Die Rolle der Transkriptionsfaktoren “runt-related transcriptionfactor-2“ (RUNX2) und Osterix in humanen Osteoblasten / The role of transcription factors runt-related transcription factor-2 (RUNX2) and Osterix in human osteoblasts

Giesen, Markus

24 January 2008

No description available.

610 Medizin, Gesundheit

MED 419

Medicine

primäre humane Osteoblasten

siRNA

Transfektion

RUNX2

Osterix

primary human osteoblasts

siRNA

transfection

RUNX2

Osterix

44.89

Étude des récepteurs aux estrogènes dans les ostéoblastes de patients atteints de Scoliose Idiopathique de l'Adolescent

Leboeuf, Dominique

11 1900

Plusieurs éléments de la pathogenèse de la scoliose idiopathique de l’adolescent indiquent que les estrogènes pourraient intervenir dans le développement et la progression de cette maladie. Ce projet avait donc pour but d’explorer l’expression et la fonctionnalité des récepteurs aux estrogènes ERα et ERβ ainsi que leurs isoformes dans les ostéoblastes de patients scoliotiques et sains. L’induction des gènes de facteurs influençant la minéralisation et la différenciation des ostéoblastes par les estrogènes a également été étudié. Par immunofluorescence, nous avons remarqué une augmentation de la présence protéique de ERβ dans les ostéoblastes de patients SIA comparé aux sujets contrôles. Les récepteurs aux estrogènes provenant des ostéoblastes des patients sont fonctionnels tout comme ceux des contrôles et aucune différence dans l'interaction ADN-protéine n’a été observée. Il y a également une augmentation de l’expression génique de l’ostéopontine, l’ostéocalcine, le collagène de type I, la phosphatase alkaline et BMP2 dans les ostéoblastes des patients SIA. Un début de minéralisation in vitro a été observé dans les ostéoblastes de patients SIA et contrôles. ERα et ERβ sont présents et fonctionnels dans les ostéoblastes des patients SIA et sains. Leur expression est variable, mais ces variations existent chez les patients SIA et les contrôles. L’implication des estrogènes dans la SIA ne serait donc pas au niveau des récepteurs aux estrogènes mais au niveau de l’interactions des estrogènes avec d’autres facteurs étiologiques tels que la mélatonine, la formation/résorption osseuse ou autres facteurs neuro-endocriniens. / Recent developments in the research on pathogenesis of Adolescent Idiopathic Scoliosis indicate that estrogens could intervene in the development and progression of this disease. Therefore, this project focussed on the expression and functionality of estrogen receptors ERα and ERβ and their isoforms in osteoblasts of scoliotic patients and controls. The induction by estrogens of the expression of factors influencing mineralization and osteoblast differentiation was also studied. We observed by immunofluorescence, an increase of the presence of ERβ in osteoblasts of AIS patients compared to controls. A higher level of expression of osteopontin, osteocalcin, type I collagen, alkaline phosphatase and BMP2 was found in osteoblasts of AIS patients compared to controls. Estrogen receptors in osteoblasts from AIS patients are functional, as they were in controls and no difference in DNA-binding activity was observed. ERα et ERβ are present and functional in osteoblasts from AIS patients and controls. Their expression is variable, but these variations exist in both populations. The implication of estrogens in AIS would therefore be in the interaction between these hormones and other factors influencing the aetiology of AIS like melatonin, bone formation and resorption and neuro-endocrin factors, rather than in a default in the estrogens receptors themselves.

Scoliose Idiopathique de l'Adolescent

Récepteurs aux estrogènes

estrogenes

Ostéoblastes

Adolescent Idiopathic Scoliosis

Estrogen receptors

estrogens

osteoblasts

Minéralisation

L’effet des différents facteurs de croissance sur la viabilité et la prolifération des ostéoblastes scoliotiques

Circo, Alin B.

04 1900

Résumé: La Scoliose Idiopathique de l’Adolescent (SIA) est une condition débilitante qui peut avoir comme résultat une douleur importante, une altération du fonctionnement quotidien et une détérioration de la qualité de vie. Pour les patients qui ne répondent pas au traitement conservateur, la fusion vertébrale, en utilisant des greffes osseuses, est devenue un traitement de choix pour stabiliser la colonne. Des connaissances plus pointues à propos des facteurs impliqués dans l’ostéogénèse et la formation de l’os peuvent raccourcir le processus de guérison et permettre aux patients de réintégrer leurs activités dans un laps de temps plus court. Les plaquettes peuvent jouer un rôle important dans la première étape de la guérison des fractures car elles sont une source autologue de plusieurs facteurs de croissance qui soutiennent la prolifération et la différenciation des ostéoblastes in vivo et in vitro. Au cours des dernières années, plusieurs tentatives ont été réalisées afin de trouver des traitements additionnels pour : 1) Raccourcir le temps de guérison des fractures relativement long ; 2) Obtenir une plus courte période de convalescence pour les patients qui ont besoin de prothèses ; 3) Corriger plus facilement plusieurs maladies congénitales; 4) Améliorer le processus de fusion vertébrale et 5) Développer de nouvelles approches thérapeutiques, notamment au niveau des processus régularisant le remodelage osseux et la régénération des tissus osseux. Dans le cadre de la présente étude, j’ai étudié la contribution possible du facteur de croissance de l’insuline (IGF) et du facteur vasculaire endothélial de croissance (VEGF) sur la maturation de l’ostéoblaste scoliotique dans des cultures cellulaires in vitro et j’ai comparé les résultats avec celles obtenues dans les mêmes conditions mais en stimulant les ostéoblastes avec de la mélatonine. Cette étude préliminaire a été réalisée sur des échantillons d’os récoltés de quatre patients atteints par la Scoliose Idiopathique de l‘Adolescent (SIA), ainsi que sur des échantillons d’os issus de quatre sujets témoins (cas traumatiques). Les résultats montrent que l’IGFs et le VEGFs possèdent une action d’inhibition sur la prolifération d’ostéoblastes scoliotiques et non scoliotiques, et que cette action est proportionnelle à la concentration de ces facteurs. Les ostéoblastes scoliotiques tendent à avoir une prolifération cellulaire plus rapide et plus élevée que les témoins non scoliotiques. De façon générale les ostéoblastes provenant de patients scoliotiques ont une ostéogénèse in vitro plus accélérée que le sujet non scoliotique. De plus, il semble que la mélatonine joue un rôle physiologique dans la différenciation de l’ostéoblaste scoliotique et elle semble aider à avoir une différenciation plus précoce que chez les non traités. Les ostéoblastes scoliotiques expriment un défaut d’expression de l’IGF 1 et d’IGF 1R en présence de la mélatonine. En conclusion, le VEGF A et l’IGF 1 peuvent également promouvoir la différenciation et la prolifération des ostéoblastes humains scoliotiques en culture primaire. / Abstract: The Adolescent Idiopathic Scoliosis (AIS) is a debilitating condition and as a result often produces significant pain, impaired daily functioning and a deterioration of the quality of life. For patients who do not respond to conservative treatment, spinal fusion using bone grafts has become a treatment of choice to stabilize the spine. The more accurate knowledge of the factors involved in osteogenesis and the bone formation can shorten the healing process and reintegrate patients into their daily activities in a shorter period of time. Platelets can play an important role in the first stage of the healing of fractures and they are a source of several autologous growth factors that support the proliferation and differentiation of osteoblasts in vivo and in vitro. A wide variety of techniques and approaches have been investigated for performing spinal fusion, yet surgeons continue to investigate alternative methods with the goal of improving surgical outcome and minimizing morbidity. We can use these methods to: 1.Reduce the relatively long time needed for healing fractures 2. Patients with prosthesis could benefit of a shorter convalescent time 3. Several congenital diseases could be easier to correct and 4. We could stimulate the vertebral fusion 5. Develop new therapeutic techniques, including that of the processes regulating bone remodelling and regeneration of bone tissue. In the present study, we tried to find whether the insulin growth factor (IGF) and the vascular endothelial growth factor (VEGF) have an influence on the scoliotic osteoblasts in vitro cell cultures and we compared the results with those obtained in the same condition but by stimulating osteoblasts with melatonin. This preliminary study was performed on osteoblasts cultured from four patients affected by Adolescent Idiopathic Scoliosis (AIS) and four controls. In all cases of AIS, bone specimens were obtained from the vertebral body or spinous process (in accordance with the surgical procedure performed). Our results show that IGFs as well as VEGF have an inhibitive effect on the proliferation of scoliotic and non-scoliotic cells and the effect is proportional with the growth factor concentration. In general osteoblasts cultured from scoliotic patients have an in vitro osteogenesis quicker than the subject without scoliosis. Moreover, it appears that melatonin plays a physiological role in the differentiation of scoliotic osteoblasts and it appears to help differentiate earlier than in the untreated group. We found that the expression of IGF 1 and IGF 1R in scoliotic osteoblasts was impaired in the presence of melatonin. In conclusion, VEGF A and IGF both can influence the cell differentiation and proliferation of human scoliotic osteoblasts in primary cell culture.

Scoliose idiopathique de l’adolescent

facteurs de croissance

ostéoblaste

IGF

VEGF

mélatonine

Adolescent idiopathic scoliosis

growth factors

osteoblasts

IGF

VEGF

melatonin

The role of transcription factor Pitx1 and its regulation by hypoxia in Adolescent Idiopathic Scoliosis

Suvarnan, Lakshmi

06 1900

La scoliose idiopathique de l’adolescent (SIA) est définie comme une courbure de la colonne vertébrale supérieure à 10 degrés, qui est de cause inconnue et qui affecte de façon prépondérante les adolescents. Des études précédentes sur des modèles murins ont démontré une inactivation partielle du gène Pitx1. Cette inactivation partielle provoque une déformation spinale sévère lors du développement des souris Pitx1+/-, ce qui est grandement similaire au phénotype de la SIA. En se basant sur ces observations, nous postulons que la perte de fonction de Pitx1 pourrait avoir un rôle dans la SIA et pourrait être régulée par des mécanismes moléculaires spécifiques. En effet, des études faites sur l’expression de Pitx1 révèlent une perte de son expression dans les ostéoblastes dérivés de patients SIA au niveau de l’ARNm. Nous émettons l’hypothèse que la perte de Pitx1 dans la SIA pourrait être déclenchée par des facteurs hypoxiques puisqu’il est connu que Pitx1 est réprimé par l’hypoxie et que HIF-2 alpha est surexprimés dans les ostéoblastes des patients SIA même dans des conditions normoxiques. De plus, nous avons découvert une mutation dans le domaine ODD des HIF-1 alpha chez certains patients SIA (3,1%). Une fonction connue de ce domaine est de stabiliser et d’augmenter l’activité transcriptionnelle de HIF-1 alpha dans des conditions normoxiques. Nous avons confirmé, par la technique EMSA, l’existence d’un élément de réponse fonctionnel à l’hypoxie au niveau du promoteur de Pitx1. Cependant, des co-transfections avec des vecteurs d’expression pour HIF-1 alpha et HIF-2 alpha, en présence de leur sous-unité beta ARNT, ont conduit à une activation du promoteur de Pitx1 dans la lignée cellulaire MG-63 ainsi que dans les ostéoblastes des sujets contrôles. Il est intéressant de constater qu’aucune activité du promoteur de Pitx1 dans les ostéoblastes SIA n’a été observée, même après la co-expression de HIF-2 alpha et ARNT, confirmant le fait que l’expression de Pitx1 est abrogée dans la SIA. Dans l’ensemble, nos résultats démontrent un rôle important de Pitx1 dans la SIA et une possible régulation par des facteurs hypoxiques. / Adolescent Idiopathic Scoliosis is a lateral curvature of the spine greater than 10 degrees, with an unknown cause, affecting primarily adolescents. Previous mouse model studies showed that partial inactivation of Pitx1 gene resulted in the development of severe spinal deformities in Pitx1 +/- mice, which is strikingly similar to the AIS phenotype. Based on this observation, we postulated that loss of Pitx1 function might have a role in AIS and could be regulated through specific molecular mechanisms. Indeed, expression studies revealed a loss of Pitx1 expression in osteoblasts derived from AIS patients, at the mRNA level. We hypothesized that the loss of Pitx1 in AIS could be triggered by hypoxic factors, since Pitx1 is known to be repressed by hypoxia and that HIF-2 alpha was up regulated in AIS osteoblasts even under normoxic conditions. Also, we found a mutation in the ODD domain of HIF-1 alpha in some AIS patients (3.1%), which is known to stabilize and enhance HIF-1 alpha transcriptional activity in normoxic conditions. We confirmed through EMSA the existence of a functional hypoxia response element on Pitx1 promoter. However, co-transfection assays with HIF-1 alpha and HIF-2 alpha expression vectors in the presence of their beta subunit ARNT led to the activation of Pitx1 promoter in human osteoblast cell line MG-63 cells and osteoblasts from control subjects. Interestingly, no Pitx1 promoter activity was observed in AIS osteoblasts, even after the co expression of HIF2 alpha and ARNT, consolidating the fact that Pitx1 expression is abrogated in AIS. Taken together, our findings show an important role for Pitx1 in AIS and hypoxic factors could be one of its regulators.

SIA

Pitx1

Hypoxie

HIF-1a

HIF-2

ARNT

ODDD

Osteoblastes

Éléments de réponse à l'hypoxie

AIS

Hypoxia

Osteoblasts

Hypoxia response element

Artificial Extracellular Matrices with Oversulfated Glycosaminoglycan Derivatives Promote the Differentiation of Osteoblast-Precursor Cells and Premature Osteoblasts

Hempel, Ute, Preissler, Carolin, Vogel, Sarah, Möller, Stephanie, Hintze, Vera, Becher, Jana, Schnabelrauch, Matthias, Rauner, Martina, Hofbauer, Lorenz C., Dieter, Peter

07 May 2015

Sulfated glycosaminoglycans (GAG) are components of the bone marrow stem cell niche and to a minor extent of mature bone tissue with important functions in regulating stem cell lineage commitment and differentiation. We anticipated that artificial extracellular matrices (aECM) composed of collagen I and synthetically oversulfated GAG derivatives affect preferentially the differentiation of osteoblast-precursor cells and early osteoblasts. A set of gradually sulfated chondroitin sulfate and hyaluronan derivatives was used for the preparation of aECM. All these matrices were analysed with human bone marrow stromal cells to identify the most potent aECM and to determine the influence of the degree and position of sulfate groups and the kind of disaccharide units on the osteogenic differentiation. Oversulfated GAG derivatives with a sulfate group at the C-6 position of the N-acetylglycosamine revealed the most pronounced proosteogenic effect as determined by tissue nonspecific alkaline phosphatase activity and calcium deposition. A subset of the aECM was further analysed with different primary osteoblasts and cell lines reflecting different maturation stages to test whether the effect of sulfated GAG derivatives depends on the maturation status of the cells. It was shown that the proosteogenic effect of aECMwasmost prominent in early osteoblasts. [ABSTRACT FROM AUTHOR]

glycosaminoglycans

künstlich

extrazellulär

Matrix

GAG

Derivate

TU Dresden

Publikationsfonds

glycosaminoglycans

artificial extracellular matrices

Oversulfated

GAG

derivatives

Osteoblasts

Technical University Dresden

Publication funds

ddc:610

rvk:WE 2404

Synergistic Effect of Titanium Alloy and Collagen Type I on Cell Adhesion, Proliferation and Differentiation of Osteoblast-Like Cells

Röhlecke, Cora, Witt, Martin, Kasper, Michael, Schulze, E., Wolf, C., Hofer, A., Funk, Richard H. W.

04 March 2014

A number of studies have demonstrated the pivotal role of collagen in modulating cell growth and differentiation. In bone, where the extracellular matrix is composed of approximately 85% type I collagen, cellular interaction with matrix components has been shown to be important in the regulation of the osteoblast phenotype. Preservation or enhancement of normal osteoblast function and appositional bone formation after implant placement represents a strategy that can be useful for the purpose of improving osseointegration. In order to further improve biocompatibility, we combined two known favorable compounds, namely the titanium alloy, Ti6A14V, with type I collagen. We assessed the in vitro behavior of primary osteoblasts grown on both fibrillar collagen-coated and tropocollagen-coated Ti6A14V in comparison with uncoated titanium alloy, using an improved adsorption procedure. As parameters of biocompatibility, a variety of processes, including cell attachment, spreading, cytoskeletal organization, focal contact formation, proliferation and expression of a differentiated phenotype, were investigated. Our results demonstrated for the first time that in comparison to uncoated titanium alloy, collagen-coated alloy enhanced spreading and resulted in a more rapid formation of focal adhesions and their associated stress fibers. Growing on collagen-coated Ti6A14V, osteoblasts had a higher proliferative capacity and the intracellular expression of osteopontin was upregulated compared to uncoated titanium alloy. Type I collagen-coated titanium alloy exhibits favorable effects on the initial adhesion and growth activities of osteoblasts, which is encouraging for its potential use as bone graft material. Moreover, collagen type I may serve as an excellent biocompatible carrier for osteotropic factors such as cell adhesion molecules (e.g. fibronectin) or bone-specific growth factors. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Immunozytochemie

Osteoblasten

Titanium

Kollagen-Typ-I

Fokale Adhäsion

Ratte

Titanium

Osteoblasts

Collagen type I

Focal adhesions

Immunocytochemistry

Rat

ddc:610

rvk:XA 10000

Mediation of Osteoblast Responses to Titanium Roughness by Adsorbed Proteins

Wilson, Cameron

January 2005

Stable fixation of implants such as artificial teeth depends on the direct apposition of bone to the implanted material. While endosseous implants were traditionally allowed to "osseointegrate" over several months without carrying load, clinical and experimental data show that prostheses with roughened surfaces allow successful integration when subject to earlier loading and more challenging implant sites. However, to design implant surfaces for an optimal biological response requires an understanding of the mechanism by which roughened surfaces promote osseointegration. Research into this mechanism has, to date, focussed primarily on the response of osteoblastic cells to surface topography in vitro. While these have demonstrated some consistent trends in cell behaviour, the fundamental means by which cells sense and respond to roughness remain unclear. It has been suggested that cell responses to changes in topography may relate to differences in the proteins adsorbed from serum (in vitro). While experimental evidence indirectly suggests that physical features can affect protein adsorption, few studies have examined this with respect to surface roughness, particularly as a mediator of cell responses. To address this issue, cell culture and protein adsorption experiments were conducted on a limited range of surface textures. Titanium samples were ground to produce morphologically similar surfaces with three grades of roughness. A duplicate set of specimens were heated at 600°C for one hour, with the aim of masking potential variations in physicochemical properties with differing degrees of grinding. Osteoblast attachment and proliferation studies were conducted over a short time-frame of 48 hours or less, to highlight the effects of proteins adsorbed from serum rather than secreted by adherent cells. Gel electrophoresis provided a profile of the proteins adsorbed to each surface after 15 minutes, corresponding to the time by which the cells had settled onto the surface. Finally, confocal microscopy was used to examine cell morphology on each surface, and to visualize specific interactions between cellular structures and adsorbed adhesion-mediating proteins. Although the effects were inconsistent, attachment assays showed some indications that fewer cells attached in the first 90 minutes as roughness increased. This inverse cell number-roughness trend was significant at 48 hours; however, the variability in attachment assays prevented reliable separation of attachment and proliferation rate effects. While the reduction in cell number with increasing roughness is consistent with previous reports, it is typically observed at later time points, and thus may be increasingly confounded by contact inhibition and differentiation. Thermal oxidation of the titanium did not impact on osteoblast responses to roughness, although it significantly slowed cell proliferation. The latter result was unexpected on the basis of previous reports. One-dimensional gel electrophoresis revealed no significant differences in the composition of adsorbed layers with variations in roughness. However, as expected on account of wettability changes, the heat-treatment did correspond to significant changes in the adsorption profile. While this was not a highly sensitive analysis, it suggests that the cell responses to roughness changes were not governed by broadscale differences in the proteins initially available to adhering cells. In addition to the composition of the adsorbed layer, the distribution of proteins may also vary with topography. The immunofluorescence methods were not sufficiently sensitive to reveal the distribution of adsorbed adhesion proteins (vitronectin and fibronectin). However, the lack of clear labelling does suggest an absence of large accumulations due to specific topographic features. Further work is required to address this issue conclusively. Observations of cell morphology were consistent with widely-reported contact guidance phenomena on grooved surfaces, with elongation and alignment (with topography) increasing with groove depth. Cell elongation was also enhanced on the more hydrophilic, heat-treated titanium, but this effect diminished over time. Although increased elongation at 90 minutes corresponded to lower cell numbers at 48 hours, no causal relationship has yet been established.

Biomaterials

Cell attachment

Cell morphology

Cell proliferation

Cell spreading

Fibronectin

Heat treatment

Osteoblasts

Protein adsorption

Roughness

Surface topography

Thermal oxidation

Titanium

Vitronectin.

Επίδραση μηχανικού ερεθίσματος στην έκφραση μορίων προσκόλλησης ανθρώπινων οστεοβλαστών σε επίστρωση νανοσωλήνων άνθρακα / Influence of mechanical stimulation on expression of adhesion molecules of human osteoblasts cultured on carbon nanotubes substrate

Jumah, Bani Essa

11 July 2013

Με την ηλικία, νόσοι που σχετίζονται με δομικά ελαττώματα των οστών που οφείλονται σε κατάγματα ή εκφυλισμούς, αναμένονται να αυξηθούν σε συχνότητα. Επιπλέον, η αύξηση του προσδόκιμου ζωής επιβάλλει τη χρήση βελτιωμένων συνθετικών υλικών για την αντικατάσταση νοσούντων οστών, για παράδειγμα κατά τη χρήση μεταλλικών ράβδων σε περιπτώσεις βλαβών μη-ένωσης και στις χειρουργικές επεμβάσεις αντικατάστασης ισχίου. Τα υπάρχοντα υλικά σχετίζονται με υπο-βέλτιστη οστεοενσωμάτωση και προβληματική μακροπρόθεσμη επιβίωση του σύνθετου εμφυτεύματος. Για το λόγο αυτό, η βελτίωση των υλικών επικάλυψης και των μηχανικών ιδιοτήτων των νέων, κυτταρικά συμβατών, συστατικών είναι επιτακτική. Για να αντιμετωπιστεί αυτό το πρόβλημα, υλικά νέας γενιάς είναι διαθέσιμα, ενδεχομένως με καλύτερες ιδιότητες ως υπόστρωμα προσκόλλησης για τα κύτταρα των οστών. Ο σκοπός της παρούσας εργασίας ήταν να εκτιμηθεί η ικανότητα ενός νέου, ειδικά κατασκευασμένου υλικού απο νανοσωλήνες άνθρακα ως προς τη διατήρηση της σωστής έκφρασης των χαρακτηριστικών γονιδίων των οστεοβλαστών, με έμφαση στην έκφραση των γονιδίων που εμπλέκονται στις αλληλεπιδράσεις οστεοβλαστών-υποστρώματος και έτσι προωθούν την σταθερή προσκόλληση των κυττάρων στο υπόστρωμα. Παράλληλα, ερευνήσαμε και την επίδραση της μηχανικής καταπόνησης στην έκφραση των γονιδίων αυτών σε κύτταρα που καλλιεργήθηκαν σε νανοσωλήνες άνθρακα. Χρησιμοποιήσαμε δύο ανεξάρτητες απομονώσεις οστεοβλαστών διαφοροποιημένων από ανθρώπινα μεσεγχυματικά βλαστικά κύτταρα μυελού των οστών, δηλαδή προχωρήσαμε σε δύο ανεξάρτητα πειράματα. Και στα δύο, για να γίνει ο πειραματισμός όσο εγγύτερα στις πραγματικές συνθήκες, καλλιεργήσαμε τους οστεοβλάστες υπο στατικές συνθήκες όσο και υπό συνθήκες μηχανικής καταπόνησης, για την προσομοίωση "in vivo" συνθηκών, και συγκρίθηκε η γονιδιακή έκφραση οστεοβλαστών που καλλιεργήθηκαν σε πλαστικό έναντι επιφανειών επικαλυμμένων με νανοσωλήνες άνθρακα. Απομονώσαμε το RNA από τους οστεοβλάστες μετά από την καλλιέργειά τους για 3 και 24 ώρες και προσδιορίσαμε, χρησιμοποιώντας την τεχνική real time RΤ-PCR, την έκφραση των ακόλουθων γονιδίων σε επίπεδο mRNA: κολλαγόνο-α1, αλκαλική φωσφατάση, οστεοποντίνη, βινκουλίνη και ιντεγκρίνες α4, αV, β1 και β3. Συνολικά, τα αποτελέσματα της ανάλυσης του κυτταρικού mRNA έδειξαν ότι η γονιδιακή έκφραση μετά από 3 ώρες καλλιέργειας είναι πολύ μεταβλητή, και οριστικά συμπεράσματα δεν θα μπορούσαν να εξαχθούν. Ωστόσο, αφού δίνεται η ευκαιρία στα κύτταρα να προσκολληθούν σταθερά, στις 24 ώρες, κατέστη σαφές ότι: α) η κυτταρική ταυτότητα των διαφοροποιημένων οστεοβλαστών διατηρείται, με βάση το γεγονός ότι η έκφραση αυτών των χαρακτηριστικών γονιδίων, που σχετίζονται με την προσκόλληση, συντηρείται σωστά, αν και σε διάφορα επίπεδα, β) σε στατικές συνθήκες, το επίπεδο της έκφρασης των εξετασθέντων γονιδίων είναι κατά τι χαμηλότερο σε οστεοβλάστες που καλλιεργηθήκαν σε επικαλυμμένη επιφάνεια με νανοσωλήνες άνθρακα σε σύγκριση με τα κύτταρα που καλλιεργηθήκαν σε πλαστικό, και γ) σε σύγκριση με τις στατικές συνθήκες, το μηχανικό ερέθισμα ενισχύει την έκφραση αυτών των γονιδίων οστεοβλαστών όταν καλλιεργούνται σε νανοσωλήνες άνθρακα, για την επίτευξη υψηλών επιπέδων mRNA έκφρασης των γονιδίων κυτταρικής προσκόλλησης. Τα αποτελέσματα της τελευταίας ανάλυσης της γονιδιακής έκφρασης είναι επίσης συμβατά με τις συνολικές ποσότητες RNA που λαμβάνονται, υποστηρίζοντας έμμεσα τη σταθερή προσκόλληση και επιβίωση των οστεοβλαστών σε νανοσωλήνες άνθρακα υπο συνθήκες μηχανικής καταπόνησης. Συμπεραίνουμε λοιπόν ότι το νέο υπόστρωμα από νανοσωλήνες άνθρακα που αναλύθηκε σε μηχανικές συνθήκες διέγερσης που προσομοιάζουν, κατά το δυνατόν, συνθήκες καταπόνησης in vivo, συνιστά ένα κατάλληλο κυτταρικό υπόστρωμα, συμβατό με την επιβίωση των οστεοβλαστών, τη διαφοροποίηση, την ανάπτυξη και την σταθερή προσκόλλησή τους στο υπόστρωμα νανοσωλήνων. Η εργασία αυτή υποστηρίζει την πιθανότητα της χρήσης αυτών των νέων υλικών στο μέλλον για την επικάλυψη σκελετικών προσθέσεων, με σκοπό την απόκτηση βέλτιστης οστεοενσωμάτωσης. / As population ages, diseases related to bone structural defects due to fracture or degeneration are expected to increase in frequency. In addition, the increase in life expectancy necessitates better composite materials for replacement of diseased/fractured bones, for example during the use of metal rods for non-union defects and in hip replacement surgery. The existing materials are associated with sub-optimal osseointegration and problematic long-term survival of the composite graft. For this reason, improvement of coating materials and engineering of novel cell-compatible components is imperative. To address this problem, new-generation materials are available, with possibly better bone cell adherence properties. The Aim of this work was to evaluate the ability of a novel, specially-constructed carbon nanotube material to sustain proper expression of characteristic osteoblast genes, with emphasis on the expression of genes that are functionally involved in osteoblast-matrix interactions and promote firm cell adherence to substrate. We used two independent isolates of osteoblasts differentiated from human bone marrow mesenchymal stem cells, ie we proceeded to two independent experimental runs. In both, to make the experimentation more context-relevant, we grew the osteoblasts in static as well as under mechanical strain, to simulate in vivo conditions, and also compared gene expression in osteoblasts grown on plastic versus carbon nanotube-coated surface. We isolated RNA from the osteoblasts at 3 hours and 24 hours after seeding them on the culture vessels and determined, using real-time RT-PCR techniques, the level of expression of the following genes at the mRNA level: α1-collagen, alkaline phosphatase, osteopontin, vinculin, and integrins α4, αV, β1 and β3. All in all, the results on cell mRNA analysis indicated that gene expression at 3h post-plating is too variable and no firm conclusions could be drawn. However, once the cells are given a chance to firmly adhere, at 24h, it became clear that: a) osteoblast cell identity is maintained, based on the fact that the expression of these characteristic matrix- and adhesion-related genes is properly maintained, albeit in various levels, b) in static conditions, the level of expression of the examined genes is lower in cells grown on nanotube-coated surface compared to cells grown on plastic, and c) in comparison to static conditions, mechanical stimulation enhances expression of these genes in osteoblasts grown on nanotubes, to attain robust levels of cell adherence gene mRNA expression. The results of the latter gene expression analysis are also compatible with total RNA quantities obtained, indirectly arguing firm osteoblast adhesion/survival on nanotubes under mechanical strain conditions. We therefore conclude that the novel carbon nanotubes assayed herein in lifelike mechanical stimulation conditions, constitute an appropriate cell-bearing surface, compatible with osteoblast survival, differentiation, growth and firm adherence to substrate. This work raises the possibility of using this novel material in the future to coat skeletal prostheses, in order to obtain improved osseointegration.

Νανοσωλήνες άνθρακα

Μόρια προσκόλλησης

Οστεοβλάστες

Υπόστρωμα

Μηχανική καταπόνηση

617.471 059 2

Carbon nanotubes

Real time RT-PCR (qPCR)

Adhesion molecules

Osteoblasts

Mechanical stimulation

Mechanisms Contributing to Transcriptional Regulation and Chromatin Remodeling of the Bone Specific Osteocalcin Gene

Gutierrez Gallegos, Soraya Elisa

20 November 2002

Activation of tissue-specific genes is a tightly controlled process that normally involves the combined action of several transcription factors and transcriptional co-regulators. The bone-specific osteoca1cin gene (OC) has been used as a prototype to study both tissue-specific and hormonal responsiveness. In this study we have examined the role of Runx2, VDR and C/EBP factors in the regulation of OC gene transcription. Contributions of the Runx and VDRE motifs to OC promoter activity were addressed by introducing point mutations within the context of the rat (-1.1 kb) osteocalcin promoter fused to a CAT-reporter gene. The functional significance of these mutations was assayed following transient transfection and after genomic integration in ROS 17/2.8 osteoblastic cell lines. Furthermore, we tested the effect of these mutations on the chromatin organization of the OC promoter. Our data show that all three Runx sites are required for maximal activation of the OC promoter and that the distal sites contribute significantly to the basal activity. Strikingly, mutation of the three Runx sites abrogates responsiveness of the OC promoter to vitamin D; this loss is also observed when only the Runx sites flanking the VDRE are mutated. Chromatin changes that result in the appearance of DNase I hypersensitive sites during activation of the OC gene are well documented. Mutation of the three Runx sites results in altered chromatin structure as reflected by absence of DNase I hypersensitive sites at the vitamin D response element and over the proximal, tissue-specific basal promoter. These data are consistent with the critical role of Runx2 in osteoblast maturation and bone development. Mutation of the VDRE resulted in a complete loss of vitamin D responsiveness; however, this mutant promoter exhibited increased basal activity. The two DNase I hypersensitive sites characteristic of the transcriptionally active OC gene in osteoblastics cells were not altered upon mutation of the VDRE element, although restriction enzyme accessibility in the proximal promoter region was decreased. We also found an increased level of histone H3 acetylation at the VDRE mutant promoter in comparison to the endogenous gene. Thus binding of VDR to OC promoter is required to achieve a normal transcriptional regulation and chromatin structure of the OC gene. Although Runx2 is considered a master gene for bone development and osteoblast differentiation, it is noteworthy that osteoblast-specific transcription of the rat OC promoter occurs even in the absence of Runx sites. Therefore, other transcription factor(s) should be able to drive OC expression. We characterized a C/EBP enhancer element in the proximal promoter of the rat osteoca1cin gene that resides in close proximity to a Runx element, essential for tissue-specific activation. We find that C/EBPβ or δ and Runx2 factors interact together in a synergistic manner to enhance OC transcription in cell culture systems. Mutational analysis demonstrated that this synergism is mediated through the C/EBP responsive element in the OC promoter and requires a direct interaction between Runx2 and C/EBPβ or δ. Taken together, our findings strongly support a mechanism in which combinatorial interaction of Runx2, VDR, C/EBPβ or δ and probably other transcription factors are needed for regulating OC expression. In this process Runx factors not only act as simple transcriptional trans activators but also by facilitating modifications in promoter architecture and maintaining an active conformation of the target gene promoter.

Bone Development

Transcription

Genetic

Transcription Factors

Chromatin

Osteoblasts

Osteocalcin

CCAAT-Enhancer-Binding Proteins

Core Binding Factor Alpha 1 Subunit

Cells

Genetic Phenomena

Polycyclic Compounds

Tissues

Caracteriza??o de superf?cies de tit?nio modificado por oxida??o ? plasma

Silva, Marco Aur?lio Medeiros da

08 October 2013

Made available in DSpace on 2014-12-17T14:13:53Z (GMT). No. of bitstreams: 1 MarcoAMS_TESE.pdf: 4598195 bytes, checksum: 64f542a86c9a48f91e63fe82fc791428 (MD5) Previous issue date: 2013-10-08 / Recent years have seen a significant growth in surface modifications in titanium implants, resulting in shorter healing times in regions with low bone density. Among the different techniques, subtraction by chemical agents to increase oxidation has been applied for surface treatment of dental implants. However, this technique is generally unable to remove undesirable oxides, formed spontaneously during machining of titanium parts, raising costs due to additional decontamination stages. In order to solve this problem, the present study used plasma as an energy source to both remove these oxides and oxidize the titanium surface. In this respect, Ti disks were treated by hollow cathode discharge, using a variable DC power supply and vacuum system. Samples were previously submitted to a cleaning process using an atmosphere of Ar, H2 and a mixture of both, for 20 and 60 min. The most efficient cleaning condition was used for oxidation in a mixture of argon (60%) and oxygen (40%) until reaching a pressure of 2.2 mbar for 60 min at 500?C. Surfaces were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), atomic force microscopy (AFM), adhesion and cell proliferation. SEM showed less cell spreading and a larger number of projections orfilopodia in the treated samples compared to the control sample. AFM revealed surface defects in the treated samples, with varied geometry between peaks and valleys. Biological assays showed no significant difference in cell adhesion between treated surfaces and the control. With respect to cell proliferation, the treated surface exhibited improved performance when compared to the control sample. We concluded that the process was efficient in removing primary oxides as well as in oxidizing titanium surfaces / Nos ?ltimos anos, tem-se observado um crescimento nas modifica??es superficiais em implantes de tit?nio, que abrevia o tempo de cicatriza??o em regi?es com baixa densidade ?ssea. Dentre as diferentes t?cnicas, a de subtra??o por agentes qu?micos para aumentar a oxida??o vem sendo aplicada para tratamentos superficiais de implantes dentais. Por?m esta t?cnica geralmente n?o propicia a remo??o dos ?xidos indesej?veis formados espontaneamente durante a usinagem de pe?as de tit?nio, aumentando assim o custo, por exigir etapas adicionais para a descontamina??o. Com o objetivo de solucionar esse problema, utilizou-se neste trabalho o plasma como fonte energ?tica, tanto na remo??o desses ?xidos quanto como na oxida??o de superf?cie de tit?nio. Neste sentido, discos de Ti foram tratados em descarga por c?todo oco, usando-se uma fonte de tens?o DC vari?vel e sistema de v?cuo. Previamente, as amostras foram submetidas a processo de limpeza, utilizando-se atmosfera de Ar, H2 e mistura, em tempos de 20 e 60 min. A condi??o de limpeza mais eficaz foi utilizada para a oxida??o, numa mistura de arg?nio (60%) e oxig?nio (40%), at? atingir a press?o de 2,2 mbar durante 60 min, a 500?C. As superf?cies foram caracterizadas por microscopia eletr?nica de varredura (MEV), difra??o de raios X (DRX), microscopia por for?a at?mica (AFM), ades?o e prolifera??o celular. Na microscopia eletr?nica de varredura (MEV), observou-se um menor espraiamento celular e uma maior quantidade de proje??es ou filop?dios nas amostras tratadas, em compara??o ? amostra-controle. A microscopia de for?a at?mica (AFM) mostrou, nas amostras tratadas, defeitos nas superf?cies com geometria variada para picos e vales. Nos ensaios biol?gicos, houve diferen?as significativas na ades?o e prolifera??o celular, em que a superf?cie tratada apresentou um maior desempenho quando comparada com a amostra-controle.Concluiu-se que o processo foi eficiente tanto na remo??o dos ?xidos prim?rios quanto na oxida??o da superf?cie do tit?nio

CNPQ::CIENCIAS DA SAUDE