L’intégrine β1 et de son régulateur ICAP-1α dans l’ostéogenèse : rôle dans la prolifération, la différenciation et la fonction ostéoblastiques / β1 integrin and its regulator ICAP-1α functions during osteogenesis : implication for osteoblast proliferation, differentiation and function

Brunner, Molly

05 April 2013

L'intégrine β1 appartient à une large famille de récepteurs de première importance pour les interactions cellule/matrice extracellulaire. La délétion spécifique d'un régulateur négatif de l'intégrine β1, ICAP-1α, induit de sévères défauts osseux. Nous avons pu montrer que la perte d'ICAP-1α est accompagnée d'une augmentation de l'activité de l'intégrine β1, affectant le dépôt des matrices de fibronectine et de collagène de type I. De plus, nous avons pu montrer qu'ICAP-1α a une action antagoniste sur le recrutement de la kindline-2 au niveau du domaine cytoplasmique de l'intégrine β1 (Brunner et al. JCB 2011). Nous nous sommes ensuite intéressés au rôle de l'intégrine β1 elle-même dans l'ostéogenèse afin de comprendre comment les ostéoblastes intègrent les signaux du microenvironnement pour coordonner la formation et le remodelage osseux. Dans cette optique, nous avons généré un modèle de souris délétées pour l'intégrine β1 spécifiquement dans les ostéoblastes en cours de maturation. Ces souris présentent un sévère phénotype osseux caractérisé par des réductions importantes de la minéralisation et de la dynamique osseuse, ainsi que des déformations osseuses et des fractures rappelant le syndrome d'Ostéoporose Juvénile. L'analyse in vitro d'ostéoblastes n'exprimant pas l'intégrine β1 a révélé un défaut majeur de prolifération impliquant non pas la voie canonique MAPK/ERK mais plutôt un défaut d'activation du co-facteur de transcription YAP. De plus, nous avons pu montrer que les intégrines β1 régulaient le niveau d'AMP cyclique (AMPc) dans les ostéoblastes et que ceci était corrélé à l'inactivation de YAP. De même, nous avons pu relier l'inactivation de YAP à la dynamique d'endocytose des rafts. Finalement, des analyses in vivo et in vitro ont révélé un défaut fonctionnel des ostéoblastes dépourvus d'intégrine β1. Nous avons pu montrer que cette incapacité fonctionnelle était due à une réduction de la réponse au BMP-2, facteur de croissance ostéoblastique majeur, non pas au niveau de son récepteur mais probablement au niveau de l'activation des promoteurs BMP-dépendants. Nos résultats montrent ainsi que l'intégrine β1 est un régulateur clé de la prolifération ostéoblastique dépendante de YAP et de la signalisation BMP régulant la fonction ostéoblastique, la minéralisation et la formation osseuse. / Β1 integrins belong to a large family of receptors that have been shown to be of paramount importance for cell/extracellular matrix interactions. The ablation of the specific β1 integrin regulator ICAP-1α results in severe bone and mineralization defects. By combining mouse and cell biology we could demonstrate that loss of ICAP-1α was accompanied by an increase of β1 integrin activity that affects fibronectin and collagen deposition. Moreover, we could show that ICAP-1 is an important negative regulator of kindlin-2 recruitment on β1 integrin cytoplasmic domain (Brunner et al. JCB 2011). We then wanted to address the functional role of β1 integrin per se in osteogenesis and to understand how osteoblasts integrate environmental cues to coordinate bone formation and remodeling. For this we generated osteoblast specific β1 integrin deficient mice. These mice showed severe bone defects characterized by reduced bone mineralization and dynamic, as well as bending and fractures reminding human Juvenile Osteoporosis symptoms. In vitro analyses of β1 integrin deficient osteoblasts revealed proliferation defect which is not due to defective canonical MAPK/ERK pathway, but rather to defective activity of the co-transcription factor YAP. Then, we showed that β1 integrins are regulating cAMP level in osteoblasts and that the cAMP level correlates with YAP inactivation. We also linked YAP inactivation with raft endocytosis. Finally, in vivo and in vitro analyses revealed a functional incapacity of β1 integrin deficient osteoprecursors. We could show that the lazy phenotype of β1 integrin deficient osteoblasts is likely due to a reduced response to BMP signaling, a major osteoblast growth factor. Taken together, our findings demonstrate that β1 integrin is a key regulator of YAP-dependent osteoblast proliferation and BMP signaling allowing osteoblast functionality, mineralization and bone formation.

Intégrines beta 1

ICAP-1alpha

Ostéoblaste

BMP-2

Matrice extracellulaire

YAP

Beta1 integrins

ICAP-1 alpha

Osteoblast

BMP-2

Extracellular matrix

YAP

Express?o imuno-histoqu?mica das integrinas ?2?1, ?3?, e ?5?1, em carcinoma epiderm?ide de l?bio inferior e l?ngua

Pereira, Antonio Luiz Amaral

28 September 2006

Made available in DSpace on 2014-12-17T15:32:33Z (GMT). No. of bitstreams: 1 AntonioLAP.pdf: 801979 bytes, checksum: bfcf5910a257b5978efceb008f0c1016 (MD5) Previous issue date: 2006-09-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The unpredictable biologic behavior of the oral squamous cells carcinoma has determined extensive research on the evolution of such tumor. Due to the existing relation between the outer cell matrix and the tumor cells, the integrins have been used as markers in the predictive study of the cell behavior. This study aims to analyze immunohistochemically the expression of the integrin ?2?1, ?3?1, and ?5?1 connections for the collagen, the laminin and the fibronectin respectively in 15 cases of squamous cells carcinoma from the lower lip and 15 from the tongue, with different scores of malignance grading. A predominantly diffuse, cytoplasm and granular immunological marking was observed in the majority of the analyzed cases. According to the marking intensity, integrin ?2?1 appeared positive in 80% of the lip and in 93,3% of the tongue cases. The immunological reactivity of integrin ?3?1 was classified as positive in 60% of both the tongue and lip cases. For this integrin, 20% and 33.3% of the tongue and lip cases, respectively, were negative. In relation to integrin ?5?1 the intensity was classified as positive in 53,3% of the cases and strongly positive in 46,7% of those located in the lip. In the tongue carcinomas, the intensity was positive in 46,7% of the cases and strongly positive in 53,3%. The statistic analysis did not show any significant differences or correlation of expression between these integrins nor between the anatomical sites or between different scores of malignancy grading. The expressive immunological marking of the integrins, ?2?1, ?3?1, and ?5?1 in the studied cases of squamous cell carcinomas leads us to think of a great participation of these proteins in oral carcinogenesis; however, our results do not allow us to correlate its expression as an indicator of variations in the biological behavior of this neoplasia / A imprevisibilidade do comportamento biol?gico do carcinoma epiderm?ide oral vem justificando um grande n?mero de pesquisas utilizando biomarcadores que possam contribuir para um melhor entendimento do curso evolutivo dessa neoplasia. Por estarem envolvidas em rela??es entre as c?lulas tumorais e constituintes da matriz extracelular, as integrinas v?m sendo estudadas como poss?veis marcadores preditivos desse comportamento. Este estudo se prop?s a analisar, atrav?s do m?todo da imunohistoqu?mica, a express?o das integrinas ?2?1, ?3?1 e ?5?1, ligantes para o col?geno, laminina e fibronectina respectivamente, em 15 casos de carcinoma epiderm?ide de l?bio inferior e 15 de l?ngua, com diferentes escores de malignidade histol?gica. Observou-se uma imunomarca??o predominantemente difusa, citoplasm?tica e granular na maioria dos casos analisados. Quanto ? intensidade de marca??o, a integrina ?2?1 mostrou-se de forma positiva em 80% dos casos de l?bio e em 93,3% dos de l?ngua. A imunorreatividade da integrina ?3?1 foi classificada como positiva em 60% dos casos de l?bio e de l?ngua. Para esta integrina, 20% e 33,3% dos casos de l?bio e l?ngua, respectivamente, mostraram-se negativos. J? com rela??o ? integrina ?5?1a intensidade foi classificada como positiva em 53,3% dos casos e fortemente positiva em 46,7% daqueles localizados em l?bio. Nos carcinomas de l?ngua, a intensidade mostrou-se positiva em 46,7% dos casos e fortemente positiva em 53,3%. A an?lise estat?stica n?o demonstrou diferen?as nem correla??es significativas da express?o dessas integrinas nem entre os s?tios anat?micos, nem entre diferentes escores de grada??o histol?gica de malignidade. A expressiva imunomarca??o das integrinas ?2?1, ?3?1e ?5?1 nos casos de carcinomas epiderm?ides estudados nos leva a sugerir uma ampla participa??o dessas prote?nas na carcinog?nese oral; no entanto, nossos resultados n?o nos permitem correlacionar sua express?o como indicador de varia??es no comportamento biol?gico desta neoplasia

Carcinoma epiderm?ide

Grada??o histol?gica

Integrinas

Imunoistoqu?mica

Oral squamous cell carcinoma

Histological grade

Integrins

Immunohistochemistry

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Quinase de adesão focal é crítica para a expressão de moléculas pró-aterogênicas em células vasculares submetidas a estresse mecânico / Focal Adhesion Kinase is critical for the expression of pro-atherogenic molecules in vascular cells subjected to mechanical stress

Fernandes, Maruska do Rocio Neufert

07 June 2011

Orientador: Wilson Nadruz Júnior / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-18T15:00:13Z (GMT). No. of bitstreams: 1 Fernandes_MaruskadoRocioNeufert_D.pdf: 2265410 bytes, checksum: 8aea5cb9fd86986cff8999d0e81b40fc (MD5) Previous issue date: 2011 / Resumo: O aumento do estresse circunferencial ou mecânico é um dos principais estímulos responsáveis pela aterogênese induzida por hipertensão arterial, além de ser um determinante para a localização das placas ateroscleróticas na árvore arterial. Neste contexto, moléculas mecano-sensíveis ou responsivas ao estresse mecânico podem exercer um papel fundamental no desenvolvimento do fenótipo pró-aterogênico em células vasculares. A quinase de adesão focal (FAK) tem sido considerada uma proteína central na mecanotransdução em diversos tipos celulares, por seu papel potencial na ativação de vias de sinalização envolvidas no crescimento celular, anti-apoptose e inflamação. Neste trabalho, nós inicialmente caracterizamos a ativação da FAK em linhagem de célula endotelial de aorta de coelho (RAEC) submetida a estiramento mecânico pulsátil e, em seguida, investigamos a influência da inibição desta proteína, por meio de oligodeoxinucletídeo-antisense e pelo inibidor farmacológico PP2, sobre a expressão de moléculas pró-aterogênicas e a adesividade leucocitária neste modelo experimental. Nossos resultados mostraram que a FAK é ativada precocemente por estiramento mecânico e é fundamental para a expressão de TLR2, TLR4, VCAM-1 e E-selectina induzida por sobrecarga mecânica em células endoteliais. A inibição da FAK endotelial com PP2 e oligodeoxinucletídeo-antisense bloqueou a adesão de células monocitóides THP1 às células endoteliais induzida por estiramento in vitro. O próximo passo foi avaliar o impacto da FAK sobre expressão de moléculas pró-aterogênicas induzida por sobrecarga hemodinâmica in vivo, utilizando o modelo de coarctação da aorta em ratos Wistar. Os resultados dos estudos in vivo demonstraram que a FAK é ativada nas primeiras horas após instituição da sobrecarga pressora em segmentos de aorta. Após 7 dias de coarctação, os segmentos aórticos proximais à estenose apresentaram aumento na expressão de TLR2, TLR4, VCAM-1, E-selectina, metaloproteinases de matriz 2 e 9, além de maior adesividade às células THP1. Estes fenômenos foram inibidos por meio de tratamento prévio dos animais com small interference RNA direcionado especificamente contra a FAK. Em conjunto, estes dados indicam que a FAK exerce um papel fundamental na resposta pró-aterogênica de células vasculares ao estresse mecânico in vitro e in vivo / Abstract: The increase in circumferential or mechanical stress is a major stimulus by which hypertension stimulates atherogenesis and a main determinant for the location of atherosclerotic plaques in the arterial tree. Mechano-sensitive molecules can play a key role in the development of pro-atherogenic vascular cell phenotype. Focal Adhesion Kinase (FAK) has been considered a central protein in mechanotransduction, because of its potential role in the activation of cell signaling pathways involved in cell growth, anti-apoptosis, and inflammation. In this work, we initially evaluated the activation of FAK in rabbit aortic endothelial cell (RAEC) lineage subjected to cyclic mechanical stretch and then investigated the impact of FAK inhibition, by transfection with specific oligodeoxynucleotide antisense and pre-treatment with the pharmacological inhibitor PP2, on the expression of pro-atherogenic molecules and leukocyte adhesion in this experimental model. Our results showed that FAK was rapidly activated by mechanical stretch and was critical to stretch-induced expression of TLR2, TLR4, VCAM and E-selectin in endothelial cells. FAK endothelial inhibition also blocked the adhesion of THP1 monocytoid cells to endothelial cells induced by stretch in vitro. The next step was to investigate the role of FAK in load-induced expression of pro-atherogenic molecules in vivo, by subjecting Wistar rats to aortic constriction. The results of in vivo assays revealed an early activation of FAK in aortic segments subjected to pressure overload. After 7 days of aortic constriction, vascular segments subjected to high pressure exhibited increased expression of TLR2, TLR4, VCAM-1, E-selectin, matrix metalloproteinases 2 e 9, and higher adhesion to THP-1 monocytoid cells. These events were inhibited by pre-treatment of rats with small interference RNA designed to silence FAK expression. In general these findings indicate that FAK is critical do stretch-induced expression of pro-atherogenic molecules in vascular cells in vitro and in vivo / Doutorado / Ciencias Basicas / Doutor em Clínica Médica

Aterosclerose

Moléculas de adesão celular

Receptores Toll-like

Integrinas

Atherosclerosis

Cell Adhesion Molecules

Focal Adhesion Kinase 1

Toll-Like Receptors

Integrins

Integrinas ligantes do peptídio RGD atuam como mecanotransdutores na cartilagem do côndilo mandibular de ratos submetidos a tratamento ortopédico funcional. / RGD-binding integrins participate in mechanotransduction in the mandibular condylar cartilage of rats submitted to functional orthopaedic treatment.

Mara Rubia Marques

01 June 2007

O aparelho propulsor mandibular é utilizado na odontologia para modular o crescimento da cartilagem condilar, por meio de forças geradas pela alteração postural da musculatura. Neste estudo foi avaliado o papel de integrinas ligantes de fibronectina (FN) na transdução das forças mecânicas geradas pelo aparelho, em ratos. Por meio de imuno-histoquímica e PCR em tempo real verificou-se que, in vivo, o uso do aparelho modulou a expressão das subunidades <font face=\"symbol\">1, <font face=\"symbol\">5, e <font face=\"symbol\">v de integrinas, FN e PCNA, um marcador de proliferação celular. In vitro, forças distensivas cíclicas aplicadas sobre células da cartilagem condilar aumentaram a expressão de mRNA para FN, fatores de crescimento IGF-I e IGF-II e PCNA. A adição do peptídeo GRGDSP, que bloqueia a ligação de algumas integrinas à FN, inibiu todos os efeitos, exceto na expressão de IGF-II. Esses resultados sugerem que integrinas ligantes de FN desempenham papel importante na mecano-transdução neste sistema e contribuem para o entendimento das bases moleculares envolvidas na ortopedia funcional dos maxilares / The mandibular propulsor appliance is widely used in dentistry to modulate the growth of the condylar cartilage, through forces generated by postural changes in the orofacial musculature. The aim of this study was to evaluate the role of fibronectin (FN)-binding integrins in the transduction of mechanical forces generated by the appliance in rats. By immunohistochemistry and real time PCR it was observed that, in vivo, the appliance´s use modulated the expression of the integrin subunits <font face=\"symbol\">1, <font face=\"symbol>\"5, and <font face=\"symbol\">v, FN and PCNA, a cell proliferation marker. In vitro, the application of cyclic distension forces on condylar cartilage cells increased the expression of FN, IGF-I, IGF-II and PCNA mRNA. Addition of the peptide GRGDSP, which blocks the binding of some integrins to FN, inhibited all the effects except the increase in IGF-II mRNA. These results suggest that FN-binding integrins play an important role in mechanotransduction in this system, contributing to the understanding of the molecular basis involved in maxillary functional orthopedic therapy.

Cartilagem

Fator de crescimento

Fibronectina

Integrinas

Ortopedia funcional dos maxilares

Proliferação celular

Cartilage

cell proliferation

Fibronectin

Gowth factor

Integrins

Molecular targeting combined with photon and proton irradiation in human pancreatic cancer cells

Görte, Josephine Elisabeth

24 September 2021

Background: A highly desmoplasmic microenvironment, the mutational landscape, and intra-tumoral heterogeneity contribute to the therapy resistance in pancreatic ductal adenocarcino-ma (PDAC). Due to higher precision, proton beam therapy is regarded beneficial compared to standard photon radiotherapy, although the role of radiotherapy is still ambiguous in PDAC. Cellular adhesion to the extracellular matrix (ECM) via integrins is well-known to mediate radi-ochemoresistance in various tumor entities. In PDAC, β1 integrins are associated with tumor progression. However, their role in radiochemoresistance is yet to be unraveled. Consequently, a comparative evaluation of cell survival and therapy sensitization after inhibition of β1 integ-rins or other survival-promoting protein kinases combined with either photon or proton irradia-tion and the underlying molecular mechanisms was carried out in this work. Materials and Methods: The expression of β1 integrins in PDAC and the correlation with pa-tient survival were assessed using publicly available patient data. The effect of β1 integrin inhi-bition by inhibitory antibodies or depletion on PDAC cell survival upon photon and proton irra-diation was explored using the tumoroid formation assay in three therapy-naïve and one radio-resistant PDAC cell lines grown in more physiological 3D laminin-rich ECM. Protein expression and cellular localization of β1 integrins were analyzed applying Western blot and immunofluo-rescence in the cell line panel. Basal molecular differences and those upon β1 integrin inhibi-tion were determined by a broad-spectrum kinome profiling in therapy-naïve and radioresistant 3D PDAC cultures. A potential interrelation of specific kinases with β1 integrin signaling in re-sponse to radiation was investigated in a single and double knockdown screen. The effects of photon and proton irradiation on PDAC cell survival of five 3D cultured PDAC cell lines were comparatively assessed using the 3D tumoroid formation assay. Molecular alterations upon both radiation types were identified by a broad-spectrum phosphoproteome analysis and Western blot. The exploitation of uniquely altered molecules and other signal transduction and DNA repair molecules for specific sensitization to photon and proton radiation was evaluated using specific biologicals in 3D cultured PDAC cell lines. Results: β1 integrins are overexpressed in PDAC compared to the normal pancreas, and the expression correlates with poorer patient survival. β1 integrin expression and localization var-ied cell line-dependently in the PDAC cell line panel. β1 integrin inhibition elicited an increase in radiosensitivity in all analyzed therapy-naïve and radioresistant 3D PDAC cultures, although less prominent in the latter. In line, the extent of kinase deregulation induced by AIIB2 was lower in the radioresistant 3D PDAC cultures. Double targeting of specific kinases with β1 in-tegrins further increased the radiosensitization in the therapy-naïve 3D PDAC cell cultures, whereas in the radioresistant counterpart, the effect was weak. Further, Erk2, PKD1, and CK1δ were revealed as potential interactors in the β1 integrin-mediated response to radiation. Proton irradiation showed a higher efficacy in the reduction of PDAC cell survival than photon irradia-tion. On the molecular level, irradiation with protons induced more phosphoproteomic altera-tions than photon radiation. Targeting of molecules uniquely altered upon irradiation failed to sensitize 3D PDAC cultures radiation type-specifically. However, a similar degree of radiosen-sitization for proton and photon irradiation in 3D PDAC cultures was observed upon targeting signal transduction and DNA repair proteins. Targeting non-homologous end joining (NHEJ)-specific proteins increased cellular radiosensitivity exceedingly for both radiation types in all 3D PDAC cell cultures. Conclusion: This work revealed a fundamental role of β1 integrins in intrinsic and acquired radioresistance of PDAC. However, to substantially overcome acquired radioresistance, further investigation is needed. Furthermore, a similar efficacy of proton and photon irradiation when combined with targeted therapies was demonstrated. These results suggest that multitargeting approaches based on targeting of β1 integrins or NHEJ-specific molecules combined with pho-ton or proton irradiation may turn out particularly promising. The strong radiosensitizing poten-tial of targeting these molecules may enable a more frequent use of radiotherapy for PDAC patient treatment. / Hintergrund: Ein stark desmoplasmatisches Mikromilieu, das Mutationsprofil und die intra-tumorale Heterogenität tragen zur Therapieresistenz des Pankreaskarzinoms bei. Aufgrund der höheren Präzision wird die Protonentherapie als vorteilhaft gegenüber der Standard Pho-tonentherapie angesehen, obwohl ihre Wirksamkeit im Pankreaskarzinom noch ungewiss ist. Es ist bekannt, dass die zelluläre Adhäsion an die extrazelluläre Matrix (EZM) über Integrine die Radiochemoresistenz in verschiedenen Tumorentitäten vermittelt. Hierbei stehen β1 In-tegrine in Zusammenhang mit dem Fortschreiten der Erkrankung. Welche Rolle die β1 Integri-ne in der Radiochemoresistenz im Pankreaskarzinom spielen ist jedoch noch nicht bekannt. In dieser Arbeit wurde daher eine vergleichende Analyse des Zellüberlebens und der Therapie-empfindlichkeit nach Hemmung von β1 Integrinen oder anderen überlebensfördernden Pro-teinkinasen in Kombination mit Photonen- oder Protonenbestrahlung sowie der zugrundelie-genden molekularen Mechanismen durchgeführt. Material und Methoden: Die Expression von β1 Integrinen im Pankreaskarzinom und die Kor-relation mit dem Patientenüberleben wurden mittels öffentlich verfügbarer Patientendaten be-stimmt. Die Wirkung der β1-Integrin-Hemmung durch inhibitorische Antikörper oder mittels knockdown auf das Überleben von Pankreaskarzinomzellen bei Bestrahlung mit Photonen und Protonen wurde durch den Tumoroidbildungsassay in drei therapienaiven und einer strahlen-resistenten Pankreaskarzinomzelllinien untersucht. Diese wurden in physiologischer, 3D Lami-nin-reicher EZM kultiviert. Die Proteinexpression und die zelluläre Lokalisation von β1 Integri-nen wurden in allen Zelllinien mittels Western Blot und Immunfluoreszenz analysiert. Basale molekulare Unterschiede und solche nach Hemmung von β1 Integrinen wurden durch eine Breitspektrum-Kinomanalyse in therapienaiven und strahlenresistenten 3D-Pankreaskarzinomkulturen bestimmt. Eine mögliche Wechselbeziehung spezifischer Kinasen mit der β1 Integrin-vermittelten Strahlenantwort wurde in einem Einzel- und Doppel-knockdown Screen untersucht. Die Effekte der Bestrahlung mit Photonen und Protonen auf das Überleben von Pankreaskarzinomzellen wurden vergleichend anhand des Tumoroidbildungsassays in fünf 3D-kultivierten Pankreaskarzinomzelllinien bewertet. Durch beide Strahlungstypen indu-zierte molekulare Veränderungen wurden durch eine Breitspektrum-Phosphoproteomanalyse und mittels Western Blot identifiziert. Die Nutzung einzigartig veränderter Moleküle sowie an-derer Signaltransduktions- und DNA-Reparaturmoleküle zur spezifischen Sensibilisierung für Photonen- und Protonenstrahlung wurde untersucht. Dies erfolgte durch eine gezielte Hem-mung dieser Moleküle durch spezifische Biologika in 3D-kultivierten Pankreaskarzinomzellli-nien. Ergebnisse: β1 Integrine sind im Pankreaskarzinom im Vergleich zum gesunden Pankreas überexprimiert und ihre Expression korreliert negativ mit dem Patientenüberleben. Die Expres-sion und Lokalisierung der β1 Integrine variierte zelllinienabhängig in den Pankreaskarzinom-zelllinien. Die Hemmung der β1 Integrine führte zu einer Erhöhung der Strahlenempfindlichkeit in allen analysierten therapienaiven und strahlenresistenten 3D kultivierten Pankreaskarzinom-zelllinien, auch wenn diese in den letzteren weniger stark ausfiel. Auch der Grad der durch die Hemmung induzierten Deregulierung von Kinasen in den strahlenresistenten 3D Pankreaskar-zinomzellkulturen war geringer. Der gleichzeitige knockdown spezifischer Kinasen mit β1 In-tegrinen potenzierte die Strahlenempfindlichkeit in den therapienaiven 3D Pankreaskarzinom-zellkulturen, während diese im strahlenresistenten Pendant nur wenig beeinflusst wurde. Fer-ner wurden Erk2, PKD1 und CK1δ als potenziell beteiligte Kinasen in der durch β1 Integrine vermittelten Strahlenantwort entdeckt. Die Bestrahlung mit Protonen zeigte eine höhere Wirk-samkeit bei der Verringerung des Pankreaskarzinomzellüberlebens als die Photonenbestrah-lung. Auf molekularer Ebene induzierte die Protonenbestrahlung mehr Veränderungen im Phosphoproteom als die Photonenbestrahlung. Die gezielte Hemmung von einzigartig verän-derten Molekülen sensibilisierte die 3D Pankreaskarzinomzellkulturen nicht Strahlungsart-spezifisch. Jedoch konnte eine ähnliche Effizienz der beiden Strahlungstypen nach Hemmung gewisser Signaltransduktions- und DNA-Reparaturproteine in 3D Pankreaskarzinomzellkultu-ren gezeigt werden. Die zelluläre Strahlenempfindlichkeit gegenüber beiden Strahlungsarten wurde hierbei besonders durch die Hemmung spezifischer Proteine des non-homologous end joining (NHEJ) in allen 3D Pankreaskarzinomzellkulturen erhöht. Schlussfolgerung: Diese Arbeit konnte eine wesentliche Rolle von β1 Integrinen bei der intrinsischen und erworbenen Strahlenresistenz im Pankreaskarzinom ermitteln. Um die Strah-lenresistenz jedoch gänzlich zu überwinden, sind weitere Untersuchungen erforderlich. Des Weiteren wurde eine ähnliche Wirksamkeit von Protonen- und Photonenbestrahlung in Kombi-nation mit gezielten Therapien gezeigt. Diese Ergebnisse legen nahe, dass Multi-Targeting-Ansätze, die auf der Hemmung von β1 Integrinen oder NHEJ-spezifischen Molekülen in Kom-bination mit Photonen- oder Protonenbestrahlung basieren, ausgesprochen vielversprechend sein können. Angesichts des enormen Potentials zur Steigerung der Strahlenempfindlichkeit durch die Hemmung dieser Moleküle könnte eine häufigere Anwendung der Strahlentherapie bei Pankreaskarzinompatienten ermöglicht werden.

info:eu-repo/classification/ddc/610

ddc:610

Substratinduzierte Differenzierung von Endothelzellen

Herklotz, Manuela

24 June 2008

Der Erfolg neuer Strategien in der Regenerativen Medizin und im Tissue Engineering hängt maßgeblich von einem gut entwickeltem vaskulären Netzwerk ab, welches die auf den Implantaten wachsenden Zellen und Gewebe versorgen. Oberflächeneigenschaften der Implantate sowie die Präsentation verschiedener Liganden für extrazelluläre Matrixproteine spielen bei der Besiedlung der Implantate, als auch bei der Bildung versorgender Blutgefäße durch die Endothelzellen eine wesentliche Rolle. In dieser Arbeit konnte durch Variation der Anbindungsstärke (kovalent oder physisorptiv) des extrazellulären Matrixproteins Fibronektins an die MSA-Copolymere der Einfluss des Aufbaus der extrazellulären Matrix auf das Differenzierungsverhalten der Endothelzellen gezeigt werden. Auch die initiale Konzentration von Adhäsionsproteinen an der Substratoberfläche zeigte sich bedeutend für das Verhalten der Zellen. Optimal für eine gute Adhäsion, native Entwicklung und Kapillarbildung der Endothelzellen war die stabile (kovalente) Anbindung weniger Adhäsionsproteine (hier Fibronektin) an die Substratoberfläche, so dass die Zellen problemlos adhärieren konnten. Erfolgte die weiter Proteinadsorption an die Oberflächen in einem nativen Zustand (hier auf den hydrophilen Oberflächen) so waren die Endothelzellen in der Lage, die extrazelluläre Matrix zu reorganisieren und ein dem in vivo Zustand ähnlicher Aufbau der extrazellulären Matrix konnte realisiert werden. Dies ermöglichte den Zellen wiederum ein natürliches Verhalten. Die Ausbildung einer moderaten Anzahl von Adhäsionsstellen der Zellen, sowie der in vivo ähnliche Aufbau der Adhäsionspunkte ermöglichte den Zellen einen eher lockeren Kontakt zum Substrat. Daher waren sie sehr flexibel in ihrer Morphologieanpassung. Unter diesen Bedingungen war es möglich, dass die Endothelzellen bei Stimulierung der Angiogenese kapillarähnliche Strukturen ausbildeten. Die Verwendung dreidimensionaler Zellkulturträger zeigte eine Unterstützung der Kapillarbildung der Endothelzellen in Abhängigkeit unter den beschrieben Bedingungen. / The success of tissue engineering strategies using artificial scaffolds crucially depends on a controlled formation of well-developed vascular networks in growing tissues. The presentation of extracellular matrix ligands on scaffolds is often envisioned as an appropriate strategy to support capillary formation. We show that the control of primary coupling mode — covalent versus physisorbed — as well as of secondary interactions of cell-secreted extracellular matrix proteins have a strong impact on endothelial cell development. A set of maleic anhydride copolymer thin films was used as planar model substrates. They exhibit a switchable mode of primary matrix coupling combined with a gradation of secondary matrix–substrate interactions due to a variation of surface hydrophobicity and polarity. We found that the cells adhere in a more native state at a low amount of covalent primary coupled fibronectin ligands in conjunction with weak interactions of secondarily adsorbed adhesion ligands on hydrophilic surfaces. These substrates allow for a formation of capillary-like networks of endothelial cells. High ligand densities and strong secondary hydrophobic interactions inhibit a pronounced capillary formation. The composition and structure of the formed extracellular matrix correlates well with the specific integrin expression pattern. From these results it is concluded that the formation of blood capillaries in artificial scaffolds can be triggered by controlling primary and secondary coupling of cell adhesion ligands to implant materials. 2

info:eu-repo/classification/ddc/620

ddc:620

Liver Vitronectin Release Into the Bloodstream Increases Due to Reduced Vagal Muscarinic Signaling After Cerebral Stroke in Female Mice

Keasey, Matthew P., Lovins, Chiharu, Jia, Cuihong, Hagg, Theo

01 May 2022

Vitronectin (VTN) is a glycoprotein enriched in the blood and activates integrin receptors. VTN blood levels increase only in female mice 24 h after an ischemic stroke and exacerbate brain injury through IL-6-driven inflammation, but the VTN induction mechanism is unknown. Here, a 30 min middle cerebral artery occlusion (MCAO) in female mice induced VTN protein in the liver (normally the main source) in concert with plasma VTN. Male mice were excluded as VTN is not induced after stroke. MCAO also increased plasma VTN levels after de novo expression of VTN in the liver of VTN female mice, using a hepatocyte-specific (SERPINA1) promoter. MCAO did not affect SERPINA1 or VTN mRNA in the liver, brain, or several peripheral organs, or platelet VTN, compared to sham mice. Thus, hepatocytes are the source of stroke-induced increases in plasma VTN, which is independent of transcription. The cholinergic innervation by the parasympathetic vagus nerve is a potential source of brain-liver signaling after stroke. Right-sided vagotomy at the cervical level led to increased plasma VTN levels, suggesting that VTN release is inhibited by vagal tone. Co-culture of hepatocytes with cholinergic neurons or treatment with acetylcholine, but not noradrenaline (sympathetic transmitter), suppressed VTN expression. Hepatocytes have muscarinic receptors and the M1/M3 agonist bethanechol decreased VTN mRNA and protein release in vitro via M1 receptors. Finally, systemic bethanechol treatment blocked stroke-induced plasma VTN. Thus, VTN translation and release are inhibited by muscarinic signaling from the vagus nerve and presents a novel target for lessening detrimental VTN expression.

blood protein

cholinergic

ischemic stroke

animals

mice

vagus nerve(physiology)

infarction

middle cerebral artery

integrins

liver (metabolism)

RNA

messenger

stroke (blood) vitronectin (blood)

Biomedical Sciences

Editorial: Editor’s Pick 2021: Highlights in Cell Adhesion and Migration

Mierke, Claudia Tanja

03 April 2023

Editorial on the Research Topic. Editorial: Editor’s Pick 2021: Highlights in Cell Adhesion and Migration.

info:eu-repo/classification/ddc/570

ddc:570

Modulation of Human Dendritic Cell Activity by Adsorbed Fibrin(ogen)

Thacker, Robert I.

January 2008

No description available.

Immunology

Pathology

fibrinogen

surfaces

inflammation

CD18

vaccine adjuvants

oil emulsion

dendritic cell

extracellular translocation

cancer metastasis

dendritic cell migration

olive oil

integrins

cytokine

chemokines

Exploring Chondrocyte Integrin Regulation of Growth Factor IGF-I Expression from a Transient pAAV Vector

Ratley, Samantha Kay

20 August 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Insulin-like Growth Factor I (IGF-I) is a growth factor that stimulates both mitogenic and anabolic responses in articular chondrocytes. While it has been shown that exogenous IGF-I can regulate chondrocyte integrins, little is known regarding regulatory effects of IGF-I produced from a transiently expressed plasmid based adeno-associated virus (pAAV) vector. Because chondrocytes are using cellular machinery to overexpress IGF-I, it is of interest to see whether or not pAAV IGF-I will significantly upregulate or downregulate chondrocyte integrins. Additionally, it is of interest to know whether chondrocyte adhesion through integrins will have any regulatory effects on the production of IGF-I from the transgene. Therefore, this study will ascertain if pAAV IGF-I will have similar effects that exogenous IGF-I has on integrin regulation and if integrin silencing mechanisms will affect the production of IGF-I from the transgene. To test these hypotheses, adult articular chondrocytes were doubly transfected with the pAAV vector for IGF-I and short interference ribonucleic acid (siRNA) for integrins beta 1 and alpha V. Gene products were monitored at the transcriptional levels using quantitative real time polymerase chain reactions (qPCR) and IGF-I protein production was monitored at the translational level using enzyme linked immunoabsorbant assays (ELISAs). Adult articular chondrocytes doubly transfected were encapsulated in a three dimensional hydrogel system to simulate an in vivo environment. Samples were collected for analysis at days 2, 4, and 6 post encapsulation. Results show that IGF-I treatment with the pAAV vector does not cause significant changes in the transcriptional regulation of the beta 1 integrin in a three dimensional hydrogel system. The pAAV IGF-I vector did not cause significant regulatory changes on integrin alpha V at any time point during the experiment. Additionally, by knocking down the expression levels of integrins by using siRNA, it was shown that integrin knockdown does not have a significant regulatory effect on transcriptional or translational expression levels of IGF-I from the pAAV vector.

Biomedical Engineering

Gene Therapy

Tissue Engineering

Regenerative Medicine and Biology

Articular Cartilage Repair

Integrins

Growth Factors

Insulin-like Growth Factor I

siRNA

RGD Peptides

Chondrocytes

Biomedical engineering

Gene therapy

Tissue engineering

Regenerative medicine

Growth factors -- Biotechnology

Integrins

Peptides -- Biotechnology

Cartilage cells

Genetic transcription -- Regulation