Conclusion
FIR may provide beneficial effects on the AIA rat model of arthritis by suppression of the MAPK, PI3K-Akt and NF-κB signaling pathways. Therefore, we believe that FIR may provide an alternative non-pharmacological and non-surgical therapeutic approach for the treatment of RA.
Methods
Adjuvant-induced arthritis (AIA) rat models were established to assess the therapeutic potency of FIR in RA treatment. The scoring parameters such as arthritis score, swelling of the hind paw, spleen and thymus indices, micro-CT analysis indices were adopted to estimate the beneficial effects of FIR during RA treatment in AIA model. PCR gene expression arrays were used to analyze inflammatory and autoimmune genes expression profiles in rat synovium. The inflammatory and immunity genes profiling was further analyzed through transcription factor prediction using PROMO. A signaling network map of possible molecular circuits connecting the identified differential genes to the RA's pathogenesis was constructed based on extensive literature reviews, and the major signaling pathways were validated by Western blotting.
Results
Thirty minutes of FIR treatment significantly improved the symptoms of AIA in rats. Gene expression profiling indicated that 27 out of 370 genes were down-regulated by FIR. AP-1, CEBPα, CEBPβ, c-Fos, GR, HNF-3β, USF-1, and USF-2 were predicted as key transcription factors that regulated the identified differential genes. In addition, MAPK, PI3K-Akt, and NF-κB signaling are the major molecular pathways down-regulated by FIR treatment.