ESE3-positive PSCs drive pancreatic cancer fibrosis, chemoresistance and poor prognosis via tumour-stromal IL-1β/NF-κB/ESE3 signalling axis

Background Desmoplastic stroma, a feature of pancreatic ductal adenocarcinoma (PDAC), contains abundant activated pancreatic stellate cells (PSCs). How PSCs promote PDAC progression remains incompletely understood. Methods Effect of epithelium-specific E-twenty six factor 3 (ESE3)-positive PSCs on PDAC fibrosis and chemoresistance was examined by western blot, RT-PCR, immunofluorescence, flow cytometry assay, chromatin immunoprecipitation, luciferase assay, immunohistochemistry and subcutaneous pancreatic cancer mouse model. Results ESE3 expression increased in PSCs in PDAC tissues compared with those in normal PSCs. Clinical data showed that ESE3 upregulation in PSCs was positively correlated with tumour size, pTNM stage, CA19-9, carcinoembryonic antigen and serum CA242 level. ESE3 overexpression in PSCs was an independent negative prognostic factor for disease-free survival and overall survival amongst patients with PDAC. Mechanistically, the conditional medium from the loss and gain of ESE3-expressing PSCs influenced PDAC chemoresistance and tumour growth. ESE3 directly induced the transcription of alpha-SMA, collagen-I and IL-1 beta by binding to ESE3-binding sites on their promoters to activate PSCs. IL-1 beta upregulated ESE3 in PSCs through NF-kappa B activation, and ESE3 was required for PSC activation by tumour cell-derived IL-1 beta. Conclusion Inhibiting the IL-1 beta/ESE3 (PSCs)/IL-1 beta-positive feedback loop is a promising therapeutic strategy to reduce tumour fibrosis and increase chemotherapeutic efficacy in PDAC.

Automated summary

The study found that ESE3 expression was upregulated in PDAC tissues and correlated with clinical indicators. ESE3 promoted the progression of PDAC by activating PSCs. IL-1β induced ESE3 expression in PSCs and activated PSCs, thereby influencing PDAC chemoresistance and tumor growth. Inhibiting the IL-1β/ESE3 positive feedback loop may be a promising therapeutic strategy to reduce tumor fibrosis and enhance chemotherapeutic efficacy in PDAC.