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Abstract Title:

Paeoniflorin-6'-O-benzene sulfonate down-regulates CXCR4-Gβγ-PI3K/AKT mediated migration in fibroblast-like synoviocytes of rheumatoid arthritis by inhibiting GRK2 translocation.

Abstract Source:

Biochem Biophys Res Commun. 2020 Jun 4 ;526(3):805-812. Epub 2020 Apr 5. PMID: 32268958

Abstract Author(s):

Dan-Dan Wang, Meng-Ya Jiang, Wu Wang, Wei-Jie Zhou, Yu-Wen Zhang, Mei Yang, Jing-Yu Chen, Wei Wei

Article Affiliation:

Dan-Dan Wang

Abstract:

OBJECTIVE: This study aims to explore the effect of paeoniflorin-6'-O-benzene sulfonate (CP-25) on the migration of fibroblast-like synoviocytes (FLS) in rheumatoid arthritis (RA) and the mechanism focused on CXCR4-Gβγ-PI3K/AKT signaling.

METHODS: Human synovial tissues were collected from RA and osteoarthritis (OA) patients. Immunohistochemistry (IHC) and Western blot were used to detect the protein expression of CXCR4, GRK2, Gβγ, PI3K, p-PI3K, AKT and p-AKT. Transwell was adopted to analyse the migration of fibroblast-like synoviocytes (FLS). Co-immunoprecipitation (Co-IP) and laser scanning confocal microscopy (LSCM) were used to detect the combination of GRK2 and Gβγ, the combination of PI3K and Gβγ.

RESULTS: The expression level of CXCR4, GRK2, Gβγ, p-p85 and p-AKT were increased in RA synovial tissue according to the results of IHC and Western blot. In vitro, the migration of FLS was increased after stimulation of CXCL12, inhibition of Gβγ suppressed the migration and phosphorylation of p85 and AKT induced by CXCL12 in FLS, and CP-25had the same effect as inhibition of Gβγ. The membrane expression of GRK2, Gβγ, PI3K and the combination of GRK2 and Gβγ, the combination of PI3K and Gβγ in FLS were increased after the stimulation of CXCL12, and CP-25 had an ability in reducing the membrane expression and the combination ofthese proteins.

CONCLUSION: Excessive migration of FLS in RA was associated with over-activation of PI3K/AKT signaling, and the activity of Gβγ was involved in the over-activation of PI3K/AKT. CP-25 down-regulated CXCR4-Gβγ-PI3K/AKT signals by inhibiting GRK2-Gβγ complex membrane translocation.

Study Type : In Vitro Study

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Sayer Ji
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