Selection and characterization of a new human Interleukin-17A blocking DNA aptamer using protein-SELEX.

BACKGROUND

Interleukin-17A (IL-17A) is an important pro-inflammatory cytokine observed in the development of many disorders, such as psoriasis, rheumatoid arthritis, and multiple sclerosis. The anti-IL-17A biological drugs, including Secukinumab, Ixekizumab, and Brodalumab, are monoclonal antibodies approved for several disease treatments. Due to the disadvantages of biological therapies, including their immunogenicity, difficulties in scale generation, and high production costs and time, it is necessary to find new alternative anti- IL-17A agents for these monoclonal antibodies. Our study aimed to identify ssDNA aptamers that block IL-17A activity using the protein-SELEX procedure.

METHODS

The hIL-17A was expressed in codon plus E. coli, and after 14 rounds of the SELEX process, monitoring of aptamer pools was done using the dot blot method. Three families of aptamers were obtained from the selected round 9 aptamer pool, and seven truncates were created. Inhibitory effects of aptamer truncate on IL-17-induced CCL20 expression in HaCaT keratinocytes were evaluated.

RESULTS

All aptamer truncates had a significant inhibitory effect compared to the library, but the inhibitory effect of M2 and M7 truncates was more than 80%. Moreover, we evaluated the potential binding site of selected aptamers by ELISA.

CONCLUSIONS

We introduced a new small 17-nucleotide DNA aptamer that efficiently binds and blocks hIL-17A with a 0.3 nM kd, a potential anti-IL-17A therapeutic agent.