Ribosomal protein S3 gene silencing protects against experimental allergic asthma.

BACKGROUND AND PURPOSE:Ribosomal protein S3 (RPS3) is a 40S ribosomal protein of the S3P family essential for implementing protein translation. RPS3 has recently been found to interact with the p65 subunit of the NF-κB complex and promote p65 DNA-binding activity. Persistent activation of the NF-κB pathway is evident in allergic asthma. We hypothesized that gene silencing of lung RPS3 can ameliorate allergic airway inflammation. EXPERIMENTAL APPROACH:The gene silencing efficacy of RPS3 siRNA was screened in three different mouse cell lines by real-time PCR and immunoblotting. Protective effects of intratracheal RPS3 siRNA in a house dust mite (HDM) mouse asthma model were determined by measuring cell counts in lung lavage fluid and lung sections, lung cytokine profiles and airway hyperresponsiveness (AHR). KEY RESULTS:RPS3 siRNA markedly knocked down RPS3 levels in all mouse cell lines tested, and in mouse lung tissues, blocked TNF-α- or HDM-induced release of mediators by the cultured cells and reduced eosinophil counts in lung lavage fluid from the HDM mouse asthma model. RPS3 siRNA lessened HDM-induced airway mucus hypersecretion, cytokine production and serum IgE elevation. Moreover, RPS3 knockdown significantly suppressed methacholine-induced AHR in experimental asthma. RPS3 siRNA disrupted TNF-α-induced NF-κB activation in a NF-κB reporter gene assay in vitro and prevented the nuclear accumulation of p65 subunit and p65 transcriptional activation in HDM-challenged lungs and cells. CONCLUSIONS AND IMPLICATIONS:RPS3 gene silencing ameliorates experimental asthma, probably by disrupting NF-κB activity. RPS3 could be a novel therapeutic target for allergic airway inflammation.

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