Spatial proteo-transcriptomic profiling reveals the molecular landscape of borderline ovarian tumors and their invasive progression

生物 转录组 癌症研究 癌变 浆液性液体 转移 肿瘤进展 基质 上皮-间质转换 癌症 基因 遗传学 基因表达 免疫学 生物化学 免疫组织化学
作者
Lisa Schweizer,Rahul Krishnan,Aasa Shimizu,Andreas Metousis,Hilary A. Kenny,Rachelle Mendoza,Thierry M. Nordmann,Sarah Rauch,Lucy Kelliher,Janna Heide,Florian A. Rosenberger,Agnes Julia Bilecz,Sanaa Nakad Borrego,Maximilian T. Strauss,Marvin Thielert,Edwin H. Rodriguez,Johannes Müller,Mengjie Chen,S. Diane Yamada,Andreas Mund
出处
期刊:medRxiv 被引量:7
标识
DOI:10.1101/2023.11.13.23298409
摘要

Abstract Serous borderline tumors (SBT) are epithelial neoplastic lesions of the ovaries that commonly have a good prognosis. In 10-15% of cases, however, SBT will recur as low-grade serous cancer (LGSC), which is deeply invasive and responds poorly to current standard chemotherapy 1,2,3 . While genetic alterations suggest a common origin, the transition from SBT to LGSC remains poorly understood 4 . Here, we integrate spatial proteomics 5 with spatial transcriptomics to elucidate the evolution from SBT to LGSC and its corresponding metastasis at the molecular level in both the stroma and the tumor. We show that the transition of SBT to LGSC occurs in the epithelial compartment through an intermediary stage with micropapillary features (SBT-MP), which involves a gradual increase in MAPK signaling. A distinct subset of proteins and transcripts was associated with the transition to invasive tumor growth, including the neuronal splicing factor NOVA2, which was limited to expression in LGSC and its corresponding metastasis. An integrative pathway analysis exposed aberrant molecular signaling of tumor cells supported by alterations in angiogenesis and inflammation in the tumor microenvironment. Integration of spatial transcriptomics and proteomics followed by knockdown of the most altered genes or pharmaceutical inhibition of the most relevant targets confirmed their functional significance in regulating key features of invasiveness. Combining cell-type resolved spatial proteomics and transcriptomics allowed us to elucidate the sequence of tumorigenesis from SBT to LGSC. The approach presented here is a blueprint to systematically elucidate mechanisms of tumorigenesis and find novel treatment strategies.
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