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Potential role of intratumor bacteria in mediating tumor resistance to the chemotherapeutic drug gemcitabine.

Science (New York, N.Y.) (2017-09-16)
Leore T Geller, Michal Barzily-Rokni, Tal Danino, Oliver H Jonas, Noam Shental, Deborah Nejman, Nancy Gavert, Yaara Zwang, Zachary A Cooper, Kevin Shee, Christoph A Thaiss, Alexandre Reuben, Jonathan Livny, Roi Avraham, Dennie T Frederick, Matteo Ligorio, Kelly Chatman, Stephen E Johnston, Carrie M Mosher, Alexander Brandis, Garold Fuks, Candice Gurbatri, Vancheswaran Gopalakrishnan, Michael Kim, Mark W Hurd, Matthew Katz, Jason Fleming, Anirban Maitra, David A Smith, Matt Skalak, Jeffrey Bu, Monia Michaud, Sunia A Trauger, Iris Barshack, Talia Golan, Judith Sandbank, Keith T Flaherty, Anna Mandinova, Wendy S Garrett, Sarah P Thayer, Cristina R Ferrone, Curtis Huttenhower, Sangeeta N Bhatia, Dirk Gevers, Jennifer A Wargo, Todd R Golub, Ravid Straussman
RESUMEN

Growing evidence suggests that microbes can influence the efficacy of cancer therapies. By studying colon cancer models, we found that bacteria can metabolize the chemotherapeutic drug gemcitabine (2',2'-difluorodeoxycytidine) into its inactive form, 2',2'-difluorodeoxyuridine. Metabolism was dependent on the expression of a long isoform of the bacterial enzyme cytidine deaminase (CDDL), seen primarily in Gammaproteobacteria. In a colon cancer mouse model, gemcitabine resistance was induced by intratumor Gammaproteobacteria, dependent on bacterial CDDL expression, and abrogated by cotreatment with the antibiotic ciprofloxacin. Gemcitabine is commonly used to treat pancreatic ductal adenocarcinoma (PDAC), and we hypothesized that intratumor bacteria might contribute to drug resistance of these tumors. Consistent with this possibility, we found that of the 113 human PDACs that were tested, 86 (76%) were positive for bacteria, mainly Gammaproteobacteria.

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