The transcription factor BACH2 promotes tumor immunosuppression.

The immune system has a powerful ability to recognize and kill cancer cells, but its function is often suppressed within tumors, preventing clearance of disease. Functionally diverse innate and adaptive cellular lineages either drive or constrain immune reactions within tumors. The transcription factor (TF) BACH2 regulates the differentiation of multiple innate and adaptive cellular lineages, but its role in controlling tumor immunity has not been elucidated. Here, we demonstrate that BACH2 is required to establish immunosuppression within tumors. Tumor growth was markedly impaired in Bach2-deficient mice and coincided with intratumoral activation of both innate and adaptive immunity. However, augmented tumor clearance in the absence of Bach2 was dependent upon the adaptive immune system. Analysis of tumor-infiltrating lymphocytes from Bach2-deficient mice revealed high frequencies of rapidly proliferating effector CD4+ and CD8+ T cells that expressed the inflammatory cytokine IFN-γ. Effector T cell activation coincided with a reduction in the frequency of intratumoral Foxp3+ Tregs. Mechanistically, BACH2 promoted tumor immunosuppression through Treg-mediated inhibition of intratumoral CD8+ T cells and IFN-γ. These findings demonstrate that BACH2 is a key component of the molecular program of tumor immunosuppression and identify therapeutic targets for the reversal of immunosuppression in cancer.

[1]  Manuel A. R. Ferreira,et al.  Identification of IL6R and chromosome 11q13.5 as risk loci for asthma , 2011, The Lancet.

[2]  W. Zou Regulatory T cells, tumour immunity and immunotherapy , 2006, Nature Reviews Immunology.

[3]  E. Meffre,et al.  Transcriptional repressor Blimp-1 promotes CD8(+) T cell terminal differentiation and represses the acquisition of central memory T cell properties. , 2009, Immunity.

[4]  Bach2 represses effector programmes to stabilize Treg-mediated immune homeostasis , 2013, Nature.

[5]  Satoru Takahashi,et al.  The transcriptional programme of antibody class switching involves the repressor Bach2 , 2004, Nature.

[6]  G. Rabinovich,et al.  Immunosuppressive strategies that are mediated by tumor cells. , 2007, Annual review of immunology.

[7]  Simon C. Potter,et al.  Genetic risk and a primary role for cell-mediated immune mechanisms in multiple sclerosis , 2011, Nature.

[8]  A. Rudensky,et al.  Foxp 3 programs the development and function of CD 4 + CD 25 + regulatory T cells , 2003 .

[9]  Laurie H Glimcher,et al.  A Novel Transcription Factor, T-bet, Directs Th1 Lineage Commitment , 2000, Cell.

[10]  A. Rudensky,et al.  Foxp3 programs the development and function of CD4+CD25+ regulatory T cells , 2003, Nature Immunology.

[11]  Susumu Tonegawa,et al.  RAG-1-deficient mice have no mature B and T lymphocytes , 1992, Cell.

[12]  F. Ramsdell,et al.  An essential role for Scurfin in CD4+CD25+ T regulatory cells , 2003, Nature Immunology.

[13]  N. Restifo,et al.  The interplay of effector and regulatory T cells in cancer. , 2015, Current opinion in immunology.

[14]  T. Nomura,et al.  Control of Regulatory T Cell Development by the Transcription Factor Foxp3 , 2002 .

[15]  Michael J. Bevan,et al.  CD8+ T Cells: Foot Soldiers of the Immune System , 2011, Immunity.

[16]  Tariq Ahmad,et al.  Genome-wide meta-analysis increases to 71 the number of confirmed Crohn's disease susceptibility loci , 2010, Nature Genetics.

[17]  J. Svaren,et al.  Bach2 Regulates Homeostasis of Foxp3+ Regulatory T Cells and Protects against Fatal Lung Disease in Mice , 2014, The Journal of Immunology.

[18]  Vincent Plagnol,et al.  Meta-analysis of genome-wide association study data identifies additional type 1 diabetes risk loci , 2008, Nature Genetics.

[19]  Pablo Tamayo,et al.  Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[20]  A. Rudensky,et al.  Regulatory T cells prevent catastrophic autoimmunity throughout the lifespan of mice , 2007, Nature Immunology.

[21]  S. Quezada,et al.  Shifting the equilibrium in cancer immunoediting: from tumor tolerance to eradication , 2011, Immunological reviews.

[22]  M. Ebina,et al.  Transcription repressor Bach2 is required for pulmonary surfactant homeostasis and alveolar macrophage function , 2013, The Journal of experimental medicine.

[23]  H. Schreiber,et al.  Innate and adaptive immune cells in the tumor microenvironment , 2013, Nature Immunology.

[24]  Super-enhancers delineate disease-associated regulatory nodes in T cells , 2015 .

[25]  M. Jarvelin,et al.  Identification of IL6R and chromosome 11q13.5 as risk loci for asthma , 2011, The Lancet.

[26]  D. Gabrilovich,et al.  Coordinated regulation of myeloid cells by tumours , 2012, Nature Reviews Immunology.

[27]  K. Calame,et al.  Bach2 represses plasma cell gene regulatory network in B cells to promote antibody class switch , 2010, The EMBO journal.