PFN1 Prevents Psoriasis Pathogenesis through IκBζ Regulation.

PFN1 is an actin-binding protein that regulates actin polymerization, cell proliferation, apoptosis, angiogenesis, and carcinogenesis. Its dysregulation has been reported in diverse pathologic diseases; however, the role of PFN1 in psoriasis has not yet been elucidated. In this study, we show that PFN1 expression is increased in both skin and serum of patients with psoriasis. PFN1 was markedly expressed in the epidermis of psoriatic lesions, and its expression positively correlated with psoriasis severity. IL-17A treatment of keratinocytes increased PFN1 expression, whereas TNF-α induced PFN1 expression and secretion. In addition, knockdown of PFN1 with short hairpin RNA resulted in an altered expression of psoriasis-associated inflammatory markers, HBD2, S100A7, S100A9, and Ki-67, and recombinant PFN1 suppressed the IL-17A‒induced inflammatory response in keratinocytes. Interestingly, recombinant PFN1 also suppressed IL-17A‒induced IκBζ, an important player in immune response in psoriasis. Collectively, our results show that PFN1 acts as a negative regulator of psoriatic inflammation through the suppression of IκBζ and that the balanced level of PFN1 is important for IκBζ regulation. Thus, the expression of PFN1 can be used as a biomarker for psoriasis severity, and it can be considered as a possible target for the treatment of psoriasis.

A Michael Acceptor Analogue, SKSI-0412, Down-Regulates Inflammation and Proliferation Factors through Suppressing Signal Transducer and Activator of Transcription 3 Signaling in IL-17A-Induced Human Keratinocyte.

The activation of signal transducer and activator of transcription 3 (STAT3), as well as up-regulation of cytokines and growth factors to promote STAT3 activation, have been found in the epidermis of psoriatic lesions. Recently, a series of synthetic compounds possessing the Michael acceptor have been reported as STAT3 inhibitors by covalently binding to cysteine of STAT3. We synthesized a Michael acceptor analog, SKSI-0412, and confirmed the binding affinity between STAT3 and SKSI-0412. We hypothesized that the SKSI-0412 can inhibit interleukin (IL)-17A-induced inflammation in keratinocytes. The introduction of IL-17A increased the phosphorylation of STAT3 in keratinocytes, whereas the inactivation of STAT3 by SKSI-0412 reduced IL-17A-induced STAT3 phosphorylation and IκBζ expression. In addition, human ß defensin-2 and S100A7, which are regulated by IκBζ, were significantly decreased with SKSI-0412 administration. We also confirmed that SKSI-0412 regulates cell proliferation, which is the major phenotype of psoriasis. Based on these results, we suggest targeting STAT3 with SKSI-0412 as a novel therapeutic strategy to regulate IL-17A-induced psoriatic inflammation in keratinocytes.