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Mechanotransduction impairment in adolescent idiopathic scoliosisOliazadeh, Niaz 04 1900 (has links)
La scoliose idiopathique de l'adolescent (SIA) est une courbure rachidienne tridimensionnelle de plus de 10° qui affecte 4% de la population pédiatrique. L’hétérogénéité de ce désordre musculo-squelettique complexe explique notre incompréhension des causes de la SIA. Néanmoins, plusieurs facteurs biologiques ont été associées à son étiologie. Les réponses osseuses aux stimulations mécaniques normalement appliquées sont nécessaire au fonctionnement optimal du système squelettique. Cependant, la mécanotransduction des tissus musculo-squelettiques dans la SIA est méconnu.
L'objectif principal de cette thèse était d'étudier l'apport de la mécanotransduction dans l'étiologie de la SIA au niveau cellulaire et moléculaire. Nous avons étudié les ostéoblastes des patients atteints de SIA et des sujets témoins. L'induction mécanique a été réalisée à l'aide d'une application d'écoulement de fluide oscillatoire. L’immunofluorescence (IF) et la microscopie confocale ont été utilisées pour évaluer les cils, l'actine et les tests fonctionnels. Les modifications moléculaires ont été étudiés par qPCR ou ELISA. Un séquençage d'exome entier sur une cohorte de 73 SIA et 70 sujets témoins appariés a été fait, pour vérifier l'hypothèse que l'accumulation de variants rares dans des gènes impliqués dans la mécanotranduction cellulaire contribueraient à l'étiologie de la SIA.
Nous avons découvert une élongation anormale des cils des ostéoblastes SIA, qui étaient significativement plus longs que ceux des sujets témoins dans des conditions de ciliogenèse. Les cellules SIA soumises à une application d'écoulement de fluide, n'ont pas été capable d'ajuster la longueur de leurs cils proportionnellement à la force appliquée. La réponse de l'ajustement de la longueur des cils était significativement différente de celle des ostéoblastes témoins, par des stimulations à court et à long terme.. L'expression des facteurs ostéogéniques était significativement réduite dans les ostéoblastes SIA, suggérant une diminution de la mécanosensibilité. De plus, l'analyse transcriptomique en réponse aux forces appliquées a révélé une altération de l'expression des gènes impliqués dans la voie canonique de Wnt. L'augmentation de la sécrétion du facteur VEGF-A en réponse aux forces appliquées dans les ostéoblastes témoins n'a pas été détectée dans les ostéoblastes SIA. Notre analyse SKAT-O des données du séquençage d’exomes entiers a confirmé l’accumulation de variants rares dans la SIA au niveau de gènes associés à la mécanotransduction cellulaire. Les conséquences de ces anomalies de mécanotransduction ont été étudié par des études cellulaires fonctionnelles, démontrant que les ostéoblastes SIA n’ont pas réussi à se positionner ni à s’allonger proportionnellement au flux bidirectionnel appliqué. Le réarrangement des filaments d'actine induit par l’application d’un flux a été compromis dans la SIA. . Enfin, il a été démontré que le flux de fluide avait un effet inhibiteur sur leur migration.
Nos données suggèrent une mécanotransduction altérée dans les ostéoblastes SIA affectant les cils, les voies moléculaires de signalisation, le cytosquelette et le comportement de la cellule en réponse à l'écoulement appliqué. La réponse cellulaire à ces stimulations joue un rôle dans la structure, la force, la forme et le fonctionnement du système squelettique. Etudier le profil de réponse altérée des cellules osseuses scoliotiques peut mener à la conception des approches thérapeutiques plus efficaces / Adolescent idiopathic scoliosis (AIS) is a three-dimensional spinal curvature that affects up to 4% of children. As a complex disorder, the cause of AIS is still poorly understood. However, multiple categories of biological factors have been found to be associated with its etiology. The role of biomechanics has been acknowledged by clinicians both in the description of deformity and in relation to bracing treatments. Bone responses to routinely applied forces are an important part in a tightly regulated network that is necessary for the optimal function of the skeletal system. However, little is known about the mechanotransduction of musculoskeletal tissues in AIS.
The main goal of this dissertation was to investigate the contribution of mechanotransduction in the etiology of AIS from a cellular-molecular aspect. We studied primary osteoblasts obtained intraoperatively from AIS patients and compared them to samples from trauma cases as controls. Fluid flow application was used for mechanical induction. Immunofluorescence staining, and confocal microscopy was used to assess cilia, actin and cellular tests. Molecular changes were followed using RT-PCR or ELISA. We also performed whole exome sequencing (WES) to test the hypothesis that rare variants accumulation in genes involved in cellular mechanotransduction could contribute to AIS etiology.
We found an abnormal cilia elongation among AIS osteoblasts, which grew significantly longer than controls. AIS cells after fluid flow application failed to adjust their cilia length in proportion to the applied force. Under both short- and long-term flow applications, their cilia length adjustment was significantly different from controls. Notably, the elevation in the expression of osteogenic factors, that was normally observed with control osteoblasts, was significantly reduced in AIS osteoblasts, suggesting a decrease in their mechanosensitivity. Moreover, transcriptomic analysis following the applied forces revealed an altered expression of genes involved in the Wnt canonical pathway. Strain induced increase in secreted VEGF-A in control osteoblasts was not detected in AIS flow-conditioned media. At the genomic level, our SKAT-O analysis of the WES data also supported the involvement of heterogenous defects in genes pertaining to the cellular mechanotransduction machinery. We tested the consequence of these mechanotransduction abnormalities in a series of functional cellular studies. As expected and unlike controls, AIS osteoblasts failed to position or elongate themselves in proportion to the bidirectional applied flow. The strain-induced rearrangement of actin filaments was compromised in AIS osteoblasts. Finally, fluid flow showed to have an inhibitory effect on their migration contrasting with control cells that migrated significantly faster under flow.
In summary, our data strongly suggest an impaired mechanotransduction in AIS osteoblasts that affect cilia, downstream signaling molecular pathways, cytoskeleton and finally the behaviour of the whole cell in response to flow. Fluid flow is one of the main mechanical forces applied physiologically to the bone cells. Cellular responses to these stimulations play a critical role in the structure, strength, shape and optimal performance of the skeletal system. Mapping the impaired profile response of scoliotic bone cells can help in designing more efficient therapeutic approaches or explaining the mechanisms behind less than optimal bracing outcomes.
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Collagen Type I Prevents Glyoxal-Induced Apoptosis in Osteoblastic Cells Cultured on Titanium AlloyTippelt, Sonja, Ma, C., Witt, Martin, Bierbaum, Susanne, Funk, Richard H. W. January 2004 (has links)
Advanced glycation end products (AGEs) irreversibly cross-link proteins with sugars and accumulate at a higher age and in diabetes, processes which can interfere with the integration of implants into the tissue. Glyoxal is a highly reactive glycating agent involved in the formation of AGEs and is known to induce apoptosis, as revealed by the upregulation of caspase-3 and fractin (caspase-3 being a key enzyme activated during the late stage of apoptosis and fractin being a caspase-cleaved actin fragment). In this study, we investigated the influence of collagen type I coating on the cytotoxic effect of glyoxal on rat calvarial osteoblastic cells and on human osteosarcoma cells (Saos-2) grown on titanium alloy, Ti6Al4V. Activation of caspase-3 and fractin was measured by counting immunohistochemically stained cells and by flow cytometry with propidium iodide (detection of the apoptosis indicating a sub-G1 peak). Our results showed an increased number of apoptotic osteoblasts after incubation with glyoxal on Ti6Al4V discs. However, the number of apoptotic cells on collagen-coated titanium was significantly smaller than on uncoated titanium after the same treatment. The present findings demonstrate that osteoblasts treated with glyoxal undergo apoptosis, whereas collagen type I coating of titanium alloys (used for implants) has an antiapoptotic function. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Impact of the Maturation Status of Osteoblasts on Their Hematopoietic Regulatory ActivityAlsheikh, Manal January 2017 (has links)
Osteoblasts (OST) provide strong intrinsic growth modulatory activities on hematopoietic stem and progenitor cells via different mechanisms that include secretion of growth factors, and cellular interaction. Previously we showed that medium conditioned by mesenchymal stromal cell (MSC)-derived osteoblasts (M-OST) improve the expansion of cord blood (CB) CD34+ cells. I hypothesize that the hematopoietic supporting activity of M-OST would vary as a function of their maturation. This was tested by producing osteoblast conditioned media (OCM) from M-OST at distinct stages of maturation, and testing their growth regulatory activities in CB CD34+ cell cultures. My results showed that some of the growth promoting activity of OCM on CB cells are not dependent on the maturation status, while others are and those are largely independent of Notch signalling. In conclusion, these results provide further evidence that osteoblasts release factors that can promote the growth of immature CB progenitors in a Notch-independent way.
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Kalirin : novel role in osteocyte functionWayakanon, Kornchanok January 2013 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Communication between bone cells is important for the maintenance of bone mass. Although osteocytes are deeply embedded within the mineralized matrix, they are essential for the regulation of osteoblast and osteoclast functions. However, the intracellular proteins that control the morphology and function of osteocytes, and their ability to communicate with other bone cells are still unknown. Kalirin is a novel multi-domain GTP exchange factor (GEF) protein that activates the RhoGTPases. Recently, we found that 14 week old female Kalirin knockout (Kal-KO) mice exhibit a 45% decrease in trabecular bone density and have significantly lower cortical area, perimeter, thickness and polar cross-sectional moment of inertia (-12.6%, -7.2%, -7.6% and -21.9%, respectively) than WT mice. Kalirin was found to be expressed in osteoclasts and osteoblasts but its expression and function in osteocytes is currently unclear. We examined the role of Kalirin on the morphology and function of osteocytes. Primary osteocytes were isolated by sequential collagenase digestions from long bones (femurs and tibias) of 10-week old WT and Kal-KO mice. Immunofluorescent staining revealed Kalirin was localized to the perinuclear region of primary osteocytes and MLO-Y4 cells, and was detected along the cytoplasmic processes of primary osteocytes. We also examined primary osteocytes isolated from the long bones of Kal-KO and WT mice for changes in the length and number of cytoplasmic processes. Kal-KO osteocytes were found to express significantly fewer cytoplasmic processes per cell (3.3±0.21) than WT osteocytes (4.7±0.3). In addition, the cytoplasmic processes of Kal-KO osteocytes were shorter (79.5±4.6 µm) than those observed for WT osteocytes (85.4±3.6 µm) (p <0.01). Quantitative PCR revealed the expression of mRNA for the three major Kalirin isoforms (Kal-7, Kal-9, Kal-12) in primary osteocytes and in MLO-Y4 cells. Moreover, the mRNA levels of osteoprotegerin (OPG) and SOST, which are important for controlling osteoclast differentiation and Wnt signaling leading to bone formation, respectively, were reduced in Kal-KO osteocytes. Next, the role of Kalirin in osteocyte morphology and function was further examined. Treatment of MLO-Y4 cells for 5 days with nerve growth factor, which is known to activate Kalirin in neurons, or over-expression of the Ser-Thr kinase domain of Kal-12, promoted cytoplasmic process elongation and upregulated phosphorylated ERK and RhoA levels. Together, these results suggest that Kalirin controls osteocyte morphology and function in part by regulating cytoskeletal remodeling and the activity of ERK and RhoA. Furthermore, Kalirin may control the bone remodeling cycle by regulating osteocyte signaling to osteoclasts and osteoblasts.
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The effects of electromagnetic wave stimulation (EMS) on osteoblast differentiation and activityPauly, Katherine L. 06 1900 (has links)
Indiana University School of Dentistry / Introduction: The goal of nonsurgical root canal therapy is to reduce the bacterial load within an infected root canal system, and the subsequent objective is to prevent or treat apical periodontitis. Clinical studies have shown more expedient healing of apical periodontitis treated with electromagnetic wave stimulation (EMS) as compared to apical periodontitis not treated with EMS. Stimulation of osteoblasts and growth factors has been shown when EMS was applied to rat calvaria, resulting in increased bone healing.
Objective: The purpose of this vitro study was to evaluate the effects of EMS on the proliferation and differentiation of osteoblasts. Using primary neonatal calvaria osteoblast-lineage cells, the effects of different EMS regimens on proliferation, alkaline phosphatase (ALP) activity, and mineral deposition were determined.
Materials and Methods: EMS regimen included currents of 0mA, 0.1mA, 1mA, and 10mA delivered for five consecutive 1s pulses per day for one, two, and three days. Cell proliferation was assayed after 1 or 2 days using an MTS assay. Alkaline phosphatase activity and mineral deposition were assayed after culturing the cells in osteogenic media containing ascorbic acid and -glycerol phosphate for 7 days. Comparisons were performed using analysis of variance, with a 5% significance level.
Results: There was no statistically significant differences noted in MTS proliferation and mineral deposition between the experiment EMS treatment groups of 0.1, 1.0, and 10.0 mA compared to the control group of 0 mA current on calvaria-derived osteoblast. While there were no statistically significant differences noted in ALP activity in the 0.1, and 1.0 mA EMS groups, compared to 0 mA control, alkaline phosphatase activity was significantly increased in the 10 mA EMS group.
Conclusion: There was no significant differences in MTS proliferation and mineral deposition of the EMS group compared to the control group. However, 10 mA EMS favored increased ALP activity suggesting EMS can promote matrix maturation by osteoblasts. Additional in vitro experimental studies, including different stem cell populations, culture duration and EMS treatment regimens are needed to understand the mechanism of action of EMS for future applications in regenerative endodontics.
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Identification of a putative chondroblast-like progenitor in the murine cranial mesenchymeAttardi, Andrea 18 August 2022 (has links)
Bones are essential vertebrate structures that arise during embryonic development from mesenchymal condensations. In the skull vault, bones arise from condensations above the eye, which later expand to cover the brain. Contrarily to most bones in the axial skeleton, which develop through an intermediate cartilage template, the skull vault develops from the direct differentiation of mesenchymal progenitors into bone cells, or osteoblasts. The molecular details of this process have however remained elusive, since systems allowing the dynamical observation of cells while they undergobone differentiation have been lacking. Recent data in the Tabler lab, acquired by imaging skull caps ex vivo, has uncovered that differentiation takes place during expansion stages, and that a progressive wave of differentiation underlies the presence of intermediate states between progenitors and osteoblasts. In this thesis, we focused on the cranial mesenchyme to study the differentiation trajectory of skull bone progenitors at single cell resolution. By harnessing single cell RNA-Sequencing, we elucidated the heterogeneity of cells in the cranial mesenchyme, describing in molecular terms meningeal, dermal, osteoblastic and progenitor populations. By modelling dynamics from single cell RNA-Seq data, we inferred that a population expressing intermediate levels of cartilage specific genes, such as Col2a1, underlies differentiation towards dermal, meningeal and bone fate. Using single cell resolution in situ RNA hybridisation, we mapped the anatomical location of progenitors in a layer between the meninges and the bone. To better understand the relationship between the phenotype of these progenitors and differentiated cartilage, we examined the presence of cartilage-like ECM in the tissue. Finally, we asked whether similar progenitors may be present in other intramembranous bones outside the skull by re-applying these tools on the clavicle. Taken together, our data lead us to hypothesise a mechanism for differentiation of the cranial mesenchyme, which can explain previous phenotypes reported in the literature and supports a role for cartilage-like cells in intramembranous ossification.
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Effects of strontium on osteogenic capacity and proliferation of human periodontal ligament cells and osteoblastsAidoukovitch, Alexandra January 2015 (has links)
Strontium (Sr2+) är det aktiva ämnet i läkemedel som används för att reducera frakturrisken hos patienter som lider av osteoporos. På senare tid har Sr2+ kombinerats med olika biomaterial i syfte att gynna benbildning, emellertid är ämnet vagt studerat avseende effekten på parodontala vävnader. Trots omfattande användning, är verkningsmekanismer av Sr2+ inte helt klarlagda. Denna studie syftar därmed till att utvärdera effekten av Sr2+ på humana parodontalligament-celler (PDL-celler) och osteoblaster avseende proliferation och osteogen aktivitet. Odlade humana PDL celler och osteoblastcellinjerna MG63 och hFOB 1.19 behandlades med SrCl2 (0,1-10 mM) eller vehikel under 72 h. Manuell cellräkning utfördes med en Bürker kammare. Det totala proteininnehållet fastställdes med en kolorimetrisk mätning genom användning av Bio-Rad proteinanalys. Aktiviteten av alkaliskt fosfatas bestämdes enzymatiskt och normaliserades till totalt proteininnehåll. SrCl2 hade ingen signifikant effekt på PDL celler (p> 0.05), däremot observerades en tendens till inducerade osteoblastiska egenskaper. I motsats till det, ökade 5 mM SrCl2 den totala proteinhalten i MG63 celler med 37% (p <0,01) jämfört med vehikel, medan en lägre koncentration (0,1 mM) inte hade någon påverkan. 5 mM SrCl2 ökade MG63 cellantalet med 38% (p <0,001), medan en högre koncentration (10 mM) inte uppvisade en signifikant ökad effekt jämfört med 5 mM (+54%, jämfört med vehikel, p<0.05). Resultaten visar att 72 h administrering av ≥ 5 mM SrCl2 ger en pro-proliferativ effekt på humana osteoblastliknande MG63 celler och uppvisar en tendens till att stimulera osteogena egenskaper hos primära humana PDL-celler. / Strontium (Sr2+) is the active substance of pharmaceuticals used for reducing fracture risk in osteoporotic patients. Lately, Sr2+ is combined with biomaterials to enhance osteogenesis, which has been vaguely studied considering periodontal tissue regeneration. Despite extensive use, the mechanisms of action of Sr2+ are not fully understood. The present study assesses the impact of Sr2+ on primary human periodontal ligament cells (PDL cells) and human osteoblasts in regard to proliferation and pro-osteogenic activity. Cultured human PDL cells and osteoblast cell lines MG63 and hFOB 1.19 were treated with SrCl2 (0.1-10 mM) or vehicle for 72 h. Cells were counted manually using a Bürker chamber. Total protein content was determined by colorimetric analysis using Bio-Rad protein assay. Alkaline phosphatase activity was determined enzymatically and normalized to total protein content. SrCl2 had no significant effect on PDL cells (p>0.05), but a tendency towards induced osteogenic characteristics was observed. In contrast, 5 mM SrCl2 enhanced total MG63 cell protein content by 37% (p<0.01), compared to vehicle, whereas a lower concentration (0.1 mM) did not. 5 mM SrCl2 increased MG63 cell number by 38% (p<0.001), while a higher concentration (10 mM) did not have a significant additional effect over the 5 mM (+54%, compared to vehicle, p<0.05). The results demonstrate that 72 h administration of ≥ 5 mM SrCl2 exerts a pro-proliferative effect on human osteoblast-like MG63 cells and display a tendency to induce osteogenic characteristics in primary human PDL cells.
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Étude des récepteurs aux estrogènes dans les ostéoblastes de patients atteints de Scoliose Idiopathique de l'AdolescentLeboeuf, Dominique 11 1900 (has links)
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.
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L’effet des différents facteurs de croissance sur la viabilité et la prolifération des ostéoblastes scoliotiquesCirco, Alin B. 04 1900 (has links)
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.
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The role of transcription factor Pitx1 and its regulation by hypoxia in Adolescent Idiopathic ScoliosisSuvarnan, Lakshmi 06 1900 (has links)
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.
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