Inhibition of 6‐phosphofructo‐2‐kinase suppresses fibroblast‐like synoviocytes‐mediated synovial inflammation and joint destruction in rheumatoid arthritis

Article date: May 2017

By: Yaoyao Zou, Shan Zeng, Mingcheng Huang, Qian Qiu, Youjun Xiao, Maohua Shi, Zhongping Zhan, Liuqin Liang, Xiuyan Yang, Hanshi Xu in Volume 174, Issue 9, pages 893-908

Background and Purpose

Abnormal glycolytic metabolism contributes to joint inflammation in rheumatoid arthritis (RA). The aims of this study were to investigate the role of 6‐phosphofructo‐2‐kinase/fructose‐2,6‐bisphosphatase 3 (PFKFB3), a bifunctional enzyme that controls the glycolytic rate, in regulating fibroblast‐like synoviocyte (FLS)‐mediated synovial inflammation and invasiveness in RA.

Experimental Approach

A specific inhibitor of PFKFB3, PFK15, and siRNA were used to evaluate the role of PFKFB3. Protein expression was measured by Western blotting or immunofluorescence staining. The expression of cytokines was determined by quantitative real‐time PCR. Migration and invasion were measured using a Boyden chamber assay. A mouse model of collagen‐induced arthritis (CIA) was used to evaluate the in vivo effect of PFK15.

Key Results

PFKFB3 expression was increased in the synovial tissue and FLSs from RA patients compared with osteoarthritis patients. PFKFB3 inhibition decreased the expression of IL‐8, IL‐6, CCL‐2 and CXCL‐10 and the proliferation, migration and invasion of RA FLSs. PFK15 suppressed TNF‐α‐induced activation of NF‐κB and p38, JNK and ERK MAPK signals in RA FLSs. PFK15 treatment also suppressed glucose uptake and lactate secretion. Lactate reversed the inhibitory effect of PFK15 or PFKFB3 siRNA on cytokine expression and migration of RA FLSs. Lactate was also involved in PFKFB3‐mediated activation of NF‐κB and MAPKs. Intraperitoneal injection of PFK15 in mice with CIA attenuated joint inflammation.

Conclusion and Implications

Elevated PFKFB3 expression might contribute to synovial inflammation and aggressive behaviours of RA FLSs, suggesting a novel strategy of targeting PFKFB3 to prevent synovial inflammation and joint destruction in RA.

DOI: 10.1111/bph.13762

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