Abstract

Abstract Lung cancer is the second most common cancer in both men and women in the US and the leading cause of cancer death. Among younger US women, lung cancer incidence rates have in recent years become higher than rates seen in men, despite comparable histories of tobacco use. The possible contribution of stress to higher lung cancer risk in young women has received little research attention despite preclinical evidence that exposure to stress-related neuroendocrine responses can cause DNA damage. The present study used a well-established lung cancer model in young female mice (in vivo exposure to NNK) along with a mouse stress model to explore their independent and combined effects on lung cancer development. In addition, we explored one possible biological pathway by chronic administration of a beta-adrenergic receptor blocker (propranolol). We also tested the use of in vivo imaging for repeated monitoring of tumor development over time. Cohort 1 (n=60) had 4 groups: Home cage control, NNK treatment alone, repeated stress (RS) alone and NNK+RS. Cohort 2 (n=60) had the same 4 groups with the addition of administration of propranolol in drinking water. Cohort 3 (n=48, imaging cohort) had 3 groups: Home cage control, NNK alone and NNK+RS. FVB/N (4-6 wk) were purchased from a commercial supplier and acclimated with gentle handling for two weeks. The repeated stress protocol began week-3 and continued for the duration of the study. It combined two well-established rodent models: social disruption stress via changes in cage mates at the time of cage cleaning (2x/week) and a 90-minute restraint stress immediately prior to cage change (1x/week). NNK or saline treatment began on week-4 (IP; 2x/week; 3 mg/injection) and continued for 4 weeks. 21 weeks after stress initiation, the mice in cohorts 1 and 2 were sacrificed, lungs removed, inflated and tumors counted and sized. Mice in cohort 3 were imaged by Hounsfield-calibrated micro-CT (μCT) at baseline, 14, 19 and 23 weeks. The entire lung space, excluding the heart, was defined as a volumetric region of interests (VOIs). The VOIs were subjected to thresholding to segment the lungs into air space and tissue space compartments. The volume of tissue space of each animal was ratioed against its own baseline tissue space volume. Results from Cohort 1 revealed significantly greater numbers and overall size of lung tumors in stressed mice that received NNK. No significant effects were seen in the absence of NNK. Results from Cohort 2 revealed no significant differences between stressed and unstressed groups treated with propranolol. Cohort 3 revealed a pattern of results with stressed mice generally showing the highest lung tumor volume levels (Hounsfield Units), which reached significance at 19 weeks in preliminary analyses. Conclusion: In this study, we found that repeated stress increased lung tumor burden in female mice treated with NNK, and that a beta-adrenergic pathway may be involved. Citation Format: Frank Jenkins, Laura P. Stabile, Jessie R. Nedrow, Kathryn Day, Joseph D. Latoche, Patrick M. Tarwater, Jessica Manculich, Dana H. Bovbjerg. Effects of repeated psychological stress on NNK-induced lung cancer development in young female mice [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3391.

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