Literature DB >> 27605069

Combination strategies to enhance the potency of monocyte-derived dendritic cell-based cancer vaccines.

Ronald J Fecek1, Walter J Storkus1,2,3,4,5.   

Abstract

Dendritic cells (DCs) are potent inducers of adaptive immunity and their clinical use in cancer vaccine formulations remains an area of active translational and clinical investigation. Although cancer vaccines applied as monotherapies have had a modest history of clinical success, there is great enthusiasm for novel therapeutic strategies combining DC-based cancer vaccines with agents that 'normalize' immune function in the tumor microenvironment (TME). Broadly, these combination vaccines are designed to antagonize/remove immunosuppressive networks within the TME that serve to limit the antitumor action of vaccine-induced T cells and/or to condition the TME to facilitate the recruitment and optimal function and durability of vaccine-induced T cells. Such combination regimens are expected to dramatically enhance the clinical potency of DC-based cancer vaccine platforms.

Entities:  

Keywords:  cancer; combination immunotherapy; dendritic cell; immunoconditioning; immunoregulation; targeted therapy; vaccine

Mesh:

Substances:

Year:  2016        PMID: 27605069      PMCID: PMC5619021          DOI: 10.2217/imt-2016-0071

Source DB:  PubMed          Journal:  Immunotherapy        ISSN: 1750-743X            Impact factor:   4.196


  82 in total

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Authors:  Caroline Robert; Boguslawa Karaszewska; Jacob Schachter; Piotr Rutkowski; Andrzej Mackiewicz; Daniil Stroiakovski; Michael Lichinitser; Reinhard Dummer; Florent Grange; Laurent Mortier; Vanna Chiarion-Sileni; Kamil Drucis; Ivana Krajsova; Axel Hauschild; Paul Lorigan; Pascal Wolter; Georgina V Long; Keith Flaherty; Paul Nathan; Antoni Ribas; Anne-Marie Martin; Peng Sun; Wendy Crist; Jeff Legos; Stephen D Rubin; Shonda M Little; Dirk Schadendorf
Journal:  N Engl J Med       Date:  2014-11-16       Impact factor: 91.245

Review 2.  New and emerging HDAC inhibitors for cancer treatment.

Authors:  Alison C West; Ricky W Johnstone
Journal:  J Clin Invest       Date:  2014-01-02       Impact factor: 14.808

3.  Selective BRAFV600E inhibition enhances T-cell recognition of melanoma without affecting lymphocyte function.

Authors:  Andrea Boni; Alexandria P Cogdill; Ping Dang; Durga Udayakumar; Ching-Ni Jenny Njauw; Callum M Sloss; Cristina R Ferrone; Keith T Flaherty; Donald P Lawrence; David E Fisher; Hensin Tsao; Jennifer A Wargo
Journal:  Cancer Res       Date:  2010-06-15       Impact factor: 12.701

4.  HDAC inhibitors as anti-inflammatory agents.

Authors:  I M Adcock
Journal:  Br J Pharmacol       Date:  2007-02-26       Impact factor: 8.739

5.  A phase I clinical trial of CD1c (BDCA-1)+ dendritic cells pulsed with HLA-A*0201 peptides for immunotherapy of metastatic hormone refractory prostate cancer.

Authors:  Rebecca L Prue; Frank Vari; Kristen J Radford; Hui Tong; Melinda Y Hardy; Rachael D'Rozario; Nigel J Waterhouse; Tony Rossetti; Robert Coleman; Christopher Tracey; Hans Goossen; Vinay Gounder; Georgina Crosbie; Sonia Hancock; Stephanie Diaz-Guilas; Paul Mainwaring; Peter Swindle; Derek N J Hart
Journal:  J Immunother       Date:  2015 Feb-Mar       Impact factor: 4.456

6.  Enhancing the T-cell stimulatory capacity of human dendritic cells by co-electroporation with CD40L, CD70 and constitutively active TLR4 encoding mRNA.

Authors:  Aude Bonehill; Sandra Tuyaerts; An M T Van Nuffel; Carlo Heirman; Tomas J Bos; Karel Fostier; Bart Neyns; Kris Thielemans
Journal:  Mol Ther       Date:  2008-04-22       Impact factor: 11.454

7.  Novel function for the p38-MK2 signaling pathway in circulating CD1c+ (BDCA-1+) myeloid dendritic cells from healthy donors and advanced cancer patients; inhibition of p38 enhances IL-12 whilst suppressing IL-10.

Authors:  Hester A Franks; Qunwei Wang; Stephanie J Lax; Mary K Collins; David Escors; Poulam M Patel; Andrew M Jackson
Journal:  Int J Cancer       Date:  2013-09-13       Impact factor: 7.396

8.  Vemurafenib enhances MHC induction in BRAFV600E homozygous melanoma cells.

Authors:  Bishu Sapkota; Charles E Hill; Brian P Pollack
Journal:  Oncoimmunology       Date:  2013-01-01       Impact factor: 8.110

9.  Extranodal induction of therapeutic immunity in the tumor microenvironment after intratumoral delivery of Tbet gene-modified dendritic cells.

Authors:  L Chen; J L Taylor; N C Sabins; D B Lowe; Y Qu; Z You; W J Storkus
Journal:  Cancer Gene Ther       Date:  2013-07-12       Impact factor: 5.987

10.  The histone deacetylase inhibitor, LBH589, promotes the systemic cytokine and effector responses of adoptively transferred CD8+ T cells.

Authors:  Dominique N Lisiero; Horacio Soto; Richard G Everson; Linda M Liau; Robert M Prins
Journal:  J Immunother Cancer       Date:  2014-04-15       Impact factor: 13.751
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  3 in total

1.  Melanoma vaccines: clinical status and immune endpoints.

Authors:  Deena M Maurer; Lisa H Butterfield; Lazar Vujanovic
Journal:  Melanoma Res       Date:  2019-04       Impact factor: 3.599

2.  Engineered Cell-Membrane-Coated Nanoparticles Directly Present Tumor Antigens to Promote Anticancer Immunity.

Authors:  Yao Jiang; Nishta Krishnan; Jiarong Zhou; Sanam Chekuri; Xiaoli Wei; Ashley V Kroll; Chun Lai Yu; Yaou Duan; Weiwei Gao; Ronnie H Fang; Liangfang Zhang
Journal:  Adv Mater       Date:  2020-06-15       Impact factor: 30.849

Review 3.  Human Dendritic Cells: Their Heterogeneity and Clinical Application Potential in Cancer Immunotherapy.

Authors:  Thiago A Patente; Mariana P Pinho; Aline A Oliveira; Gabriela C M Evangelista; Patrícia C Bergami-Santos; José A M Barbuto
Journal:  Front Immunol       Date:  2019-01-21       Impact factor: 7.561
  3 in total

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