Growth rate alterations of human colorectal cancer cells by 157 gut bacteria

Abstract

ABSTRACTSeveral bacteria in the human gut microbiome have been associated with colorectal cancer (CRC) by high-throughput screens. In some cases, molecular mechanisms have been elucidated that drive tumorigenesis, including bacterial membrane proteins or secreted molecules that interact with the human cancer cells. For most gut bacteria, however, it remains unknown if they enhance or inhibit cancer cell growth. Here, we screened bacteria-free supernatants (secretomes) and inactivated cells of over 150 cultured bacterial strains for their effect on CRC cell growth. We observed family-level and strain-level effects that often differed between bacterial cells and secretomes, suggesting that different molecular mechanisms are at play. Secretomes ofBacteroidaceae,Enterobacteriaceae,andErysipelotrichaceaebacteria enhanced CRC cell growth, while mostFusobacteriaceaecells and secretomes inhibited growth, contrasting prior findings. In some bacteria, the presence of specific functional genes was associated with CRC cell growth rates, including the virulence genes TcdA inClostridialesand FadA inFusobacteriaceae, which both inhibited growth.Bacteroidaceaecells that enhanced growth were enriched for genes of the cobalamin synthesis pathway, whileFusobacteriaceaecells that inhibit growth were enriched for genes of the ethanolamine utilization pathway. Together, our results reveal how different gut bacteria have wide-ranging effects on cancer cells, contribute a better understanding of the effects of the gut microbiome on the human host, and provide a valuable resource for identifying candidate target genes for potential microbiome-based diagnostics and treatment strategies.