Marcadores da diferenciação osteoblástica em culturas de células crescidas sobre titânio e expostas a coquetel de fatores de crescimento e proteínas / Osteoblast differentiation markers in cultured cells grown on titanium and exposed to a cocktail of growth factors and proteins

Soares, Mariana Sales de Melo

24 July 2014

Os efeitos de preparações de plasma rico em plaquetas (PRP) sobre a atividade osteogênica in vitro e in vivo em contato com biomateriais são divergentes na literatura. O objetivo do presente estudo foi avaliar a expressão e/ou atividade de marcadores iniciais da diferenciação osteoblástica em culturas de células osteogênicas crescidas sobre titânio (Ti) e expostas a coquetel de fatores de crescimento e proteínas PRP-símile (coquetel de FCs). Células osteoblásticas primárias derivadas de calvárias de ratos recém-nascidos foram cultivadas em meio osteogênico e expostas, nos 7 primeiros dias, a coquetel de FCs nas diluições 1:1 (FCs), 1:10 (FCs/10), 1:100 (FCs/100) e 1:1000 (FCs/1000). Foram avaliados, nos tempos de 7, 10 e 14 dias: 1) os aspectos morfológicos e a imunomarcação de sialoproteína óssea (BSP) e osteopontina (OPN), por epifluorescência; 2) a proliferação celular, por ensaio de MTT; 3) a expressão de RNAm para o fator de transcrição Runx2, BSP e fosfatase alcalina (ALP), por PCR em tempo real; 4) a atividade de ALP, clivada da fração de membrana; 5) quantificação da mineralização, por extração do vermelho de Alizarina. Os resultados mostraram inibição da formação dos nódulos de matriz mineralizada em culturas FCs e atraso em seu desenvolvimento em FCs/10 e FCs/100, em comparação a FCs/1000 e controle. A expressão de Runx2, BSP e ALP era menor em todas as culturas expostas ao coquetel de FCs em 7 dias, sendo que para Runx2 e BSP notava-se o efeito concentração-dependente em 10 dias. Menores valores de atividade de ALP foram observados nas culturas FCs e FCs/10, com efeito concentração-dependente e correlação positiva com a mineralização em 7 dias, mas não em 10 e 14. Os resultados permitem concluir que a exposição ao coquetel de FCs inibe e/ou atrasa a diferenciação osteogênica de culturas primárias sobre Ti. Adicionalmente, a atividade de ALP de membrana pode ser considerada também um marcador inicial de diferenciação osteoblástica, indicativo do potencial osteogênico no modelo in vitro utilizado. / The effects of platelet-rich plasma (PRP) preparations on the in vitro and in vivo osteogenic activity in contact with biomaterials have been subject of debate and controversy in the literature. The aim of the present study was to evaluate the expression and/or activity of early markers of osteoblast differentiation in cultured osteogenic cells grown on titanium (Ti) and exposed to a PRP-like cocktail of growth factors and proteins (GFs cocktail). Primary osteoblastic cells derived from newborn rat calvarial bone were cultured in an osteogenic medium (control group) and exposed during the first 7 days of culture to the following dilutions of GFs cocktail: 1:1 (GFs), 1:10 (GFs/10), 1:100 (GFs/100) and 1:1000 (GFs/1000). At days 7, 10 and 14 of culture, the following parameters were assessed: 1) morphology and immunolabeling for bone sialoprotein (BSP) and osteopontin (OPN) by epifluorescence microscopy; 2) cell proliferation by MTT assay; 3) mRNA expression for the osteoblast markers Runx2, BSP and alkaline phosphatase (ALP) by real time PCR; 4) ALP activity following ALP cleavage from cell membrane; 5) mineralization by Alizarin red extraction. The results showed no mineralized nodules for the GFs group and a delayed nodule formation for GFs/10 and GFs/100 compared with GFs/1000 and control. Whereas Runx2, BSP and ALP mRNA levels were lower for all cultures exposed to the GFs cocktail at day 7, a concentration-dependent effect was noticed only for Runx2 and BSP at day 10. The GFs cocktail showed a concentration-dependent effect on ALP activity, with the lowest values for GFs and GFs/10 cultures and a positive correlation with mineralization at day 7 but not at day 10 or 14. In conclusion, inhibited and/or delayed osteogenic differentiation take place in primary cultures grown on Ti and exposed to the GFs cocktail. In addition, membrane ALP activity can also be considered an early marker of osteoblast differentiation, indicative of the in vitro osteogenic potential in the model used.

alkaline phosphatase

cell culture

cultura de células

fatores de crescimento

fosfatase alcalina

growth factors

marcadores

markers

mineralização

mineralization

osteoblastos

osteoblasts

Identifying Genes Influencing Bone Mineral Density

Vaughan, Tanya, n/a

January 2004

Bone mineral density (BMD) is a reflection of the action of osteoblasts compared to osteoclasts. An imbalance in the activity of osteoblasts or osteoclasts, results in bone disease such as osteoporosis caused by overactive osteoclasts. BMD is influenced by genetic and environmental factors as demonstrated through twin studies, association studies and linkage analysis (Ralston, 1999). Several polymorphisms involved in the determination of BMD have been identified, with Vitamin D receptor and Collagen Type 1 showing reproducible associations. To identify genes influencing BMD two distinct strategies have been employed: 1) To determine if DNA polymorphism within the runt related transcription factor (RUNX2) gene is a determinant of BMD and fracture in women. 2) The identification of RANKL target genes in osteoclastogenesis. RUNX2 is a runt domain transcription factor (Werner et al., 1999) essential for osteoblast differentiation (Lee et al., 1997). RUNX2 gene knock-out mice have no osteoblasts due to a failure in osteoblast differentiation and consequently unmineralised skeletons, (Komori et al., 1997; Otto et al., 1997). In humans, mutations in RUNX2 cause cleidocranial dysplasia (CCD), a disorder characterised by hypoplasia or aplasia of the clavicles, short stature, supernumerary teeth, patent fontanelles and other changes in skeletal patterning and growth (Mundlos et al., 1997). RUNX2 contains a poly-glutamine poly-alanine (polyQ/polyA) repeat where mutations causing cleidocranial dysplasia have been observed. BMD has not been routinely examined in CCD, two studies have identified CCD patients with lower BMD with one fracture case identified (Quack et al., 1999; Bergwitz et al., 2001). The central role of RUNX2 in determining osteoblast differentiation makes RUNX2 a prime candidate gene for regulating adult bone density. To determine if polymorphism was present in the polyQ/polyA tract the repeat was amplified within the upper and lower deciles of femoral neck (FN) BMD in the Geelong Osteoporosis study (GOS). The upper and lower deciles of FN BMD acted as a surrogate for genotyping the entire cohort. This study identified two common variants within the polyA repeat: an 18 base pair deletion (11Ala) and a synonymous alanine codon polymorphism with alleles, GCA and GCG (noted as A and G alleles, respectively). The 11Ala and SNP polymorphism are found on codon 64 and 66 respectively (RUNX2 MRIPV variant). A allele frequencies were significantly different in a comparison of the upper and lower deciles of FN BMD (p=0.019). In 495 randomly selected women of the Geelong Osteoporosis Study (GOS), the A allele was associated with higher BMD at all sites tested. The association was maximal at the ultra-distal radius (p=0.001). In a separate fracture study, the A allele was significantly protective against Colles' fracture in elderly women but not spine and hip fracture. The 11Ala polymorphism was not related to BMD in GOS. To further decipher the role of the RUNX2 A allele we genotyped 992 women from a Scottish cohort. The alleles of RUNX2 within the glutamine/alanine repeat were determined by MspA1I restriction digest. To examine the possible influence on estrogen related therapies or estrogen status on the potential genetic effect conferred by RUNX2, we divided the cohort by menopausal and hormone replacement therapy status. Within postmenopausal Scottish women the RUNX2 A allele was associated with significantly higher FN BMD (p=0.028, n=312) but not lumbar spine (LS) BMD. The A allele was associated with higher FN BMD (p=0.035) within a postmenopausal subgroup of the population (n=312). To investigate the effect of weight on the RUNX2 alleles the Scottish cohort was segregated into thin/normal (BMI ≥ 25 kg/m2) and overweight /obese (BMI > 25 kg/m2). RUNX2 A allele showed a stronger effect on FN BMD in postmenopausal women above the median BMI. The 11Ala RUNX2 deletion allele was significantly associated with decreased LS BMD (p=0.018) within overweight/obese women (n=546). The 11Ala allele was significantly associated with increased levels of pyridinoline (p=0.014) and deoxypyridinoline (p=0.038) in the HRT treated subgroup of the population (n=492). Glutamine variants and an alanine insertion were identified within the group. These data suggest that the RUNX2 11Ala and A alleles exert differing affects on BMD showing preference for different skeletal sites in a weight dependent manner. We genotyped 78 individuals from an osteoarthritic population to elucidate the role of the RUNX2 alleles on markers of bone turnover and inflammation. The RUNX2 11Ala allele was significantly associated with decreased osteocalcin (OC) serum levels (p = 0.01). The RUNX2 A allele was significantly related to reduced tumor necrosis factor alpha (TNF-alpha) serum levels (p = 0.004). RUNX2 is known to bind to the OC promoter. An OC promoter polymorphism is found 7bp upstream from a putative RUNX2 binding site. We hypothesized that OC polymorphism may effect the RUNX2 transactivation of the OC gene and thus affect OC serum levels. OC promoter polymorphism was not related to OC serum levels (n=78). These data present a novel link between RUNX2 alleles and OC and TNF serum levels, providing putative mechanisms of action for the RUNX2 alleles. Further studies in larger populations are required to confirm these findings. Ten individuals within the GOS and the Scottish cohort were found to carry rare mutations of the polyQ/polyA repeat. All polyQ variants had a normal polyA repeat (17 amino acids) and were heterozygous for a normal 23Q/17A allele. Variants observed were 15, 16, 24 and 30Q. One individual was observed with an extended polyA repeat (24A). Patient records indicated otherwise unremarkable clinical history except for fracture in 4/10 individuals from GOS (hip and spine). BMD data from the LS and the FN were expressed as T-scores, a measure that relates BMD in terms of standard deviations below the young normal value. In addition, BMD data were also expressed as Z-scores around the age-mean. Under the null hypothesis, where RUNX2 Q repeat variation has no effect on BMD, Z scores would be expected to be distributed around a mean of zero. However, when all variants were pooled the BMD was significantly lower than expected. This effect persisted when deletion variants were considered alone. The effect was stronger on FN BMD (p=0.001) rather than LS BMD (p=0.096), reflecting either difference in precision of BMD measurements at these sites or perhaps a differential genetic effect on different skeletal sites. These data suggest that polyQ and polyA variants are associated with significantly lower BMD, and may be an important determinant for fracture. Glutamine variants exist at high frequency (~0.7%): this rate of mutation could be important when considering large populations at risk of age related osteoporosis. Considering that these subjects are heterozygous for a normal allele, it suggests that a more severe phenotype might be expected in rare subjects homozygous for glutamine repeat variants. In summary, this study investigated the role of novel polymorphisms and rare variants of the RUNX2 gene in influencing BMD, fracture and markers of bone turnover. Two common polymorphisms were identified within the polyA repeat: an 18 base pair deletion and a synonymous alanine codon polymorphism with alleles, A and G. The A allele was associated with increased BMD and was protective against a common form of osteoporotic fracture within a Geelong population. To verify these findings the RUNX2 alleles were genotyped in 992 women from a Scottish cohort. The magnitude and the direction of the effect of the A allele was maintained in the Scottish cohort. Interestingly, the A allele was shown to exert a menopause specific effect, with postmenopausal women showing the strongest effect. On re-analysis of the GOS data the post-menopausal women were found to drive the significance identified in the cohort. The magnitude of the effect of the A allele on BMD was greater in overweight/obese postmenopausal women indicating a gene-weight interaction for RUNX2. The RUNX2 11Ala allele showed a significant relationship with decreased LS BMD in overweight/obese Scottish women. The 11Ala allele was also associated with higher levels of urinary PYD and DPD in women treated with HRT, indicating higher levels of bone turnover in carriers of the 11Ala allele. In contrast to the Scottish cohort, no significant association with heterozygous carriers of 11Ala was observed in GOS, although a significant association was detected for homozygous carriers and LS BMAD. The 11 Ala RUNX2 allele was significantly associated with decreased serum osteocalcin levels and the A allele was significantly associated with TNF in OA patients. Glutamine variants and an alanine insertion were identified within Geelong and Scottish cohorts, which showed low Z and T scores suggesting that RUNX2 variants may be related to genetic effects on BMD and osteoporosis. Polymorphism of the polyQ/polyA region of RUNX2 were identified within this study were shown to associate with significant differences in BMD. The A allele showed a significant association with increased BMD in postmenopausal women from a Geelong and Scottish cohort, with a decreased frequency of the A allele observed in Colles' fracture patients from Geelong. The 11Ala deletion allele was significantly associated with decreased LS BMD and increases in markers of bone turnover in the Scottish cohort. A significant decrease in OC serum levels was observed in OA patients suggesting a direct effect of the allele on the transactivation of the RUNX2 gene. Rare variants of RUNX2 were identified which showed low BMD. These studies have provided insight into the role of RUNX2 in influencing BMD, further studies are required to verify the role of the A allele on BMD and fracture, the role of the rare variants and to identify the precise mechanisms behind the observed changes in BMD. - 2) The identification of RANKL target genes in osteoclastogenesis. Osteoclastogenesis is regulated in vivo by the action of osteoblast/stromal cells that express membrane bound, receptor activator of NF-kB ligand (RANKL). Monocytes treated in vitro with a soluble form of RANKL and macrophage colony stimulating factor (M-CSF) differentiate to osteoclasts, whereas monocytes treated with M-CSF alone differentiate to macrophage-like cells. The gene expression profile of human osteoclasts has not been extensively explored. Genes highly expressed by rabbit osteoclasts were identified through random sequencing of an osteoclast cDNA library (Sakai et al., 1995). Differential gene expression of mouse osteoclastogenesis was elucidated by array analysis (Cappellen et al., 2002). To identify genes important for human osteoclastogenesis, total RNA was isolated from monocytes treated for three weeks with either M-CSF alone or with RANKL and M-CSF. RANKL treatment for 3 weeks and 12 hours was investigated in this study, to complement previous data. Differential display was performed on RNA (12 hour treatment with RANKL) and differential gene expression profiles examined. The differential display products were pooled to generate a probe for screening a gene array system derived from a human osteoclast cDNA library. cDNA (3 week treatment with RANKL) hybridisation experiments against the array revealed additional regulated genes. Gene clones that showed significant regulation in M-CSF and RANKL treated cells compared M-CSF treated cells represent genes that are targets for RANKL-specific regulation. Osteopontin, creatine kinase and various mitochondrial genes were up regulated by the treatment of RANKL. Changes in gene expression observed in the array data were confirmed with real-time PCR using mRNA derived from in vitro induced osteoclasts. Cathepsin K gene expression was more than 300 fold greater in osteoclasts compared to macrophage-like cells after one week treatment with RANKL and M-CSF. Cystatin C expression showed a six-fold induction at two weeks of RANKL and M-CSF treatment and cystatin B showed a steady increase in expression. Some of these regulated genes may provide useful targets for influencing BMD.

bone mineral density

polymorphism

polymorphisms

osteoclastogenesis

osteoclasts

osteoblasts

bone disease

runt related transcription factor

RUNX2

RANKL

alleles

Age Related Tissue Fibrosis During Fracture Repair Is Mediated by Wnt/β-catenin Signaling

Silkstone, David

11 January 2011

The regenerative potential of tissue injury declines with age. Recently, a significant role for Wnt/β-catenin signaling has been shown in tissue specific stem cell aging, leading to increased tissue fibrosis. Wnt/β-catenin signaling regulates the differentiation of multipotent mesenchymal stem cells into osteoblasts during fracture repair. We investigated the potential role of dysregulated Wnt/β-catenin signaling in delayed fracture union and tissue fibrosis in the elderly. Old mice displayed increased total β-catenin protein levels at 4 and 7 days post-fracture and tissue fibrosis at 14 and 21 days post-fracture compared to young mice. Furthermore, treatment with a pharmalogical agent decreased total β-catenin protein levels in the fracture callus at 4 days post-fracture and prevented tissue fibrosis at 21 days post-fracture. Our data suggests that dysregulated Wnt/β-catenin signaling in the elderly contributes to delayed fracture repair and tissue fibrosis and offers a potential therapeutic strategy to improve fracture outcome in the elderly.

Fracture Repair

Elderly

Osteoblasts

Tissue Fibrosis

Wnt/β-catenin Signaling

Multipotent Mesenchymal Stem Cells

0433

0410

0379

Age Related Tissue Fibrosis During Fracture Repair Is Mediated by Wnt/β-catenin Signaling

Silkstone, David

11 January 2011

The regenerative potential of tissue injury declines with age. Recently, a significant role for Wnt/β-catenin signaling has been shown in tissue specific stem cell aging, leading to increased tissue fibrosis. Wnt/β-catenin signaling regulates the differentiation of multipotent mesenchymal stem cells into osteoblasts during fracture repair. We investigated the potential role of dysregulated Wnt/β-catenin signaling in delayed fracture union and tissue fibrosis in the elderly. Old mice displayed increased total β-catenin protein levels at 4 and 7 days post-fracture and tissue fibrosis at 14 and 21 days post-fracture compared to young mice. Furthermore, treatment with a pharmalogical agent decreased total β-catenin protein levels in the fracture callus at 4 days post-fracture and prevented tissue fibrosis at 21 days post-fracture. Our data suggests that dysregulated Wnt/β-catenin signaling in the elderly contributes to delayed fracture repair and tissue fibrosis and offers a potential therapeutic strategy to improve fracture outcome in the elderly.

Fracture Repair

Elderly

Osteoblasts

Tissue Fibrosis

Wnt/β-catenin Signaling

Multipotent Mesenchymal Stem Cells

0433

0410

0379

The role of the hypoxia-inducible factor pathway in bone development and repair

Wang, Ying.

January 2007

Thesis (Ph.D.)--University of Alabama at Birmingham, 2007. / Title from PDF title page (viewed on Feb. 19, 2010). Includes bibliographical references.

Μελέτη του ρόλου της απολιποπρωτεΐνης Ε (apoE) στην παθογένεια της οστεοπόρωσης σε πειραματικά μοντέλα ποντικιών / Study of the role of apolipoprotein E (apoE) in the pathogenesis of osteoporosis in experimental mouse models

Παπαχρήστου, Νικόλαος

04 June 2015

Σκοπός: Πρόσφατα δεδομένα, υποδεικνύουν ότι διαταραχή της ισορροπίας του λιπιδικού μεταβολισμού επηρεάζει τη λειτουργία των κυττάρων του οστού, με αποτέλεσμα την ανάπτυξη εκφυλιστικών και μεταβολικών νόσων, όπως η οστεοπόρωση. Στην παρούσα εργασία, μελετήσαμε τον ρόλου της απολιποπρωτεΐνης Ε (apoE), βασικού συστατικού του συστήματος μεταβολισμού των χυλομικρών και της VLDL (Very Low-Density Lipoprotein), στη ρύθμιση της οστικής ανακατασκευής και στην παθογένεια της οστεοπόρωσης, σε πειραματικά μοντέλα ποντικιών που έλαβαν δίαιτα πλούσια σε λιπαρά. Υλικά και μέθοδοι: Για τον λόγο αυτό, χρησιμοποιήσαμε μοντέλα ποντικών με έλλειψη του γονιδίου της apoE (apoE-/-) και αγρίου τύπου (C57BL/6) (ομάδα ελέγχου) που τους χορηγήθηκε για 24 εβδομάδες δίαιτα δυτικού τύπου (WTD) πλούσια σε λιπαρά (10 ζώα/ομάδα). Επιλέχθηκε η δίαιτα δυτικού τύπου διότι προσομοιάζει τις διατροφικές συνήθειες του σύγχρονου δυτικού κόσμου. Κάθε 6 εβδομάδες γινόταν μέτρηση σωματικού βάρους. Δύο και επτά ημέρες προ της ευθανασίας πραγματοποιήθηκε ενδοπεριτοναϊκή ένεση καλσεΐνης. Την 24η εβδομάδα τα ζώα θυσιάστηκαν, απομονώθηκαν χειρουργικά το μηριαίο οστό και οι οσφυϊκοί σπόνδυλοι και έγιναν ιστολογικές και ιστομορφομετρικές αναλύσεις. Με τη χρήση microCT scanner (στατική ιστομορφομετρία) εκτιμήθηκε η ποιότητα και η ποσότητα του σπογγώδους και του φλοιώδους οστού. Με τη χρώση TRAP και την εναπόθεση καλσεΐνης (δυναμική ιστομορφομετρία) ελέγχθηκε η οστική αποδόμηση και ο ρυθμός σύνθεσης νεοσχηματιζόμενου οστού, αντίστοιχα. Με τη χρήση φασματοσκοπίας Raman, αξιολογήθηκε η κατάσταση του δικτύου κολλαγόνου των μηριαίων οστών. Επιπλέον, μεσεγχυματικά κύτταρα του μυελού των οστών (BMMSC) απομονώθηκαν από το μηριαίο οστό των πειραματόζωων και καλλιεργήθηκαν με σκοπό την εκτίμηση των επιπέδων έκφρασης, τόσο σε επίπεδο πρωτεΐνης όσο και σε επίπεδο mRNA, μορίων που εμπλέκονται στην οστεοβλαστική λειτουργία [(Runx2, Osterix (Osx), Κολλαγόνο I τύπου 1a (Col1a1)], στην οστεοκλαστική λειτουργία [osteprotegerin (OPG), RANK-Ligand (RANKL), λόγος OPG/RANKL, RANK, TRAP, cathepsin Κ] καθώς και στην λιπογένεση [Peroxisome-Proliferator-Activated receptor γ (PPARγ)]. Για την εκτίμηση των επιπέδων έκφρασης των πρωτεϊνών, χρησιμοποιήσαμε τις μοριακές τεχνικές Western Blot και κυτταρομετρία ροής ενώ για την αξιολόγηση των επιπέδων έκφρασης του mRNA χρησιμοποιήσαμε τη RT-PCR. Αποτελέσματα: 1) Τα apoE-/- πειραματόζωα που έλαβαν WTD δεν ανέπτυξαν παχυσαρκία σε αντίθεση με τα C57BL/6 WTD. 2) Στον μυελό των οστών των apoE-/- WTD ποντικιών παρατηρήθηκε πλήρης απουσία λιποκυττάρων, σε αντίθεση με τα C57BL/6 WTD ζώα των οποίων ο μυελός των οστών ήταν πλούσιος σε λιποκύτταρα. 3) Ο αριθμός των οστεοκλαστών ήταν σημαντικά αυξημένος, ενώ των οστεοβλαστών σημαντικά ελαττωμένος στα apoE-/- WTD πειραματόζωα σε σύγκριση με τα C57BL/6 WTD. 4) Η στατική και η δυναμική ιστομορφομετρία έδειξαν ότι τα apoE-/- ποντίκια, σε δίαιτα δυτικού τύπου, εμφάνισαν σημαντική ελάττωση της οστικής τους μάζας. 5) Το δίκτυο του κολλαγόνου στα apoE-/- WTD ποντίκια εμφανίστηκε σημαντικά πιο σκληρό, πιο άκαμπτο και κατά συνέπεια λιγότερο ελαστικό συγκρινόμενο με αυτό των C57BL/6 WTD. 6) Τα apoE-/- WTD ποντίκια, εμφάνισαν σημαντικά μειωμένα επίπεδα έκφρασης του ρυθμιστή της οστεοβλαστογένεσης Runx2, τόσο σε επίπεδο πρωτεΐνης όσο και σε επίπεδο mRNA, συγκρινόμενα με τα C57BL/6 WTD ζώα. 7) Τα επίπεδα έκφρασης των ρυθμιστών της οστικής ανακατασκευής RANK και RANKL, ήταν σημαντικά αυξημένα στα apoE-/- WTD ποντίκια σε σχέση με τα C57BL/6 WTD ποντίκια. Αντίθετα, τα επίπεδα έκφρασης του γονιδίου της OPG καθώς και η αναλογία OPG/RANKL, ήταν σημαντικά μειωμένα στα apoE-/- WTD ποντίκια. Δεν παρατηρήθηκαν σημαντικές διαφορές στην έκφραση των οστεοκλαστικών ρυθμιστών cathepsin K και TRAP μεταξύ των δύο υπό εξέταση ομάδων ζώων. 8) Ο ρυθμιστής της λιπογένεσης PPARγ, τόσο σε επίπεδο πρωτεΐνης όσο και σε επίπεδο mRNA, ήταν σημαντικά μειωμένος στα apoE-/- WTD ποντίκια σε σχέση με τα C57BL/6 WTD. Συμπεράσματα: 1) Η έλλειψη της apoE εμπλέκεται στην ελάττωση της οστικής μάζας σε ποντίκια υπό δίαιτα δυτικού τύπου 2) Η apoE φαίνεται ότι διαδραματίζει σημαντικό ρόλο στη ρύθμιση της λειτουργίας των οστεοβλαστών, ενώ δεν είναι σαφής ο ρόλος της στη λειτουργία των οστεοκλαστών 3) Η έλλειψη της apoE, προστατεύει από την παχυσαρκία αλλά και την εναπόθεση λιποκυττάρων στον μυελό των οστών, κατόπιν λήψεως δίαιτας πλούσιας σε λιπαρά. 4) Η apoE ρυθμίζει τη διαφοροποίηση των MSC’s σε ερχόμενο στάδιο, καθώς η έλλειψή της επηρεάζει τόσο την οστεοβλαστική όσο και τη λιποβλαστική διαφοροποίηση, μετά από κατανάλωση δίαιτας δυτικού τύπου, πλούσιας σε λιπαρά. / Introduction: Recent data suggest that lipid metabolism imbalances affect bone cell function and therefore may result in the development of metabolic diseases such as osteoporosis. In the present study, we investigated the role of apoE, a plasma protein playing cardinal role in lipoprotein metabolism, in the regulation of osteoblasts, osteoclasts and lipoblasts and in the pathogenesis of osteoporosis. Material and Methods: We used apoE deficient (apoE-/-) and wild type (C57BL/6) mice (10 animals/ group). Mice were fed with standard western-type diet (WTD) for 24 weeks. Body weight measurements were obtained every 6 weeks. Two and seven days before euthanasia calcein was injected intraperitonealy for the determination of new bone formation rate. Following sacrifice, lumbar vertebrae and femora were removed and quantitative/qualitative study of the cortical and cancellous bone was performed using microCT scanner. In the tissue sections we perfomed histological (H&E) and histochemical (TRAP) analyses. Static and dynamic histomorphometry were employed for the determination of bone quality and bone cell function. Using Raman spectroscopy, the quality and biochemical composition of the collagen fibers of the examined femora were evaluated. Bone marrow mesenchymal stem cells (BMMSC) were isolated from mice femora and then assessed for the expression of the osteoblastic (Runx2, OSX, Col1a1), osteoclastic (OPG, RANKL, OPG/RANKL, RANK, TRAP, cathepsin K) and lipoblastic (PPARγ) regulators using Western Blotting, Flow Cytometry and RT-PCR. Results: 1) apoE-/- mice under WTD did not develop obesity and their BM was devoid of adipocytes, in contrast to the control mice. 2) Osteoclast number was significantly increased, while bone synthesis was significantly reduced in apoE-/- compared to the C57BL/6 mice that consumed WTD. 3) Static and dynamic histomorphometry showed that apoE-/- mice had sugnificantly reduced bone mass and impared bone architecture. 4) The collagen network in apoE-/- WTD mice was significantly stiffer and more rigid compared to the C57BL/6 WTD mice. 5) BMMSCs from apoE-/- WTD mice displayed significantly reduced Runx2 expression at both protein and mRNA levels compared to the control group. 6) The expression levels of RANK and RANKL, were significantly elevated in apoE-/- WTD mice compared to C57BL/6 WTD mice. In contrast, the gene expression levels of OPG and the ratio OPG / RANKL, were statistically significantly reduced in apoE-/- WTD mice. No significant differences were observed in the expression of cathepsin K and TRAP genes between the two test groups of animals. 7) The expression of the major lipoblastic regulator PPARγ was significantly reduced in apoE-/- WTD compared to their WT counterparts. Conclusions: 1) Low levels of apoE result in reduced bone mass following WTD. 2) apoE is implicated in the regulation of osteoblast function; nevertheless, its role in osteoclast function warrants further investigation. 3) The absence of apoE prevents obesity and BM adipocity after the consumption of WT (high-fat) diet. 4) apoE deficiency, regulates MSC differentiation at early stages, since its absence affects both the osteoblastic and lipoblastic differentiation, after the consumption of high fat diet.

Οστεοπόρωση

Οστική ανακατασκευή

Απολιποπρωτεΐνη Ε

Οστεοβλάστες

Οστεοκλάστες

616.716 071

Osteoporosis

Bone remodeling

Osteoblasts

Runx2

Osx

RANKL

RANK

OPG

Pparγ

Effect of surface topography on cell behaviour for orthopaedic applications

Sobral, Jorge Miguel Cardigo

January 2013

No description available.

669

Chitosan/carrageenan-based polyelectrolyte complexes and their composites with calcium phosphate for bone tissue engineering

De Araújo Júnior, José Vitor

January 2013

No description available.

669

Osteoporosis: An Age-Related and Gender-Specific Disease – A Mini-Review

Pietschmann, Peter, Rauner, Martina, Sipos, Wolfgang, Kerschan-Schindl, Katharina

24 February 2014

Osteoporosis, a classical age-related disease and known to be more common in women than in men, has been reported increasingly often in men during the past few years. Although men at all ages after puberty have larger bones than women, resulting in greater bending strength, mortality after a hip fracture, one of the major complications of osteoporosis, is more common in men than in women. Sex hormone deficiency is associated with unrestrained osteoclast activity and bone loss. Even though estrogen deficiency is more pronounced in women, it appears to be a major factor in the pathogenesis of osteoporosis in both genders. In contrast to osteoporosis in postmenopausal women, the treatment of osteoporosis in men has been scarcely reported. Nevertheless, some drugs commonly used for the treatment of osteoporosis in women also appear to be effective in men. The aim of this study is to review primary osteoporosis in the elderly with particular emphasis on gender-related aspects. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Knochenschwund

Frakturen

Osteoporose

Knochengeweberemodellierung

Osteoblasten

Osteoklasten

Brüche

Gendermedizin

Osteoporosis

Fractures

Bone remodelling

Osteoblasts

Osteoclasts

Gender medicine

ddc:610

rvk:XA 10000

Effects of Different Titanium Alloys and Nanosize Surface Patterning on Adhesion, Differentiation, and Orientation of Osteoblast-Like Cells

Monsees, Thomas K., Barth, Kathrin, Tippelt, Sonja, Heidel, K., Gorbunov, A., Pompe, W., Funk, Richard H. W.

04 March 2014

To test nanosize surface patterning for application as implant material, a suitable titanium composition has to be found first. Therefore we investigated the effect of surface chemistry on attachment and differentiation of osteoblast-like cells on pure titanium prepared by pulsed laser deposition (TiPLD) and different Ti alloys (Ti6Al4V, TiNb30 and TiNb13Zr13). Early attachment (30 min) and alkaline phosphatase (ALP) activity (day 5) was found to be fastest and highest, respectively, in cells grown on TiPLD and Ti6Al4V. Osteoblasts seeded on TiPLD produced most osteopontin (day 10), whereas expression of this extracellular matrix protein was an order of magnitude lower on the TiNb30 surface. In contrast, expression of the corresponding receptor, CD44, was not influenced by surface chemistry. Thus, TiPLD was used for further experiments to explore the influence of surface nanostructures on osteoblast adhesion, differentiation and orientation. By laser-induced oxidation, we produced patterns of parallel Ti oxide lines with different widths (0.2–10 μm) and distances (2–20 and 1,000 μm), but a common height of only 12 nm. These structures did not influence ALP activity (days 5–9), but had a positive effect on cell alignment. Two days after plating, the majority of the focal contacts were placed on the oxide lines. The portion of larger focal adhesions bridging two lines was inversely related to the line distance (2–20 μm). In contrast, the portion of aligned cells did not depend on the line distance. On average, 43% of the cells orientated parallel towards the lines, whereas 34% orientated vertically. In the control pattern (1,000 μm line distance), cell distribution was completely at random. Because a significant surplus of the cells preferred a parallel alignment, the nanosize difference in height between Ti surface and oxide lines may be sufficient to orientate the cells by contact guiding. However, gradients in electrostatic potential and surface charge density at the Ti/Ti oxide interface may additionally influence focal contact formation and cell guidance. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Adhäsion

Titanium

Alignment

Differenzierung

Osteoblasten

Oberflächenladung

Titaniumlegiuerung

Adhesion

Alignment

Differentiation

Osteoblasts

Surface charge

Titanium alloy

ddc:610

rvk:XA 10000