The effects of prostaglandin E2 in growing rats: Increased metaphyseal hard tissue and cortico-endosteal bone formation

Jee, Webster S. S.; Ueno, Keisuke; Deng, Yulan; Woodbury, Dixon M.

doi:10.1007/bf02554834

Cited by 238 publications

(109 citation statements)

References 35 publications

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“…In animal studies it has been suggested that eg prostaglandin E2 (PGE2) and interleukin-1 can induce a dose dependent increase in the subperiostal lamellar bone formation 90 and that subcutaneous injections of PGE2 in growing rats can induce heterotopic bone formation. 91,92 Measurement of 24-h PGE in SCI patients with NHO showed abnormal 24-h PGE2 urinary excretion as long as the bone-scan had not stabilized. 27 However, the mechanism by which prostaglandins may induce ectopic bone formation in SCI patients remains unclear and there are well-known di culties in the interpretation of PGE2 urinary excretion measurements in men presenting with a positive urinary sperm count or in patients with lower urinary tract infections.…”

Section: Local Factorsmentioning

confidence: 99%

Neurogenic heterotopic ossification in spinal cord injury

2002

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Neurogenic heterotopic ossi®cation (NHO) is a frequent complication in spinal cord injury (SCI) that is often di cult to treat. This review emphasizes the incidence, risk factors and clinical signs of NHO in SCI patients. Although the exact pathophysiology underlying NHO in neurologic patients is not yet understood, di erent pathogenic mechanisms have been proposed in the literature. A selection of the most important theories will be given and discussed. Moreover the di erent diagnostic, therapeutic, and preventive methods currently used in NHO management after SCI will be reviewed.

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Section: Local Factorsmentioning

confidence: 99%

Neurogenic heterotopic ossification in spinal cord injury

2002

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“…An osteocyte-like cell line, MLO-Y4, has been shown to have characteristics of primary osteocytes (27). We and others have shown that MLO-Y4 cells are functionally coupled by gap junction channels and that Cx43 is a major gap junction protein expressed in primary osteocytes and MLO-Y4 cells (8,23,27,36,45,47). Mechanical forces applied to bone cause fluid to flow through the canaliculi surrounding the osteocyte, and that fluid flow shear stress releases prostaglandins and other bone modulators (40) required for bone modeling and remodeling.…”

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confidence: 97%

Prostaglandin Promotion of Osteocyte Gap Junction Function through Transcriptional Regulation of Connexin 43 by Glycogen Synthase Kinase 3/β-Catenin Signaling

Xia¹,

Batra²,

Shi³

et al. 2010

Molecular and Cellular Biology

124

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Gap junction intercellular communication in osteocytes plays an important role in bone remodeling in response to mechanical loading; however, the responsible molecular mechanisms remain largely unknown. Here, we show that phosphoinositide-3 kinase (PI3K)/Akt signaling activated by fluid flow shear stress and prostaglandin E 2 (PGE 2 ) had a stimulatory effect on both connexin 43 (Cx43) mRNA and protein expression. PGE 2 inactivated glycogen synthase kinase 3 (GSK-3) and promoted nuclear localization and accumulation of ␤-catenin. Knockdown of ␤-catenin expression resulted in a reduction in Cx43 protein. Furthermore, the chromatin immunoprecipitation (ChIP) assay demonstrated an association of ␤-catenin with the Cx43 promoter, suggesting that ␤-catenin could regulate Cx43 expression at the level of gene transcription. We have previously reported that PGE 2 activates cyclic AMP (cAMP)-protein kinase A (PKA) signaling and increases Cx43 and gap junctions. Interestingly, the activation of PI3K/Akt appeared to be independent of the activation of PKA, whereas both PI3K/Akt and PKA signaling inactivated GSK-3 and increased ␤-catenin translocation. Together, these results suggest that shear stress, through PGE 2 release, activates both PI3K/Akt and cAMP-PKA signaling, which converge through the inactivation of GSK-3, leading to the increase in nuclear accumulation of ␤-catenin. ␤-Catenin binds to the Cx43 promoter, stimulating Cx43 expression and functional gap junctions between osteocytes.

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“…Prostaglandins are generally thought to be skeletal anabolic agents, because administration of these agents can increase bone mass in various animal species (25)(26)(27), stimulate bone formation in vitro in organ culture (28), and increase nodule formation in rat calvarial osteoblasts (29,30). Prostaglandins also have catabolic effects on bone and have been shown to stimulate osteoclastic bone resorption and osteoclast formation and activation (28,(31)(32)(33)(34).…”

mentioning

confidence: 99%

Effects of Mechanical Strain on the Function of Gap Junctions in Osteocytes Are Mediated through the Prostaglandin EP2 Receptor

Cherian

Cheng

et al. 2003

Journal of Biological Chemistry

191

146

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Fluid flow conditioned medium and PGE 2 stimulated cAMP production and PKA activity suggesting that PGE 2 released by mechanically stimulated cells is responsible for the activation of cAMP and PKA. The adenylate cyclase activators, forskolin and 8-bromo-cAMP, enhanced intercellular connectivity, the number of functional gap junctions, and Cx43 protein expression, whereas the PKA inhibitor, H89, inhibited the stimulatory effect of PGE 2 on gap junctions. These studies suggest that the EP 2 receptor mediates the effects of autocrine PGE 2 on the osteocyte gap junction in response to fluid flow-induced shear stress. These data support the hypothesis that the EP 2 receptor, cAMP, and PKA are critical components of the signaling cascade between mechanical strain and gap junction-mediated communication between osteocytes.

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The effects of prostaglandin E2 in growing rats: Increased metaphyseal hard tissue and cortico-endosteal bone formation

Cited by 238 publications

References 35 publications

Neurogenic heterotopic ossification in spinal cord injury

Neurogenic heterotopic ossification in spinal cord injury

Prostaglandin Promotion of Osteocyte Gap Junction Function through Transcriptional Regulation of Connexin 43 by Glycogen Synthase Kinase 3/β-Catenin Signaling

Effects of Mechanical Strain on the Function of Gap Junctions in Osteocytes Are Mediated through the Prostaglandin EP2 Receptor

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