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Colorectal cancer-associated anaerobic bacteria proliferate in tumor spheroids and alter the microenvironment

Stephen H. Kasper, Carolina Morell-Perez, Thomas P. Wyche, Theodore R. Sana, Linda A. Lieberman, Erik C. Hett

2020Scientific Reports67 citationsDOIOpen Access PDF

Abstract

Recent reports show that colorectal tumors contain microbiota that are distinct from those that reside in a 'normal' colon environment, and that these microbiota can contribute to cancer progression. Fusobacterium nucleatum is the most commonly observed species in the colorectal tumor microenvironment and reportedly influences disease progression through numerous mechanisms. However, a detailed understanding of the role of this organism in cancer progression is limited, in part due to challenges in maintaining F. nucleatum viability under standard aerobic cell culture conditions. Herein we describe the development of a 3-dimensional (3D) tumor spheroid model that can harbor and promote the growth of anaerobic bacteria. Bacteria-tumor cell interactions and metabolic crosstalk were extensively studied by measuring the kinetics of bacterial growth, cell morphology and lysis, cancer-related gene expression, and metabolomics. We observed that viable F. nucleatum assembles biofilm-like structures in the tumor spheroid microenvironment, whereas heat-killed F. nucleatum is internalized and sequestered in the cancer cells. Lastly, we use the model to co-culture 28 Fusobacterium clinical isolates and demonstrate that the model successfully supports co-culture with diverse fusobacterial species. This bacteria-spheroid co-culture model enables mechanistic investigation of the role of anaerobic bacteria in the tumor microenvironment.

Topics & Concepts

Fusobacterium nucleatumTumor microenvironmentBiologyColorectal cancerBiofilmTumor progressionSpheroidAnaerobic bacteriaMicrobiologyFusobacteriumBacteriaCancer researchCell cultureCancerTumor cellsBacteroidesGeneticsPorphyromonas gingivalisGut microbiota and healthCancer Research and TreatmentsPolyamine Metabolism and Applications
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