Xingkuan Wang scite author profile

Intervertebral disc degeneration (IDD) is caused by genetics, aging, and environmental factors and is one of the leading causes of low back pain. The treatment of IDD presents many challenges. Hydrogels are biomaterials that possess properties similar to those of the natural extracellular matrix and have significant potential in the field of regenerative medicine. Hydrogels with various functional qualities have recently been used to repair and regenerate diseased intervertebral discs. Here, we review the mechanisms of intervertebral disc homeostasis and degeneration and then discuss the applications of hydrogel-mediated repair and intervertebral disc regeneration. The classification of artificial hydrogels and natural hydrogels is then briefly introduced, followed by an update on the development of functional hydrogels, which include noncellular therapeutic hydrogels, cellular therapeutic hydrogel scaffolds, responsive hydrogels, and multifunctional hydrogels. The challenges faced and future developments of the hydrogels used in IDD are discussed as they further promote their clinical translation.

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β-Ecdysterone Enhanced Bone Regeneration Through the BMP-2/SMAD/RUNX2/Osterix Signaling Pathway

Yan

Wang

Jiang

et al. 2022

Front. Cell Dev. Biol.

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Graphical AbstractSchematic illustrations of the fabrication of the bone defect model and action of β-Ecd in promoting bone regeneration and repair of bone defects. We established a rat model of a femoral bone defect in vivo to evaluate the effect of β-Ecd on bone regeneration. Rats injected intraperitoneally with 72 mg/kg β-Ecd showed a higher degree of ossification of regenerated bone tissue at the site of the bone defect at weeks 4 and 8. β-ecdysterone binding to the BMP2 receptor activates SMAD1 to bind to SMAD1/5/8, promotes RUNX2 and OSTERIX replication in the nucleus, and mediates bone regeneration. This study provides a new approach to the treatment of bone injury and degenerative diseases represented by bone defects and osteoporosis.

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Marein prevented LPS-induced osteoclastogenesis by regulating the NF-κB pathway in vitro

Zhang

Yan

et al. 2022

Preprint

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Gram-negative bacterial infection causes many bone diseases such as osteolysis, osteomyelitis and septic arthritis. Lipopolysaccharide (LPS), a bacteria product, played an important role in this process. Drugs that inhibited LPS-induced osteoclastogenesis were urgently needed for the prevention of bone destruction in infective bone diseases. Marein, a major bioactive compound of Coreopsis.tinctoria, which possesses anti-oxidative, anti-inflammatory, anti-hypertensive, anti-hyperlipidemic and anti-diabetic effects. In this study, the effect of marein on RAW264.7 cells was measured by CCK-8 assay; TRAP staining was used to determine osteoclastogenesis; the levels of osteoclast-related genes and NF-κB-related proteins were analyzed by WB; the levels of pro-inflammatory cytokines were quantified by ELISA. Our results showed that marein inhibited LPS-induced osteoclast formation from osteoclast precursor RAW264.7 cells. The effect of marein was related to its inhibitory function on expressions of pro-inflammatory cytokines and osteoclast-related genes including RANK, TRAF6, MMP-9, CK and CAⅡ. Besides, marein treatment could inhibit LPS-induced activation of NF-κB signaling pathway in RAW264.7 cells. Meanwhile, inhibition of NF-κB signaling pathway decreased the formation of osteoclasts and expression of pro-inflammatory cytokines which were LPS-induced. Collectively, marein could prevent LPS-induced osteoclast formation in vitro by regulating NF-κB signaling pathway. These findings provided evidence that marein might be beneficial as a valuable choice for the prevention and treatment of bacteria-induced bone destruction disease, and gave new insights for understanding its possible mechanism.

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Marein Prevented LPS-Induced Osteoclastogenesis by Regulating the NF-κB Pathway In Vitro

Zhang

Yan

et al. 2022

J. Microbiol. Biotechnol.

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Gram-negative bacterial infection causes many bone diseases such as osteolysis, osteomyelitis and septic arthritis. Lipopolysaccharide (LPS), a bacteria product, played an important role in this process. Drugs that inhibited LPS-induced osteoclastogenesis were urgently needed for the prevention of bone destruction in infective bone diseases. Marein, a major bioactive compound of Coreopsis.tinctoria, which possesses anti-oxidative, anti-in ammatory, anti-hypertensive, anti-hyperlipidemic and anti-diabetic effects. In this study, the effect of marein on RAW264.7 cells was measured by CCK-8 assay; TRAP staining was used to determine osteoclastogenesis; the levels of osteoclast-related genes and NF-κBrelated proteins were analyzed by WB; the levels of pro-in ammatory cytokines were quanti ed by ELISA.Our results showed that marein inhibited LPS-induced osteoclast formation from osteoclast precursor RAW264.7 cells. The effect of marein was related to its inhibitory function on expressions of proin ammatory cytokines and osteoclast-related genes including RANK, TRAF6, MMP-9, CK and CA .Besides, marein treatment could inhibit LPS-induced activation of NF-κB signaling pathway in RAW264.7 cells. Meanwhile, inhibition of NF-κB signaling pathway decreased the formation of osteoclasts and expression of pro-in ammatory cytokines which were LPS-induced. Collectively, marein could prevent LPS-induced osteoclast formation in vitro by regulating NF-κB signaling pathway. These ndings provided evidence that marein might be bene cial as a valuable choice for the prevention and treatment of bacteria-induced bone destruction disease, and gave new insights for understanding its possible mechanism.

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Xingkuan Wang

Shear-responsive boundary-lubricated hydrogels attenuate osteoarthritis

Applications of Functionalized Hydrogels in the Regeneration of the Intervertebral Disc

β-Ecdysterone Enhanced Bone Regeneration Through the BMP-2/SMAD/RUNX2/Osterix Signaling Pathway

Marein prevented LPS-induced osteoclastogenesis by regulating the NF-κB pathway in vitro

Marein Prevented LPS-Induced Osteoclastogenesis by Regulating the NF-κB Pathway In Vitro

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