Literature DB >> 26603621

MIF Is Necessary for Late-Stage Melanoma Patient MDSC Immune Suppression and Differentiation.

Kavitha Yaddanapudi1, Beatriz E Rendon2, Gwyneth Lamont2, Eun Jung Kim2, Numan Al Rayyan2, Jamaal Richie2, Sabrin Albeituni3, Sabine Waigel2, Ashley Wise3, Robert A Mitchell1.   

Abstract

Highly aggressive cancers "entrain" innate and adaptive immune cells to suppress antitumor lymphocyte responses. Circulating myeloid-derived suppressor cells (MDSC) constitute the bulk of monocytic immunosuppressive activity in late-stage melanoma patients. Previous studies revealed that monocyte-derived macrophage migration inhibitory factor (MIF) is necessary for the immunosuppressive function of tumor-associated macrophages and MDSCs in mouse models of melanoma. In the current study, we sought to determine whether MIF contributes to human melanoma MDSC induction and T-cell immunosuppression using melanoma patient-derived MDSCs and an ex vivo coculture model of human melanoma-induced MDSC. We now report that circulating MDSCs isolated from late-stage melanoma patients are reliant upon MIF for suppression of antigen-independent T-cell activation and that MIF is necessary for maximal reactive oxygen species generation in these cells. Moreover, inhibition of MIF results in a functional reversion from immunosuppressive MDSC to an immunostimulatory dendritic cell (DC)-like phenotype that is at least partly due to reductions in MDSC prostaglandin E(2) (PGE(2)). These findings indicate that monocyte-derived MIF is centrally involved in human monocytic MDSC induction/immunosuppressive function and that therapeutic targeting of MIF may provide a novel means of inducing antitumor DC responses in late-stage melanoma patients. ©2015 American Association for Cancer Research.

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Year:  2015        PMID: 26603621      PMCID: PMC4740231          DOI: 10.1158/2326-6066.CIR-15-0070-T

Source DB:  PubMed          Journal:  Cancer Immunol Res        ISSN: 2326-6066            Impact factor:   11.151


  46 in total

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2.  Macrophage migration inhibitory factor (MIF) sustains macrophage proinflammatory function by inhibiting p53: regulatory role in the innate immune response.

Authors:  Robert A Mitchell; Hong Liao; Jason Chesney; Gunter Fingerle-Rowson; John Baugh; John David; Richard Bucala
Journal:  Proc Natl Acad Sci U S A       Date:  2001-12-26       Impact factor: 11.205

3.  Regulation of synoviocyte phospholipase A2 and cyclooxygenase 2 by macrophage migration inhibitory factor.

Authors:  A V Sampey; P H Hall; R A Mitchell; C N Metz; E F Morand
Journal:  Arthritis Rheum       Date:  2001-06

4.  Macrophage migration inhibitory factor activates cyclooxygenase 2-prostaglandin E2 in cultured spinal microglia.

Authors:  FuZhou Wang; HaiBo Wu; ShiQin Xu; XiRong Guo; Jie Yang; XiaoFeng Shen
Journal:  Neurosci Res       Date:  2011-07-23       Impact factor: 3.304

5.  Intracellular action of the cytokine MIF to modulate AP-1 activity and the cell cycle through Jab1.

Authors:  R Kleemann; A Hausser; G Geiger; R Mischke; A Burger-Kentischer; O Flieger; F J Johannes; T Roger; T Calandra; A Kapurniotu; M Grell; D Finkelmeier; H Brunner; J Bernhagen
Journal:  Nature       Date:  2000-11-09       Impact factor: 49.962

6.  Identification of a new subset of myeloid suppressor cells in peripheral blood of melanoma patients with modulation by a granulocyte-macrophage colony-stimulation factor-based antitumor vaccine.

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7.  Discovery of human macrophage migration inhibitory factor (MIF)-CD74 antagonists via virtual screening.

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Journal:  J Med Chem       Date:  2009-01-22       Impact factor: 7.446

Review 8.  CTLA-4 and PD-1/PD-L1 blockade: new immunotherapeutic modalities with durable clinical benefit in melanoma patients.

Authors:  Patrick A Ott; F Stephen Hodi; Caroline Robert
Journal:  Clin Cancer Res       Date:  2013-10-01       Impact factor: 12.531

9.  Survival follow-up and ipilimumab retreatment of patients with advanced melanoma who received ipilimumab in prior phase II studies.

Authors:  C Lebbé; J S Weber; M Maio; B Neyns; K Harmankaya; O Hamid; S J O'Day; C Konto; L Cykowski; M B McHenry; J D Wolchok
Journal:  Ann Oncol       Date:  2014-09-10       Impact factor: 32.976

10.  Generation of myeloid-derived suppressor cells using prostaglandin E2.

Authors:  Nataša Obermajer; Pawel Kalinski
Journal:  Transplant Res       Date:  2012-09-28
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  32 in total

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Journal:  Schizophr Bull       Date:  2016-05-11       Impact factor: 9.306

Review 2.  Current state and future prospects of immunotherapy for glioma.

Authors:  Neha Kamran; Mahmoud S Alghamri; Felipe J Nunez; Diana Shah; Antonela S Asad; Marianela Candolfi; David Altshuler; Pedro R Lowenstein; Maria G Castro
Journal:  Immunotherapy       Date:  2018-02-01       Impact factor: 4.196

3.  MIF-CD74 signaling impedes microglial M1 polarization and facilitates brain tumorigenesis.

Authors:  A Ghoochani; M A Schwarz; E Yakubov; T Engelhorn; A Doerfler; M Buchfelder; R Bucala; N E Savaskan; I Y Eyüpoglu
Journal:  Oncogene       Date:  2016-05-09       Impact factor: 9.867

Review 4.  Macrophage Migration Inhibitory Factor (MIF): Biological Activities and Relation with Cancer.

Authors:  Camila Cristina Guimarães Nobre; Josélio Maria Galvão de Araújo; Thales Allyrio Araújo de Medeiros Fernandes; Ricardo Ney Oliveira Cobucci; Daniel Carlos Ferreira Lanza; Vânia Sousa Andrade; José Veríssimo Fernandes
Journal:  Pathol Oncol Res       Date:  2016-10-23       Impact factor: 3.201

5.  Pleiotropic role of macrophage migration inhibitory factor in cancer.

Authors:  Maheedhara R Guda; Matthew A Rashid; Swapna Asuthkar; Anvesh Jalasutram; John L Caniglia; Andrew J Tsung; Kiran K Velpula
Journal:  Am J Cancer Res       Date:  2019-12-01       Impact factor: 6.166

6.  Cancer Stem Cell-Secreted Macrophage Migration Inhibitory Factor Stimulates Myeloid Derived Suppressor Cell Function and Facilitates Glioblastoma Immune Evasion.

Authors:  Balint Otvos; Daniel J Silver; Erin E Mulkearns-Hubert; Alvaro G Alvarado; Soumya M Turaga; Mia D Sorensen; Patricia Rayman; William A Flavahan; James S Hale; Kevin Stoltz; Maksim Sinyuk; Qiulian Wu; Awad Jarrar; Sung-Hak Kim; Paul L Fox; Ichiro Nakano; Jeremy N Rich; Richard M Ransohoff; James Finke; Bjarne W Kristensen; Michael A Vogelbaum; Justin D Lathia
Journal:  Stem Cells       Date:  2016-05-27       Impact factor: 6.277

7.  Global immune fingerprinting in glioblastoma patient peripheral blood reveals immune-suppression signatures associated with prognosis.

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Journal:  JCI Insight       Date:  2018-11-02

8.  Elucidation of Tumor-Stromal Heterogeneity and the Ligand-Receptor Interactome by Single-Cell Transcriptomics in Real-world Pancreatic Cancer Biopsies.

Authors:  Jaewon J Lee; Vincent Bernard; Alexander Semaan; Maria E Monberg; Jonathan Huang; Bret M Stephens; Daniel Lin; Kimal I Rajapakshe; Brian R Weston; Manoop S Bhutani; Cara L Haymaker; Chantale Bernatchez; Cullen M Taniguchi; Anirban Maitra; Paola A Guerrero
Journal:  Clin Cancer Res       Date:  2021-08-23       Impact factor: 12.531

9.  Type I IFNs repolarized a CD169+ macrophage population with anti-tumor potentials in hepatocellular carcinoma.

Authors:  Jing Liao; Dan-Ni Zeng; Jin-Zhu Li; Qiao-Min Hua; Chun-Xia Huang; Jing Xu; Chong Wu; Limin Zheng; Wei-Ping Wen; Yan Wu
Journal:  Mol Ther       Date:  2021-09-24       Impact factor: 11.454

10.  Oral squamous carcinoma cells promote macrophage polarization in an MIF-dependent manner.

Authors:  M Barbosa de Souza Rizzo; M Brasilino de Carvalho; E J Kim; B E Rendon; J T Noe; A Darlene Wise; R A Mitchell
Journal:  QJM       Date:  2018-11-01
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