeleton maintenance in the fusion of myogenic cells.

Cellules souches musculaires

Serum response factor

Hypertrophie musculaire

Régénération musculaire

Muscle satellite cells

Serum response factor

Skeletal muscle hypertrophy

Skeletal muscle regeneration

Actin cytoskeleton

612.74

Células MCF-7 como modelo 3D no estudo de câncer de mama humano. / MCF-7 cells as a 3d model in the study of human breast cancer.

Amaral, Jonatas Bussador do

22 March 2011

O diferencial da cultura de células em 3-dimensões é permitir que as células explorem as 3-dimensões do espaço, aumentando assim as interações com o ambiente e entre as células. Em estudos relacionados à biologia do câncer de mama, vem ganhando espaço a utilização de esferóides para estudos que visam à compreensão da morfogênese do espaço luminal. Neste trabalho foi mostrado que as células MCF-7 reorganizam-se em estruturas tubulares e acinares. Em ambas as situações, a formação do lúmen veio acompanhada pelo estabelecimento de uma camada de células polarizadas, arranjo este muito semelhante ao encontrado em glândulas mamárias. Os resultados apresentados apontam para a existência de uma população de células na linhagem MCF-7 que não estão totalmente comprometidas ao fenótipo tumoral. Mantidos diferenciados, os esferóides de células MCF-7 apontam como um novo modelo para estudos relacionados à formação do lúmen, permitindo assim explorar o papel de diferentes vias como as relacionadas a apoptose, autofagia, diferenciação e sobrevivência celular. / As a particularity, a 3D cell culture permits cells to explore the three dimensions of the space thereby increasing cell-cell interactions, as well as interaction with the environment. In studies related to breast cancer biology, spheroids are becoming widely used in the aim to comprehend luminal space morphogenesis. We showed that MCF-7 cells reorganize themselves in tubular and acinar structures. In both situations, lumen formation was accompanied by the establishment of a layer of polarized cells, an arrangement that is very similar to that of breast glands. The presented results suggest the existence of an MCF cell line population not completely committed to the tumor phenotype. When maintained as differentiated, MCF-7 cell spheroids can be a new model for studies regarding lumen formation, thereby exploring the role of diiferent pathways, such as those related to cell apoptosis, autophagy, differentiation and survival.

Apoptose

Apoptosis

Breast neoplasms

Células cultivadas de tumor

Citoesqueleto

Cultured tumor cells

Cytoskeleton

Esferóides multicelulares

Multicelular Spheroids

Neoplasias mamárias

Terceira dimensão

Third Dimension

Efeitos de ácido cinâmico sobre melanócitos e células derivadas de melanomas humanos: avaliação do seu potencial antitumoral e de proteção contra danos celulares causados por radiação ultravioleta. / Cinnamic acid effects on cultured human melanocytes and melanoma derived cells: evaluation of its antitumor potential and protection against cell damage caused by ultraviolet radiation.

Niero, Evandro Luís de Oliveira

14 July 2010

Poucos tratamentos têm efeito sobre melanomas metastáticos, mas novas drogas vêm sendo estudadas para combater esta doença. Este trabalho avaliou efeito de ácido cinâmico (AC) em melanócitos (NGM) e células de melanoma (HT144) sobre alterações no ciclo, morte, comunicação e mobilidade celular e morfologia nuclear e investigou efeito de proteção à radiação ultravioleta (UV). AC inibiu crescimento de HT144 em relação a NGM. Essa inibição deve ocorrer devido a dano no DNA que levou à inibição da fase S, formação de aberrações nucleares e indução de morte. AC induziu formação de micronúcleos nas células NGM. O citoesqueleto foi reorganizado após AC o que diminuiu a mobilidade celular. Apesar de não induzir comunicação entre as células HT144 o AC aumentou níveis citoplasmáticos de cx43 em células de hepatocarcinoma, o que contribui para a morte celular. Isto sugere maior citotoxicidade de AC em células HT144 em comparação com NGM. Porém, AC não protegeu as células dos efeitos de UV e sua genotoxicidade em células NGM indica que sua atividade depende de mais estudos. / Consumption of vegetables could decrease the risk of malignancies. Cinnamic acid (CA), commonly found in plants have been studied because their antitumor activitie. The present work aimed to evaluate effect of CA in melanocytes (NGM) and melanoma cells (HT-144) by focusing the cell cycle, death, mobility and communication and formation of nuclear aberration and to investigate potential of protection against UV radiation. CA inhibited cell growth of melanoma cells compared to melanocytes, probably due to DNA damage leading to DNA synthesis inhibition, induction of nuclear aberrations and apoptosis. High concentration of CA induced micronuclei in NGM cells. We observed cytoskeleton reorganization that decreased cell mobility in both cells. We have not observed communication in HT144 after treatment, but CA increased expression of cx43 in hepatocarcinoma cells, probably leading to apoptosis. CA did not showed protection effects against ultraviolet radiation and its genotoxic effects in NGM cells indicates that its mechanism of action must be further investigated.

Aberrações nucleares

Ácido cinâmico

Apoptose

Apoptosis

Cell culture

Cell cycle

Ciclo celular

Cinnamic acid

Citoesqueleto

Cultura de células

Cytoskeleton

Melanoma (Human)

Melanoma (Humano)

Nuclear aberrations

Adenocarcinoma colorretal: aspectos anatomopatológicos e imuno-histoquímicos do crescimento tumoral, do citoesqueleto e de marcadores de regulação do pH intracelular / Colorectal adenocarcinoma:anatomopathological and imunohistochemical aspects of tumor growth, cytoskeleton and of intracellular pH regulator markers

Scapulatempo Neto, Cristovam

19 December 2008

Centrado no carcinoma colorretal, o presente trabalho visou: 1) Estudar a distribuição das principais variáveis anatomopatológicas, pesquisando sua associação com metástase linfonodal ou hepática. 2) Com base nas eventuais associações encontradas, selecionar um conjunto de variáveis que, estudadas no tumor primário, possam predizer a presença de metástase nodal ou hepática. 3) Analisar os perfis de imunoexpressão de alguns marcadores potencialmente relacionados à citoarquitetura (queratina 7 e 20) e ao crescimento tumoral (proliferação através do Ag Ki-67 e apoptose através da queratina 18 clivada) em amostras de mucosa normal, adenocarcinoma primário, metástase linfonodal e metástase hepática, explorando suas eventuais relações com as variáveis histopatológicas e o estadio da lesão. 4) Pesquisar possíveis associações entre a expressão dos transportadores de monocarboxilato 1, 2 e 4, moléculas reguladoras do pH intracelular, e os marcadores acima relacionados e as variáveis anatomopatológicas. A casuística foi constituída por 139 adenocarcinomas colorretais, sendo 96 sem metástase hepática e 39 com metástase hepática. Os casos foram revistos e 13 variáveis anatomopatológicas foram selecionadas para fazer parte do estudo. Foram confecionados manualmente blocos de microarranjos teciduais (TMA) de mucosa normal, tumor primário, metástase linfonodal e metástase hepática, cujos cortes foram submetidos a estudo imuno-histoquímico utilizando anticorpos anti queratina 7 (K7), queratina 20 (K20), Ki-67 e queratina 18 clivada. Em 126 blocos de parafina de tumores, e 86 amostras de mucosa normal correspondentes foram submetidos a estudo imuno-histoquímico utilizando anticopos anti transportadores de monocarboxilato 1, 2 e 4 (MCT1, MCT2 e MCT 4). A presença de metástase linfonodal asociou-se estatisticamente com a presença de infiltração tumoral além da camada muscular própria (T3 ou T4) (p<0,001), presença de desmoplasia tumoral moderada / intensa (p=0,043), presença de infiltração de vasos linfáticos (p<0,001), presença de infiltração venosa (p<0,001) e presença de infiltração tumoral perineural (p<0,001). A presença de metástase hepática teve associação estatisticamente significativa com a presença de infiltração tumoral além da camada muscular própria (p = 0,004) e com a presença de bordas tumorais infiltrativas ( p=0,05). As amostras de mucosa colorretal normal apresentaram baixa freqüência de positividade para a queratina 7, o mesmo ocorrendo com os adenocarcinomas primários e as metástases linfonodais. Detectamos, entretanto, diferença estatística significante entre a maior imunoexpressão da K7 nas metástases hepáticas quando comparadas aos adenocarcinomas primários (p<0,001) e às metástases linfonodais (p=0,015). Conforme esperado a queratina 20 mostrou-se presente na quase totalidade das amostras de mucosa colorretal normal e em mais de 90% das amostras dos vários tipos de lesão aqui estudadas. A taxa de proliferação nos adenocarcinomas primários foi significantemente superior à da observada na mucosa normal (p<0,001). Não houve diferenças estatísticas entre as taxas proliferativas das amostras neoplásicas. O índice de células em apoptose foi estatisticamente significante mais elevado nos adenocarcinomas primários que na mucosa normal (p<0,001), assim como foi mais elevado nas metástases hepáticas em relação aos adenocarcinomas primários (p=0,022). Tumores maiores que 5 cm apresentaram índices apoptóticos mais elevados que aqueles menores que 5 cm (p=0,005). As expressões citoplasmática e membranosa dos MCT1 e 4 foram mais frequentes nos adenocarcinomas que nas mucosas normais (p<0,001). A expressão membranosa do MCT1 associou-se à presença de infiltração linfática (p=0,004) , infiltração sangüínea (p=0,018) e à presença de índices apoptóticos mais elevados. Em conclusão, dentre as variáveis histológicas, infiltração linfática tumoral e infiltração de vasos sangüíneos foram fatores de risco independentes para metástase linfonodal e infiltração tumoral além da muscular própria e a presença de bordas tumorais infiltrativas foram fatores de risco independentes para metástase hepática nas análises multivariadas. A queratina 7 foi mais frequentemente expressa nas metástases hepáticas que nas metástases linfonodais e adenocarcinomas primários, indicando que a aquisição da expressão da queratina 7 pode ser uma alteração tardia do citoesqueleto associada a maior agressividade do tumor. A proliferação celular marcada pelo Ag Ki-67 assim como a apoptose, marcada pela queratina 18 clivada mostraram significativo incremento do normal para o adenocarcinoma primário e suas respectivas metástases. Os MCTs foram mais expressos nos adenocarcinomas que nas mucosas normais, sugerindo possível interferência de seu papel no controle do pH intracelular nestas neoplasias / The aims of this study in colorectal carcinoma were: 1) Verify the distribution of the most important anatomopathological variables, and identifying their relationship with lymph node or liver metastasis. 2) Considering the associations obtained in the first aim, a group of variables was selected to verify the prediction of lymph node or liver metastasis. 3) Analyze the immunoprofile of both markers associated with cytoarchitecture (keratins 7 and 20) and with tumor growth (proliferation and apoptosis using Ki-67 and cleaved keratin 18, respectively) in samples of nontumoral mucosa, primary adenocarcinoma, lymph node metastasis and liver metastasis, exploring the eventual relation with anatomopathological variables and tumor stage. 4) Look for possible associations between molecules related to intracellular pH control, as monocarboxylates transporters 1, 2 and 4, and the markers above mentioned and anatomopathological variables. One hundred and thirty nine colorectal carcinomas is the universe of the casuistic, 96 of them without liver metastasis and 39 metastatic to the liver was studied. Thirteen anatomopathological variables were selected and semi-quantified. We mannualy builted tissue microarrays (TMAs) of non tumoral mucosa, primary adenocarcinoma, lymph node metastasis and liver metastasis. The histological sections from the TMAs were submmitted to immunohistochemical study using antibodies against keratin 7 (K7), keratin 20 (K20), Ag Ki-67 and cleaved keratin 18. In 126 tumor paraffin blocks, 86 of which also had non tumoral mucosa were submitted to immunohistochemical stain using antibodies against monocarboxylate transportes 1, 2 and 4 (MCT1, MCT2 e MCT 4). Lymph node metastasis was associated with tumor infiltration across muscularis propria(p<0,001), moderate / intense desmoplasia(p=0,043), lymph vessel infiltration(p<0,001), venous infiltration (p<0,001) and perineural infiltration (p<0,001). Liver metastasis was statistically associated with tumor infiltration across muscularis propria and infiltrative tumor borders ( p=0,05). Few colorectal mucosa samples, as well as primary tumor and lymph node metastasis showed immunoexpression of K7, although we found statistically significant higher immunoexpression of K7 in liver metastasis as compared with primary carcinomas (p<0,001) and with lymph node metastasis (p=0,015). As expected, K20 was expressed in more than 90% of the samples examined. Higher Ki-67 rates were found in adenocarcinoma compared with normal mucosa (p<0,001). We did not find statistical differences of proliferation rates between neoplastic samples. Apoptotic index were higher in primary adenocarcinomas than in normal mucosa ( p<0,001), and was also higher in liver metastasis than in primary adenocarcinoma (p=0,022). We also found higher apoptotic index in tumors that measured more than 5 cm (p=0,005). Membranous and cytoplasmic expression of MCTs 1 and 4 were found more frequently expressed in adenocarcinoma than in non neoplastic mucosa (p<0,001). Membranous MCT1 expression was associated with lymph vessel infiltration (p=0,004), venous infiltration (p=0,018) and with higher apoptotic index. Lymphatic vessel infiltration and venous vessel infiltration were found as independent risk factors for lymph node metastasis. Tumor infiltration across muscularis propria and infiltrative tumor borders were also independent risk factor for liver metastasis by multivariate analysis. Keratin 7 were more frequently expressed in liver metastasis samples than in lymph node metastasis and primary adenocarcinomas, indicating that the acquisition of K7 expression could be a late cytoskeleton alteration associated with higher tumor aggressiveness. Proliferation rates as well as higher frequency of apoptosis, showed increased expression from normal mucosa to primary adenocarcinoma and its respective metastasis. Finally, monocarboxylate transporters were higher expressed in adenocarcinoma samples than in normal mucosa samples indicating a probable role in the intracellular pH in colorectal neoplasia

Adenocarcinoma

Adenocarcinoma

Apoptosis

Cell proliferation

Citoesqueleto

Coloretal neoplasia

Cytoskeleton

Immunohistochemistry

Imunoistoquímica

Monocarboxylic acid transporters

Neoplasias colorretais

Proliferação de células

Queratinas

Queratins

Interakce viru klíšťové encefalitidy s cytoskeletem hostitelských buněk

PRANČLOVÁ, Veronika

January 2019

This thesis is focused on the role of host cytoskeleton, primarily microtubules and microfilaments, during tick-borne encephalitis virus infection in human neuroblastoma cell line SK-N-SH and tick cell line IRE/CTVM19. The importance of cytoskeletal integrity and dynamics to the viral replication cycle were examined using specific chemical inhibitors showing the virus utilizes studied structures in both cell lines. Immunofluorescence microscopy revealed structural changes in the actin cytoskeleton during late infection in SK-N-SH cells. Moreover, differences in expression of cytoskeleton-associated genes in both cell lines were compared. Several genes with up-regulated expression in SK-N-SH cells were identified during late infection.

Mecanismos moleculares envolvidos no fenótipo endotelial em resposta a estímulos físicos e químicos / Molecular mechanisms involved in endothelial phenotype in response to physical and chemical stimuli

Silva, Thaís Girão da

01 August 2018

O endotélio reveste a parede vascular e possui função essencial na manutenção da homeostase. A célula endotelial é capaz de perceber estímulos extracelulares, como fatores químicos e mecânicos, transmitir a informação para dentro da célula e regular sua função e fenótipo. Neste sentido, investigamos os mecanismos moleculares associados as células endoteliais em dois contextos importantes de intervenções vasculares 1) nos stents farmacológicos, onde a rapamicina exerce funções antiproliferativas e pró-trombogênicas, e 2) na revascularização cardíaca por ponte de safena, onde o alto estiramento mecânico exerce grande impacto no remodelamento vascular e no fenótipo da célula endotelial. A rapamicina pertence à classe de drogas limus, bastante utilizadas nos stents farmacológicos usados no procedimento de desobstrução vascular. Além de sua função antiproliferativa, exploramos os efeitos deletérios associados a pró-trombogênese. Os dados demonstraram que a rapamicina ativa o receptor de TGF independentemente de seu ligante TGFbeta, promovendo aumento na expressão da PAI-1 (pró-trombogênica), alteração no fenótipo endotelial (Transição endotélio-mesenquimal - EndMT) e na formação de fibras de estresse. Os efeitos observados são dependentes da ativação de Smad2 e independentes da via clássica antiproliferativa por mTOR. Experimentos in vivo mostraram que o tratamento com inibidor do receptor de TGF diminui os efeitos pró-trombogênicos e a expressão de PAI-1 induzidos pela rapamicina em artérias carótidas de camundongos. A ponte de safena é um procedimento bastante utilizado na cirurgia de revascularização cardíaca e a arterialização do segmento venoso submetido ao estresse hemodinâmico arterial resulta em remodelamento vascular, que influencia o sucesso do procedimento. Nossos dados demonstram que a célula endotelial humana de veia safena humana (hSVEC), susceptível as modificações do tipo EndMT induzido quimicamente (estímulo pró-fibrótico e pró-inflamatório), não expressou o mesmo comportamento em resposta ao aumento de estiramento mecânico que ocorre durante a arterialização venosa. Entretanto, detectamos uma pronunciada redução dos filamentos de actina, modulação no padrão de ativação da cofilina e na proporção de actina glomerular (G-actina) entre citoplasma e núcleo, com redução da biodisponibilidade de NO. De modo interessante, demonstramos que a redução no filamento de actina é específica para a célula endotelial venosa, não sendo observado em células endoteliais de origem arterial de aorta e coronária. Em conjunto, os dados mostram que 1) efeitos pró-trombogênicos associados a rapamicina são mediados por ativação do receptor de TGF independente do seu ligante e da atividade antiproliferativa da droga e 2) a adaptação da célula endotelial venosa ao estiramento mecânico envolve modulação da síntese/degradação de filamentos de actina e redução na biodisponibilidade de NO. Estes novos elementos sobre o mecanismo de transdução de estímulos químicos e físicos pelo endotélio poderão ser explorados terapeuticamente para modular a plasticidade endotelial em disfunções cardiovasculares / Endothelium is the inner layer in vascular wall and displays an essential role in the maintenance of cardiovascular homeostasis. Endothelial cell senses the extracellular stimuli, such as chemical and mechanical factors, transduce and process these signals to regulate cell function and phenotype. Here, we investigated molecular underpinning of the endothelial cells under two important scenarios: 1) in drug-eluting stents, where rapamycin exerts antiproliferative and undesirable prothrombogenic functions, and 2) in vein graft bypass surgery, where increased stretch modulates vascular remodeling and endothelial cell phenotype. Rapamycin belongs to the class of limus drugs and is widely used in drug eluting stents (DES) to vascular restenosis. In addition to its antiproliferative function, we explore the deleterious effects associated with prothrombogenesis. Our data demonstrated that rapamycin activates TGF receptor independent of its ligand TGFbeta, in concert with promotion of PAI-1 expression (prothrombogenic), changes in endothelial phenotype (Endothelial to Mesenchymal Transition - EndMT) and stress fibers induction. These effects are Smad2 dependent and independent of the classical antiproliferative mTOR pathway of rapamycin. Our in vivo experiments showed that TGF receptor inhibitor treatment decreases prothrombogenic effects and PAI-1 expression induced by rapamycin in mice carotid arteries. Saphenous vein is widely used in coronary artery bypass surgery (CABG) and the vein arterialization remodeling in response to the increased stress influences graft patency. Our data demonstrated that human saphenous vein endothelial cell (hSVEC) is susceptible to chemically induced endothelial-to-mesenchymal transition (EndMT) by pro-fibrotic and pro-inflammatory stimuli. On the other hand, physical stimulus associated with high stretch failed to induce EndMT. However, we detected a pronounced decrease of actin filaments, modulation of the cofilin activation, changes in the proportion of glomerular actin (G-actin) between cytoplasm and nucleus, and reduction of NO bioavailability. Interestingly, the reduction of actin fibers by high stretch is specific to venous endothelial cell since arterial endothelial cells from aorta, and coronary artery failed to display the response. Altogether, our data show that 1) the thrombogenic effects of rapamycin are mediated by TGF receptor activation independent of its ligand and independent of the antiproliferative pathway of the drug, and 2) the adaptation of venous endothelial cell to mechanical stretch involves synthesis/degradation of actin filaments and reduced NO bioavailability. These new elements on signal transduction of endothelial cells in response to chemical and physical stimuli may be therapeutically explored to modulate endothelial plasticity in cardiovascular disorders

Actin cytoskeleton

Cell transdifferentiation

Células endoteliais

Citoesqueleto de actina

Endothelial cells

Inibidor 1 de ativador de plasminogênio

Plasminogen activator inhibitor 1

Proteínas smad

Signal transduction

Smad proteins

Transdiferenciação celular

Transdução de sinais