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Disease
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Enzyme
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0005940 (
bone disease
)
7,459
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Serotonin is important in brain functions and involved in neurological diseases. It is also drawn considerable attention in
bone disease
since it mainly produced by the gut. Serotonin 6 G-protein-coupled receptor (5-HT6R) is clinical targets for the treatment of neurological diseases. However, 5-HT6R as a therapeutic target in bone has not been reported. Herein, we found that 5-HT6R showed higher expression in bone, and its expression was increased during bone remodeling and osteoblast differentiation. The activation of 5-HT6R by ST1936 caused the inhibition of ALP activity and mineralization in primary osteoblast cultures, which was antagonized by SB258585, an antagonist and by the knockdown of 5-HT6R. Further investigation indicated that 5-HT6R inhibited osteoblast differentiation via Jab1 in BMP2 signaling but not
PKA
and ERK1/2. In vivo studies showed that the activation of 5-HT6R inhibited bone regeneration in the calvarial defect mice and also delayed bone development in newborn mice; this response was antagonized by SB258585. Therefore, our findings indicate a key role of 5-HT6R in bone formation through serotonin originating in the peripheral system, and suggest that it is a novel therapeutic target for drug development in the bone repair and bone diseases.
...
PMID:Peripheral serotonin-mediated system suppresses bone development and regeneration via serotonin 6 G-protein-coupled receptor. 2758 23
Pseudoshikonin I (PSI), a novel biomaterial isolated from Lithospermi radix, has been recognized as an herbal medicine for the treatment of infectious and inflammatory diseases. Bone remodeling maintains a balance through bone resorption (osteoclastogenesis) and bone formation (osteoblastogenesis). Bone formation is generally attributed to osteoblasts. However, the effects of PSI on the bone are not well known. In this study, we found that the ethanol extracts of PSI induced osteoblast differentiation by increasing the expression of bone morphogenic protein 4 (BMP 4). PSI positively regulates the transcriptional expression and osteogenic activity of osteoblast-specific transcription factors such as Runx2 and Osterix. To identify the signaling pathways that mediate PSI-induced osteoblastogenesis, we examined the effects of serine-threonine kinase inhibitors that are known regulators of Osterix and Runx2. PSI-induced upregulation of Osterix and Runx2 was suppressed by treatment with AKT and
PKA
inhibitors. These results suggest that PSI enhances osteoblast differentiation by stimulating Osterix and Runx2 via the AKT and
PKA
signaling pathways. Thus, the activation of Runx2 and Osterix is modulated by PSI, thereby demonstrating its potential as a treatment target for
bone disease
.
...
PMID:Pseudoshikonin I enhances osteoblast differentiation by stimulating Runx2 and Osterix. 2865 91
Osteoporosis is a common metabolic
bone disorder
in the elderly population. The accumulation of bone microdamage is a critical factor of osteoporotic fracture. Neuropeptide Y (NPY) has been reported to regulated bone metabolism through Y1 receptor (Y1R). In this study the effects and mechanisms of Y1R antagonist on prevention for osteoporosis were characterized. In the clinical experiment, compared with osteoarthritis (OA), osteoporosis (OP) showed significant osteoporotic bone microstructure and accumulation of bone microdamage. NPY and Y1R immunoreactivity in bone were stronger in OP group, and were both correlated with bone volume fraction (BV/TV). In vivo experiment, Y1R antagonist significantly improved osteoporotic microstructure in the ovariectomized (OVX) rats. And Y1R antagonist promoted RUNX2, OPG and inhibit RANKL, MMP9 in bone marrow. In vitro cell culture experiment, NPY inhibited osteogenesis, elevated RANKL/OPG ratio and downregulated the expression of cAMP, p-PKAs and p-CREB in BMSCs, treated with Y1R antagonist or 8-Bromo-cAMP could inhibit the effects of NPY. Together, Y1R antagonist improved the bone microstructure and reduced bone microdamage in OVX rats. NPY-Y1R could inhibit osteoblast differentiation of BMSCs via cAMP/
PKA
/CREB pathway. Our findings highlight the regulation of NPY-Y1R in bone metabolism as a potential therapy strategy for the prevention of osteoporosis and osteoporotic fracture.
...
PMID:Neuropeptide Y1 receptor antagonist promotes osteoporosis and microdamage repair and enhances osteogenic differentiation of bone marrow stem cells via cAMP/PKA/CREB pathway. 3238 54
