Internal control genes for quantitative RT-PCR expression analysis in mouse osteoblasts, osteoclasts and macrophages

Stephens, Alexandre; Stephens, Sebastien Robert; Morrison, Nigel Alexander

doi:10.1186/1756-0500-4-410

Cited by 124 publications

(88 citation statements)

References 23 publications

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“…Real-time quantitative polymerase chain reaction (qPCR) was performed with SYBR Select PCR master mix (Applied Biosystems, Life Technologies) for ALP, osterix (OSX), osteopontin (OP), and osteocalcin (OCN), with hydroxymethylbilane synthase (HMBS) as the normalizing gene. The primer sequences (Table 1) obtained from published literature [35][36][37][38][39] were verified using OligoAnalyzer and purchased from IDT (Integrated DNA Technologies). PCR amplification was performed in iCycleriQ detection system (Biorad) with thermocycling performed for 10 min at 95°C followed by 40 cycles at 95°C for 15 s and 56°C for 60 s. Expression of each gene was normalized to the gene expression level of the day 0 samples for each condition.…”

Section: Cell Differentiationmentioning

confidence: 99%

Nanofibrous yet injectable polycaprolactone-collagen bone tissue scaffold with osteoprogenitor cells and controlled release of bone morphogenetic protein-2

Subramanian

Bialorucki

Yildirim-Ayan

2015

Materials Science and Engineering: C

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Section: Cell Differentiationmentioning

confidence: 99%

Nanofibrous yet injectable polycaprolactone-collagen bone tissue scaffold with osteoprogenitor cells and controlled release of bone morphogenetic protein-2

Subramanian

Bialorucki

Yildirim-Ayan

2015

Materials Science and Engineering: C

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“…The products were electrophoresed in a 1.8% agarose gel and stained with ethidium bromide. The primer sequences are shown in Table 1 (4,(14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28) Statistical analysis Data are shown as mean ± standard deviation. Statistical analysis was performed using the two-independent samples t-test for two-group comparisons and one-way …”

Section: Polymerase Chain Reactionmentioning

confidence: 99%

Notch signaling partly regulates the osteogenic differentiation of retinoic acid-treated murine induced pluripotent stem cells

et al. 2017

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Notch signaling is involved in osteogenic differentiation; however, its role differs depending on cell type and differentiation stage. Here, we investigated the involvement of Notch signaling in the osteogenic differentiation of retinoic acid-treated embryoid bodies derived from mouse gingival fibroblast-derived induced pluripotent stem cells (mGF-iPSCs). When cultured in osteogenic media, mGF-iPSCs showed an increase in their expression of osteogenic marker genes and deposited a mineralized matrix. Furthermore, increased levels of mRNA for Notch1, Notch2, and Hey1 were observed. In the presence of DAPT, a Notch signaling inhibitor, during osteogenic induction, mRNA levels for osteogenic marker genes were significantly decreased; however, no difference was noted in mineral deposition. Moreover, activation of Notch signaling using Jagged1-immobilized surfaces resulted in a slight increase of in vitro mineralization on days 3 and 7 of osteogenic induction. Significant upregulation of Dlx5, Bsp, and Col I mRNA expression was observed in mGF-iPSCs cultured on Jagged1 surfaces. In conclusion, inhibition and activation of Notch signaling was shown to decrease and increase mGF-iPSC osteogenic differentiation, respectively. However, the responses were not robust, suggesting the involvement of additional signaling pathways.

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“…Successful execution of quantitative real-time PCR requires the selection of appropriate housekeeping genes. Popular choices are 18S and/or GAPDH, though particularly with osteoblast differentiation studies, their use is controversial (24). An ideal housekeeping gene will be consistent over the course of the study and provide an accurate reflection of variations in cell population among different treatments.…”

Section: Osteoblast Differentiation Determination By Mineralization Smentioning

confidence: 99%

The Delivery and Evaluation of RNAi Therapeutics for Heterotopic Ossification Pathologies

Shrivats

Hollinger

2013

Methods in Molecular Biology

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RNA interference (RNAi) is a powerful tool being used to develop therapies for pathologies caused by gene overexpression. Heterotopic ossification pathologies such as trauma-induced heterotopic ossification and fibrodysplasia ossificans progressiva may be treatable with an RNAi approach. However, there is a lack of consensus in literature regarding the delivery conditions and evaluation of RNAi therapeutics in these disease models. Here, we describe in vitro protocols for the delivery of polymer-based RNAi therapeutics as well as a streamlined strategy for the assessment of osteoblast lineage progression due to dysregulated bone morphogenetic protein signaling. This strategy focuses on the quantification of early-stage osteoblast transcription factors RUNX2 and OSX, followed by the measurement of alkaline phosphatase activity and late-stage matrix deposition.

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Internal control genes for quantitative RT-PCR expression analysis in mouse osteoblasts, osteoclasts and macrophages

Cited by 124 publications

References 23 publications

Nanofibrous yet injectable polycaprolactone-collagen bone tissue scaffold with osteoprogenitor cells and controlled release of bone morphogenetic protein-2

Nanofibrous yet injectable polycaprolactone-collagen bone tissue scaffold with osteoprogenitor cells and controlled release of bone morphogenetic protein-2

Notch signaling partly regulates the osteogenic differentiation of retinoic acid-treated murine induced pluripotent stem cells

The Delivery and Evaluation of RNAi Therapeutics for Heterotopic Ossification Pathologies

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