Author:
Hunt Allison L.,Bateman Nicholas W.,Barakat Waleed,Makohon-Moore Sasha C.,Abulez Tamara,Driscoll Jordan A.,Schaaf Joshua P.,Hood Brian L.,Conrads Kelly A.,Zhou Ming,Calvert Valerie,Pierobon Mariaelena,Loffredo Jeremy,Wilson Katlin N.,Litzi Tracy J.,Teng Pang-Ning,Oliver Julie,Mitchell Dave,Gist Glenn,Rojas Christine,Blanton Brian,Darcy Kathleen M.,Rao Uma N. M.,Petricoin Emanuel F.,Phippen Neil T.,Maxwell G. Larry,Conrads Thomas P.
Abstract
Abstract
Background
Although uterine serous carcinoma (USC) represents a small proportion of all uterine cancer cases, patients with this aggressive subtype typically have high rates of chemotherapy resistance and disease recurrence that collectively result in a disproportionately high death rate. The goal of this study was to provide a deeper view of the tumor microenvironment of this poorly characterized uterine cancer variant through multi-region microsampling and quantitative proteomics.
Methods
Tumor epithelium, tumor-involved stroma, and whole “bulk” tissue were harvested by laser microdissection (LMD) from spatially resolved levels from nine USC patient tumor specimens and underwent proteomic analysis by mass spectrometry and reverse phase protein arrays, as well as transcriptomic analysis by RNA-sequencing for one patient’s tumor.
Results
LMD enriched cell subpopulations demonstrated varying degrees of relatedness, indicating substantial intratumor heterogeneity emphasizing the necessity for enrichment of cellular subpopulations prior to molecular analysis. Known prognostic biomarkers were quantified with stable levels in both LMD enriched tumor and stroma, which were shown to be highly variable in bulk tissue. These USC data were further used in a comparative analysis with a data generated from another serous gynecologic malignancy, high grade serous ovarian carcinoma, and have been added to our publicly available data analysis tool, the Heterogeneity Analysis Portal (https://lmdomics.org/).
Conclusions
Here we identified extensive three-dimensional heterogeneity within the USC tumor microenvironment, with disease-relevant biomarkers present in both the tumor and the stroma. These data underscore the critical need for upfront enrichment of cellular subpopulations from tissue specimens for spatial proteogenomic analysis.
Publisher
Springer Science and Business Media LLC
Cited by
2 articles.
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