Literature DB >> 29942093

A natural killer-dendritic cell axis defines checkpoint therapy-responsive tumor microenvironments.

Kevin C Barry1,2, Joy Hsu1,2, Miranda L Broz1,2, Francisco J Cueto1,3,4, Mikhail Binnewies1, Alexis J Combes1,2, Amanda E Nelson1,2, Kimberly Loo2,5,6, Raj Kumar1,2, Michael D Rosenblum6, Michael D Alvarado6, Denise M Wolf7, Dusan Bogunovic8, Nina Bhardwaj9, Adil I Daud6, Patrick K Ha10, William R Ryan10, Joshua L Pollack11, Bushra Samad1,2, Saurabh Asthana2, Vincent Chan1,2, Matthew F Krummel12,13.   

Abstract

Intratumoral stimulatory dendritic cells (SDCs) play an important role in stimulating cytotoxic T cells and driving immune responses against cancer. Understanding the mechanisms that regulate their abundance in the tumor microenvironment (TME) could unveil new therapeutic opportunities. We find that in human melanoma, SDC abundance is associated with intratumoral expression of the gene encoding the cytokine FLT3LG. FLT3LG is predominantly produced by lymphocytes, notably natural killer (NK) cells in mouse and human tumors. NK cells stably form conjugates with SDCs in the mouse TME, and genetic and cellular ablation of NK cells in mice demonstrates their importance in positively regulating SDC abundance in tumor through production of FLT3L. Although anti-PD-1 'checkpoint' immunotherapy for cancer largely targets T cells, we find that NK cell frequency correlates with protective SDCs in human cancers, with patient responsiveness to anti-PD-1 immunotherapy, and with increased overall survival. Our studies reveal that innate immune SDCs and NK cells cluster together as an excellent prognostic tool for T cell-directed immunotherapy and that these innate cells are necessary for enhanced T cell tumor responses, suggesting this axis as a target for new therapies.

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Year:  2018        PMID: 29942093      PMCID: PMC6475503          DOI: 10.1038/s41591-018-0085-8

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  40 in total

1.  Tumor induction relationships in development of transplantable cancers of the colon in mice for chemotherapy assays, with a note on carcinogen structure.

Authors:  T H Corbett; D P Griswold; B J Roberts; J C Peckham; F M Schabel
Journal:  Cancer Res       Date:  1975-09       Impact factor: 12.701

2.  Mice lacking flt3 ligand have deficient hematopoiesis affecting hematopoietic progenitor cells, dendritic cells, and natural killer cells.

Authors:  H J McKenna; K L Stocking; R E Miller; K Brasel; T De Smedt; E Maraskovsky; C R Maliszewski; D H Lynch; J Smith; B Pulendran; E R Roux; M Teepe; S D Lyman; J J Peschon
Journal:  Blood       Date:  2000-06-01       Impact factor: 22.113

3.  Distinct Cellular Mechanisms Underlie Anti-CTLA-4 and Anti-PD-1 Checkpoint Blockade.

Authors:  Spencer C Wei; Jacob H Levine; Alexandria P Cogdill; Yang Zhao; Nana-Ama A S Anang; Miles C Andrews; Padmanee Sharma; Jing Wang; Jennifer A Wargo; Dana Pe'er; James P Allison
Journal:  Cell       Date:  2017-08-10       Impact factor: 41.582

4.  Tumor-Residing Batf3 Dendritic Cells Are Required for Effector T Cell Trafficking and Adoptive T Cell Therapy.

Authors:  Stefani Spranger; Daisy Dai; Brendan Horton; Thomas F Gajewski
Journal:  Cancer Cell       Date:  2017-05-08       Impact factor: 31.743

5.  Lethal influenza infection in the absence of the natural killer cell receptor gene Ncr1.

Authors:  Roi Gazit; Raizy Gruda; Moran Elboim; Tal I Arnon; Gil Katz; Hagit Achdout; Jacob Hanna; Udi Qimron; Guy Landau; Evgenia Greenbaum; Zichria Zakay-Rones; Angel Porgador; Ofer Mandelboim
Journal:  Nat Immunol       Date:  2006-03-26       Impact factor: 25.606

Review 6.  Data mining The Cancer Genome Atlas in the era of precision cancer medicine.

Authors:  Phil F Cheng; Reinhard Dummer; Mitchell P Levesque
Journal:  Swiss Med Wkly       Date:  2015-09-16       Impact factor: 2.193

7.  Suppression of Metastases Using a New Lymphocyte Checkpoint Target for Cancer Immunotherapy.

Authors:  Stephen J Blake; Kimberley Stannard; Jing Liu; Stacey Allen; Michelle C R Yong; Deepak Mittal; Amelia Roman Aguilera; John J Miles; Viviana P Lutzky; Lucas Ferrari de Andrade; Ludovic Martinet; Marco Colonna; Kazuyoshi Takeda; Florian Kühnel; Engin Gurlevik; Günter Bernhardt; Michele W L Teng; Mark J Smyth
Journal:  Cancer Discov       Date:  2016-01-19       Impact factor: 39.397

8.  Organ-specific cellular requirements for in vivo dendritic cell generation.

Authors:  Tewfik Miloud; Nathalie Fiegler; Janine Suffner; Günter J Hämmerling; Natalio Garbi
Journal:  J Immunol       Date:  2011-12-23       Impact factor: 5.422

9.  High-dimensional single-cell analysis predicts response to anti-PD-1 immunotherapy.

Authors:  Carsten Krieg; Malgorzata Nowicka; Silvia Guglietta; Sabrina Schindler; Felix J Hartmann; Lukas M Weber; Reinhard Dummer; Mark D Robinson; Mitchell P Levesque; Burkhard Becher
Journal:  Nat Med       Date:  2018-01-08       Impact factor: 87.241

Review 10.  Dendritic and natural killer cells cooperate in the control/switch of innate immunity.

Authors:  Laurence Zitvogel
Journal:  J Exp Med       Date:  2002-02-04       Impact factor: 14.307
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  267 in total

1.  Grainyhead-like-2 confers NK-sensitivity through interactions with epigenetic modifiers.

Authors:  Ian MacFawn; Hannah Wilson; Luke A Selth; Ian Leighton; Ilya Serebriiskii; R Christopher Bleackley; Osama Elzamzamy; Joshua Farris; Phillip M Pifer; Jennifer Richer; Steven M Frisch
Journal:  Mol Immunol       Date:  2018-11-30       Impact factor: 4.407

2.  The Immune Subtypes and Landscape of Squamous Cell Carcinoma.

Authors:  Bailiang Li; Yi Cui; Dhanya K Nambiar; John B Sunwoo; Ruijiang Li
Journal:  Clin Cancer Res       Date:  2019-03-04       Impact factor: 12.531

Review 3.  Neoadjuvant checkpoint blockade for cancer immunotherapy.

Authors:  Suzanne L Topalian; Janis M Taube; Drew M Pardoll
Journal:  Science       Date:  2020-01-31       Impact factor: 47.728

4.  Pembrolizumab plus allogeneic NK cells in advanced non-small cell lung cancer patients.

Authors:  Mao Lin; Haihua Luo; Shuzhen Liang; Jibing Chen; Aihua Liu; Lizhi Niu; Yong Jiang
Journal:  J Clin Invest       Date:  2020-05-01       Impact factor: 14.808

5.  The Atypical Receptor CCRL2 Is Essential for Lung Cancer Immune Surveillance.

Authors:  Annalisa Del Prete; Francesca Sozio; Tiziana Schioppa; Andrea Ponzetta; William Vermi; Stefano Calza; Mattia Bugatti; Valentina Salvi; Giovanni Bernardini; Federica Benvenuti; Annunciata Vecchi; Barbara Bottazzi; Alberto Mantovani; Silvano Sozzani
Journal:  Cancer Immunol Res       Date:  2019-09-04       Impact factor: 11.151

Review 6.  Harnessing innate immunity in cancer therapy.

Authors:  Olivier Demaria; Stéphanie Cornen; Marc Daëron; Yannis Morel; Ruslan Medzhitov; Eric Vivier
Journal:  Nature       Date:  2019-10-02       Impact factor: 49.962

Review 7.  Immune checkpoint blockade in solid organ tumours: Choice, dose and predictors of response.

Authors:  Vishal Navani; Moira C Graves; Nikola A Bowden; Andre Van Der Westhuizen
Journal:  Br J Clin Pharmacol       Date:  2020-06-05       Impact factor: 4.335

8.  Biomarkers Associated with Beneficial PD-1 Checkpoint Blockade in Non-Small Cell Lung Cancer (NSCLC) Identified Using High-Plex Digital Spatial Profiling.

Authors:  Jon Zugazagoitia; Swati Gupta; Yuting Liu; Kit Fuhrman; Scott Gettinger; Roy S Herbst; Kurt A Schalper; David L Rimm
Journal:  Clin Cancer Res       Date:  2020-04-06       Impact factor: 12.531

9.  Systemic tumour suppression via the preferential accumulation of erythrocyte-anchored chemokine-encapsulating nanoparticles in lung metastases.

Authors:  Zongmin Zhao; Anvay Ukidve; Vinu Krishnan; Alexandra Fehnel; Daniel C Pan; Yongsheng Gao; Jayoung Kim; Michael A Evans; Abhirup Mandal; Junling Guo; Vladimir R Muzykantov; Samir Mitragotri
Journal:  Nat Biomed Eng       Date:  2020-11-16       Impact factor: 25.671

10.  SIRT2 promotes murine melanoma progression through natural killer cell inhibition.

Authors:  Manchao Zhang; Scarlett Acklin; John Gillenwater; Wuying Du; Mousumi Patra; Hao Yu; Bo Xu; Jianhua Yu; Fen Xia
Journal:  Sci Rep       Date:  2021-06-21       Impact factor: 4.379
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