Norepinephrine induces anoikis resistance in high-grade serous ovarian cancer precursor cells
Hunter D. Reavis, … , Laura M. Sanchez, Ronny Drapkin
Hunter D. Reavis, … , Laura M. Sanchez, Ronny Drapkin
Published January 25, 2024
Citation Information: JCI Insight. 2024;9(5):e170961. https://doi.org/10.1172/jci.insight.170961.
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Research Article Cell biology Oncology

Norepinephrine induces anoikis resistance in high-grade serous ovarian cancer precursor cells

Abstract

High-grade serous carcinoma (HGSC) is the most lethal gynecological malignancy in the United States. Late diagnosis and the emergence of chemoresistance have prompted studies into how the tumor microenvironment, and more recently tumor innervation, may be leveraged for HGSC prevention and interception. In addition to stess-induced sources, concentrations of the sympathetic neurotransmitter norepinephrine (NE) in the ovary increase during ovulation and after menopause. Importantly, NE exacerbates advanced HGSC progression. However, little is known about the role of NE in early disease pathogenesis. Here, we investigated the role of NE in instigating anchorage independence and micrometastasis of preneoplastic lesions from the fallopian tube epithelium (FTE) to the ovary, an essential step in HGSC onset. We found that in the presence of NE, FTE cell lines were able to survive in ultra-low-attachment (ULA) culture in a β-adrenergic receptor–dependent (β-AR–dependent) manner. Importantly, spheroid formation and cell viability conferred by treatment with physiological sources of NE were abrogated using the β-AR blocker propranolol. We have also identified that NE-mediated anoikis resistance may be attributable to downregulation of colony-stimulating factor 2. These findings provide mechanistic insight and identify targets that may be regulated by ovary-derived NE in early HGSC.

Authors

Hunter D. Reavis, Stefan M. Gysler, Grace B. McKenney, Matthew Knarr, Hannah J. Lusk, Priyanka Rawat, Hannah S. Rendulich, Marilyn A. Mitchell, Dara S. Berger, Jamie S. Moon, Suyeon Ryu, Monica Mainigi, Marcin P. Iwanicki, Dave S. Hoon, Laura M. Sanchez, Ronny Drapkin

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Figure 4

Propranolol abrogates morphological and survival changes imparted by NE-rich human FF.

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Propranolol abrogates morphological and survival changes imparted by NE-...
(A and B) Bright-field images and area measurements for FT246 cells treated for 24 hours in ULA culture with 18 different FF samples collected from 17 different patients (10% volume). (C) Linear regression for correlation between FT246 aggregate area and relative NE concentration quantified via mass spectrometry analysis. (D) Fluorescence images of total cells (blue) and dead cells (green), quantified in E, for each FT246 cell aggregate, cultured as in A. (F) Linear regression for correlation between the number of dead cells in FT246 aggregates and relative NE concentration per sample. (G and H) Bright-field images and area measurements for FT246 cells treated with vehicle, NE, FF2, FF6, or FF16 in the presence or absence of 10 μM propranolol. (I and J) Fluorescence images and dead cell quantification for cells as cultured in G. These images were all taken at 10× original magnification and scale bars represent 100 µm. Each experiment was conducted in technical triplicate for each biological sample (n = 1).