Peptide-siRNA nanocomplexes targeting NF-κB subunit p65 suppress nascent experimental arthritis
Hui-fang Zhou, Huimin Yan, Hua Pan, Kirk K. Hou, Antonina Akk, Luke E. Springer, Ying Hu, J. Stacy Allen, Samuel A. Wickline, Christine T.N. Pham
Hui-fang Zhou, Huimin Yan, Hua Pan, Kirk K. Hou, Antonina Akk, Luke E. Springer, Ying Hu, J. Stacy Allen, Samuel A. Wickline, Christine T.N. Pham
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Technical Advance Inflammation

Peptide-siRNA nanocomplexes targeting NF-κB subunit p65 suppress nascent experimental arthritis

Abstract

The NF-κB signaling pathway is implicated in various inflammatory diseases, including rheumatoid arthritis (RA); therefore, inhibition of this pathway has the potential to ameliorate an array of inflammatory diseases. Given that NF-κB signaling is critical for many immune cell functions, systemic blockade of this pathway may lead to detrimental side effects. siRNAs coupled with a safe and effective delivery nanoplatform may afford the specificity lacking in systemic administration of small-molecule inhibitors. Here we demonstrated that a melittin-derived cationic amphipathic peptide combined with siRNA targeting the p65 subunit of NF-κB (p5RHH-p65) noncovalently self-assemble into stable nanocomplexes that home to the inflamed joints in a murine model of RA. Specifically, administration of p5RHH-p65 siRNA nanocomplexes abrogated inflammatory cytokine expression and cellular influx into the joints, protected against bone erosions, and preserved cartilage integrity. The p5RHH-p65 siRNA nanocomplexes potently suppressed early inflammatory arthritis without affecting p65 expression in off-target organs or eliciting a humoral response after serial injections. These data suggest that this self-assembling, largely nontoxic platform may have broad utility for the specific delivery of siRNA to target and limit inflammatory processes for the treatment of a variety of diseases.

Authors

Hui-fang Zhou, Huimin Yan, Hua Pan, Kirk K. Hou, Antonina Akk, Luke E. Springer, Ying Hu, J. Stacy Allen, Samuel A. Wickline, Christine T.N. Pham

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Figure 9

Effects of p5RHH-p65 siRNA nanoparticles on immune responses.

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Effects of p5RHH-p65 siRNA nanoparticles on immune responses. (A) Naive ...
(A) Naive mice were injected with 1 dose of HBSS, p5RHH siRNA nanoparticles, or p5RHH-p65 nanoparticles, and their plasma was obtained after 30 minutes for C3a assay as evidence of complement activation. Mice injected with 50 molar percentage of DOTAP (DOTAP NP) served as positive controls for robust complement activation. (B and C) Arthritic mice were serially treated with HBSS, p5RHH siRNA nanoparticles, or p5RHH-p65 siRNA nanoparticles on days 4, 5, and 6. On day 10, serum was obtained and probed for the presence of IgM and IgG antibodies against p5RHH (B) or the p5RHH siRNA nanocomplex (C). The levels of specific antibody response (measured by direct absorbance at 450 nm) were similar in all 3 treatment groups and minimally higher than the levels observed in μMT mice that lack all antibodies. (D) Total serum levels of IgM and IgG were also unchanged after nanoparticle treatment.