This study aimed to build an innovative system to deliver a systemic small interfering RNA (siRNA) treatment for rheumatoid arthritis. We combined arginine-histidine-cysteine based oligopeptide-modified polymer micelles with siRNA targeting the nuclear factor κB subunit, RelA (siRelA). This is a key molecule in the control of inflammation. We tested the cellular uptake of siRNA and its effects on inflammatory cytokine levels in vitro using synoviocytes, and siRNA distribution and therapeutic effects in vivo in mice with collagen-induced arthritis (CIA). These studies showed that arginine-histidine based oligopeptide modified micelles produced effective cellular siRNA uptake and suppressed inflammatory cytokine levels in synoviocytes. In vivo, these micelles produced marked accumulation of siRNAs in arthritic paws in CIA mice, with much less accumulation in healthy mice. The siRelA-polymer micelle complexes also produced more effective suppression of RelA mRNA expression and inflammatory cytokine levels in the arthritic paws of CIA mice and reduced their clinical symptom scores and paw thickness.
Keywords: Functional peptides; Nuclear factor κB; Polymeric micelles; RelA; Rheumatoid arthritis; Systemic siRNA delivery.
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