Literature DB >> 29567829

The Pancreatic Cancer Microbiome Promotes Oncogenesis by Induction of Innate and Adaptive Immune Suppression.

Smruti Pushalkar1, Mautin Hundeyin2, Donnele Daley2, Constantinos P Zambirinis2, Emma Kurz2, Ankita Mishra2, Navyatha Mohan2, Berk Aykut2, Mykhaylo Usyk1, Luisana E Torres2, Gregor Werba2, Kevin Zhang1, Yuqi Guo1, Qianhao Li1, Neha Akkad2, Sarah Lall2, Benjamin Wadowski2, Johana Gutierrez2, Juan Andres Kochen Rossi2, Jeremy W Herzog3, Brian Diskin2, Alejandro Torres-Hernandez2, Josh Leinwand2, Wei Wang2, Pardeep S Taunk2, Shivraj Savadkar2, Malvin Janal1, Anjana Saxena4, Xin Li1, Deirdre Cohen5, R Balfour Sartor3,6, Deepak Saxena7,2, George Miller8,9.   

Abstract

We found that the cancerous pancreas harbors a markedly more abundant microbiome compared with normal pancreas in both mice and humans, and select bacteria are differentially increased in the tumorous pancreas compared with gut. Ablation of the microbiome protects against preinvasive and invasive pancreatic ductal adenocarcinoma (PDA), whereas transfer of bacteria from PDA-bearing hosts, but not controls, reverses tumor protection. Bacterial ablation was associated with immunogenic reprogramming of the PDA tumor microenvironment, including a reduction in myeloid-derived suppressor cells and an increase in M1 macrophage differentiation, promoting TH1 differentiation of CD4+ T cells and CD8+ T-cell activation. Bacterial ablation also enabled efficacy for checkpoint-targeted immunotherapy by upregulating PD-1 expression. Mechanistically, the PDA microbiome generated a tolerogenic immune program by differentially activating select Toll-like receptors in monocytic cells. These data suggest that endogenous microbiota promote the crippling immune-suppression characteristic of PDA and that the microbiome has potential as a therapeutic target in the modulation of disease progression.Significance: We found that a distinct and abundant microbiome drives suppressive monocytic cellular differentiation in pancreatic cancer via selective Toll-like receptor ligation leading to T-cell anergy. Targeting the microbiome protects against oncogenesis, reverses intratumoral immune tolerance, and enables efficacy for checkpoint-based immunotherapy. These data have implications for understanding immune suppression in pancreatic cancer and its reversal in the clinic. Cancer Discov; 8(4); 403-16. ©2018 AACR.See related commentary by Riquelme et al., p. 386This article is highlighted in the In This Issue feature, p. 371. ©2018 American Association for Cancer Research.

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Year:  2018        PMID: 29567829      PMCID: PMC6225783          DOI: 10.1158/2159-8290.CD-17-1134

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   39.397


  54 in total

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Journal:  Science       Date:  2001-07-27       Impact factor: 47.728

2.  Protocol for rapid fluorescence in situ hybridization of bacteria in cryosections of microarthropods.

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3.  In Situ Detection of Bacteria within Paraffin-embedded Tissues Using a Digoxin-labeled DNA Probe Targeting 16S rRNA.

Authors:  Yun Sik Choi; Yong Cheol Kim; Keum Jin Baek; Youngnim Choi
Journal:  J Vis Exp       Date:  2015-05-21       Impact factor: 1.355

4.  The gut microbiome in health and disease.

Authors:  Chung Owyang; Gary D Wu
Journal:  Gastroenterology       Date:  2014-03-24       Impact factor: 22.682

5.  Prevalence of FOXP3+ regulatory T cells increases during the progression of pancreatic ductal adenocarcinoma and its premalignant lesions.

Authors:  Nobuyoshi Hiraoka; Kaoru Onozato; Tomoo Kosuge; Setsuo Hirohashi
Journal:  Clin Cancer Res       Date:  2006-09-15       Impact factor: 12.531

6.  Quantification of intestinal bacterial populations by real-time PCR with a universal primer set and minor groove binder probes: a global approach to the enteric flora.

Authors:  Stephan J Ott; Meike Musfeldt; Uwe Ullmann; Jochen Hampe; Stefan Schreiber
Journal:  J Clin Microbiol       Date:  2004-06       Impact factor: 5.948

7.  Dynamics of the immune reaction to pancreatic cancer from inception to invasion.

Authors:  Carolyn E Clark; Sunil R Hingorani; Rosemarie Mick; Chelsea Combs; David A Tuveson; Robert H Vonderheide
Journal:  Cancer Res       Date:  2007-10-01       Impact factor: 12.701

8.  Metagenomic biomarker discovery and explanation.

Authors:  Nicola Segata; Jacques Izard; Levi Waldron; Dirk Gevers; Larisa Miropolsky; Wendy S Garrett; Curtis Huttenhower
Journal:  Genome Biol       Date:  2011-06-24       Impact factor: 13.583

9.  NLRP3 signaling drives macrophage-induced adaptive immune suppression in pancreatic carcinoma.

Authors:  Donnele Daley; Vishnu R Mani; Navyatha Mohan; Neha Akkad; Gautam S D Balasubramania Pandian; Shivraj Savadkar; Ki Buom Lee; Alejandro Torres-Hernandez; Berk Aykut; Brian Diskin; Wei Wang; Mohammad S Farooq; Arif I Mahmud; Gregor Werba; Eduardo J Morales; Sarah Lall; Benjamin J Wadowski; Amanda G Rubin; Matthew E Berman; Rajkishen Narayanan; Mautin Hundeyin; George Miller
Journal:  J Exp Med       Date:  2017-04-25       Impact factor: 14.307

10.  Advancing our understanding of the human microbiome using QIIME.

Authors:  José A Navas-Molina; Juan M Peralta-Sánchez; Antonio González; Paul J McMurdie; Yoshiki Vázquez-Baeza; Zhenjiang Xu; Luke K Ursell; Christian Lauber; Hongwei Zhou; Se Jin Song; James Huntley; Gail L Ackermann; Donna Berg-Lyons; Susan Holmes; J Gregory Caporaso; Rob Knight
Journal:  Methods Enzymol       Date:  2013       Impact factor: 1.600
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  269 in total

1.  Innate αβ T Cells Mediate Antitumor Immunity by Orchestrating Immunogenic Macrophage Programming.

Authors:  Mautin Hundeyin; Emma Kurz; Ankita Mishra; Juan Andres Kochen Rossi; Shannon M Liudahl; Kenna R Leis; Harshita Mehrotra; Mirhee Kim; Luisana E Torres; Adesola Ogunsakin; Jason Link; Rosalie C Sears; Shamilene Sivagnanam; Jeremy Goecks; K M Sadeq Islam; Igor Dolgalev; Shivraj Savadkar; Wei Wang; Berk Aykut; Joshua Leinwand; Brian Diskin; Salma Adam; Muhammad Israr; Maeliss Gelas; Justin Lish; Kathryn Chin; Mohammad Saad Farooq; Benjamin Wadowski; Jingjing Wu; Suhagi Shah; Dennis O Adeegbe; Smruti Pushalkar; Varshini Vasudevaraja; Deepak Saxena; Kwok-Kin Wong; Lisa M Coussens; George Miller
Journal:  Cancer Discov       Date:  2019-07-02       Impact factor: 39.397

2.  Microbial dysbiosis and polyamine metabolism as predictive markers for early detection of pancreatic cancer.

Authors:  Roberto Mendez; Kousik Kesh; Nivedita Arora; Leá Di Martino; Florencia McAllister; Nipun Merchant; Sulagna Banerjee; Santanu Banerjee
Journal:  Carcinogenesis       Date:  2020-07-10       Impact factor: 4.944

3.  Intestinal Microbiota Is Altered in Patients with Gastric Cancer from Shanxi Province, China.

Authors:  Yu-Feng Qi; Jun-Ning Sun; Lai-Feng Ren; Xue-Ling Cao; Jian-Hong Dong; Kai Tao; Xue-Mei Guan; Ya-Ni Cui; Wen Su
Journal:  Dig Dis Sci       Date:  2018-12-07       Impact factor: 3.199

Review 4.  Virome and bacteriome: two sides of the same coin.

Authors:  Jonathan Stern; George Miller; Xin Li; Deepak Saxena
Journal:  Curr Opin Virol       Date:  2019-06-06       Impact factor: 7.090

Review 5.  Cellular determinants and therapeutic implications of inflammation in pancreatic cancer.

Authors:  Meredith L Stone; Gregory L Beatty
Journal:  Pharmacol Ther       Date:  2019-05-31       Impact factor: 12.310

6.  Can we harness the microbiota to enhance the efficacy of cancer immunotherapy?

Authors:  B Brett Finlay; Romina Goldszmid; Kenya Honda; Giorgio Trinchieri; Jennifer Wargo; Laurence Zitvogel
Journal:  Nat Rev Immunol       Date:  2020-07-13       Impact factor: 53.106

Review 7.  Gut Microbiome Modulates Response to Cancer Immunotherapy.

Authors:  Md Abdul Wadud Khan; Gabriel Ologun; Reetakshi Arora; Jennifer L McQuade; Jennifer A Wargo
Journal:  Dig Dis Sci       Date:  2020-03       Impact factor: 3.199

8.  The human tumor microbiome is composed of tumor type-specific intracellular bacteria.

Authors:  Deborah Nejman; Ilana Livyatan; Garold Fuks; Noam Shental; Ravid Straussman; Nancy Gavert; Yaara Zwang; Leore T Geller; Aviva Rotter-Maskowitz; Roi Weiser; Giuseppe Mallel; Elinor Gigi; Arnon Meltser; Gavin M Douglas; Iris Kamer; Vancheswaran Gopalakrishnan; Tali Dadosh; Smadar Levin-Zaidman; Sofia Avnet; Tehila Atlan; Zachary A Cooper; Reetakshi Arora; Alexandria P Cogdill; Md Abdul Wadud Khan; Gabriel Ologun; Yuval Bussi; Adina Weinberger; Maya Lotan-Pompan; Ofra Golani; Gili Perry; Merav Rokah; Keren Bahar-Shany; Elisa A Rozeman; Christian U Blank; Anat Ronai; Ron Shaoul; Amnon Amit; Tatiana Dorfman; Ran Kremer; Zvi R Cohen; Sagi Harnof; Tali Siegal; Einav Yehuda-Shnaidman; Einav Nili Gal-Yam; Hagit Shapira; Nicola Baldini; Morgan G I Langille; Alon Ben-Nun; Bella Kaufman; Aviram Nissan; Talia Golan; Maya Dadiani; Keren Levanon; Jair Bar; Shlomit Yust-Katz; Iris Barshack; Daniel S Peeper; Dan J Raz; Eran Segal; Jennifer A Wargo; Judith Sandbank
Journal:  Science       Date:  2020-05-29       Impact factor: 47.728

Review 9.  The Gut Microbiome in Pancreatic Disease.

Authors:  Venkata S Akshintala; Rupjyoti Talukdar; Vikesh K Singh; Michael Goggins
Journal:  Clin Gastroenterol Hepatol       Date:  2018-08-23       Impact factor: 11.382

10.  Metformin alters the duodenal microbiome and decreases the incidence of pancreatic ductal adenocarcinoma promoted by diet-induced obesity.

Authors:  Tien S Dong; Hui-Hua Chang; Meg Hauer; Venu Lagishetty; William Katzka; Enrique Rozengurt; Jonathan P Jacobs; Guido Eibl
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2019-09-23       Impact factor: 4.052
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