Xiaoyu Yang

Ultrasensitive Detection of Circulating LINE-1 ORF1p as a Specific Multicancer Biomarker

Abstract Improved biomarkers are needed for early cancer detection, risk stratification, treatment selection, and monitoring treatment response. Although proteins can be useful blood-based biomarkers, many have limited sensitivity or specificity for these applications. Long INterspersed Element-1 (LINE-1) open reading frame 1 protein (ORF1p) is a transposable element protein overexpressed in carcinomas and high-risk precursors during carcinogenesis with negligible expression in normal tissues, suggesting ORF1p could be a highly specific cancer biomarker. To explore ORF1p as a blood-based biomarker, we engineered ultrasensitive digital immunoassays that detect mid-attomolar (10−17 mol/L) ORF1p concentrations in plasma across multiple cancers with high specificity. Plasma ORF1p shows promise for early detection of ovarian cancer, improves diagnostic performance in a multianalyte panel, provides early therapeutic response monitoring in gastroesophageal cancers, and is prognostic for overall survival in gastroesophageal and colorectal cancers. Together, these observations nominate ORF1p as a multicancer biomarker with potential utility for disease detection and monitoring. Significance: The LINE-1 ORF1p transposon protein is pervasively expressed in many cancers and is a highly specific biomarker of multiple common, lethal carcinomas and their high-risk precursors in tissue and blood. Ultrasensitive ORF1p assays from as little as 25 μL plasma are novel, rapid, cost-effective tools in cancer detection and monitoring. See related commentary by Doucet and Cristofari, p. 2502. This article is featured in Selected Articles from This Issue, p. 2489

Targeting of MNK/eIF4E overcomes chemoresistance in cervical cancer

Abstract Objectives Eukaryotic translation initiation factor 4E (eIF4E) is activated in cancers in response to stress. This is regulated by MAP kinase interacting serine/threonine kinase (MNK) in cancerous but not normal cells. Chemoresistance causes treatment failure in advanced cervical cancer. In this study, we addressed chemotherapy effects on eIF4E for cervical cancer and reversal effects by MNK inhibitor cercosporamide for chemo-resistance mitigation. Methods Cell assays and mouse tumour models were used to determine the efficacy of cercosporamide. Western blotting was applied to understand the affected cell signaling after cercosporamide treatment. Key findings Cercosporamide spared normal cervical epithelial cells. On cervical cancer cell lines, it showed inhibition of cell growth and migration, and induced apoptosis. Cercosporamide was effective on chemoresistant cancer cells and augmented the efficiency of doxorubicin and cisplatin both in vitro and in vivo. Cercosporamide suppressed eIF4E signaling. Of note, chemotherapy increased p-eIF4E. Cercosporamide abolished chemotherapy-induced eIF4E activation. The higher level of p-eIF4E in cancer cells compared with normal cervical epithelial cells explains the preferential toxicity of cercosporamide. Conclusions This work demonstrates the ability of cercosporamide to overcome chemoresistance and highlight preferential inhibition of eIF4E via MNK inhibition in cervical cancer.