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ba0001pp191 | Cell biology: osteoblasts and bone formation | ECTS2013

Nuclear translocation of oxytocin receptor mediates increased gene expression in osteoblasts

Di Benedetto Adriana , Cuscito Concetta , Colaianni Graziana , Tamma Roberto , Nico Beatrice , Calvano Damiana , Zambonin Carlo , Corcelli Michelangelo , Zallone Alberta

The neuro-hypophiseal hormone oxytocin (OT) is a novel anabolic regulator of bone mass (Tamma et al. PNAS, 2009), upregulating expression of critical osteoblast transcription factors. These effects are mediated by oxytocin receptor, a GPCR expressed by osteoblasts. Recently an increasing number of reports indicates that GPCRs could be targeted to the nuclear membrane; prostaglandin receptors, endothelin receptors and β-adrenergic receptors among others (...

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ba0005p203 | Cell biology: osteoclasts and bone resorption | ECTS2016

The role of light (TNFSF14) on bone remodeling

Brunetti Giacomina , Gigante Isabella , Oranger Angela , Colaianni Graziana , Di Benedetto Adriana , Tamma Roberto , Lippo Luciana , Pignataro Paolo , Di Comite Mariasevera , Mori Giorgio , Tamada Koji , Ware Carl , Colucci Silvia , Grano Maria

LIGHT (TNFSF14), expressed by different cells of the immune system, binds two trans-membrane receptors: HVEM and LTβR. It is over-expressed in erosive rheumatoid arthritis and lytic myeloma-bone disease and controversial data have been published on its role osteoclast (OC) formation in vitro. Here, we investigated the role of LIGHT on in vitro murine osteoclastogenesis model and bone phenotype in LIGHT−/− mice. Firstly, we showed that murin...

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Bone Abstracts

Nuclear translocation of oxytocin receptor mediates increased gene expression in osteoblasts

The role of light (TNFSF14) on bone remodeling

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