Abstract
Cystic fibrosis (CF) is a common, lethal genetic disease, which is due to mutations in the CFTR gene. The CF lung expresses a profoundly proinflammatory phenotype, due to constitutive hypersecretion of IL-8 from epithelial cells lining the airways. In a systematic search for candidate drugs that might be used therapeutically to suppress IL-8 secretion from these cells, we have identified a potent and efficacious series of amphiphilic pyridinium salts. The most potent of these salts is MRS2481, an ( R)-1-phenylpropionic acid ester, with an IC 50 of ca. 1 μM. We have synthesized 21 analogues of MRS2481, which have proven sufficient to develop a preliminary structure–activity relationship (SAR). For optimal activity, we have found that the ester must be connected to the pyridinium derivative by an eight-carbon chain. An optical isomer of the lead compound, containing an ( S)-1-phenylpropionic acid ester, has been found to be a much less active. The mechanism of action of MRS2481 appears to involve inhibition of signaling of the NFκB and AP-1 transcription factors to the IL-8 promoter. MRS2481 is a potent inhibitor of TNFα-induced phosphorylation and proteosomal destruction of IκBα. Inasmuch as IκBα is the principal inhibitor of the NFκB signaling pathway, preservation of intact IκBα would serve to keep the IL-8 promoter silent. We also find that MRS2481 blocks TNFα-activated phosphorylation of JNK, the c-JUN kinase. The IL-8 promoter is also activated by an AP-1 site, which requires a phospho-c-JUN/c-FOS dimer for activity. We therefore interpret these data to suggest that the mechanism of MRS2481 action is to inhibit both NFκB and AP-1 signaling on the IL-8 promoter. Given the medicinally promising properties of water-solubility, potency in the low μM concentration range, and high efficacy, we anticipate that MRS2481, or a further optimized derivative, may find an important place in the armamentarium of pharmaceutical strategies yet to be arrayed against the inflammatory phenotype of the CF lung.
Accepted Version
Published Version
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