Browsing by Subject "tumor immunology"

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    Nod2 protects mice from inflammation and obesity-dependent liver cancer
    (Nature, 2020-11-25) Gurses, Serdar A.; Banskar, Sunil; Stewart, Cody; Trimoski, Bill; Dziarski, Roman; Gupta, Dipika; IU School of Medicine-Northwest
    Nod2 is a pattern recognition receptor that modulates host innate immune responses and protects from inflammation, steatosis, and obesity. Obesity and inflammation are risk factors for hepatocellular carcinoma, however, the role of Nod2 in obesity-dependent hepatic tumorigenesis is not known. Here we tested the hypothesis that Nod2 protects from high fat diet (HFD)-dependent hepatic cancer. We used an obesity-dependent hepatic tumor model. WT and Nod2−/− mice were treated with the carcinogen dimethylbenz[a]anthracene (DMBA) and maintained on HFD. Nod2−/− mice treated with DMBA and maintained on HFD gain significantly more weight and develop more liver tumors than similarly treated WT mice. Livers of Nod2−/− tumorigenic mice had increased expression of genes involved in cell proliferation, immune responses, and cholesterol biosynthesis, increased infiltration of neutrophils, inflammatory monocytes, and T cells, and increased activation of STAT3 and ERK during the later stages of tumorigenesis. Bioinformatic analyses of genes with differential expression predicted an increase in cancer, immune, and cholesterol biosynthesis pathways. In summary, we have identified a novel role for Nod2 and demonstrate that Nod2 protects from HFD-dependent liver malignancy and this protection is accompanied by decreased cell proliferation, inflammation, steroid biosynthesis, neutrophils and macrophages infiltration, and STAT3 and MAPK signaling in the liver.
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    TRP-1 AS A MODEL TUMOR ANTIGEN FOR IMMUNOTHERAPY AND IMMUNE TOLERANCE IN THE THYMUS
    (2011-08-23) Brandmaier, Andrew G.; Touloukian, Christopher; Blum, Janice Sherry, 1957-; Brutkiewicz, Randy R.; Kaplan, Mark H.; Travers, Jeffrey B.
    Tolerance mechanisms, which collectively work to prevent autoimmunity, play a key role in suppressing the adaptive immune response to tumor antigens. This phenomenon is attributed to the extensive overlap of tumor associated antigens with self peptides. We studied immune tolerance to tumor antigen TRP-1, a melanoma associated glycoprotein. Vaccination of Wild type (WT) and TRP-1 deficient (Bw) mice with TRP-1 antigen highlighted the substantial effect of tolerance on the T cell response: in the Bw population a log-fold differential was observed with greater clonal numbers and higher intensity of cytokine release from the antigen specific CD4+ T cell population. Additionally, TRP-1-reactive T cells derived from Bw mice demonstrated significantly more efficacious tumor treatment ability than WT donor cells when adoptively transferred into recipients challenged with B16 melanoma. Furthermore, donor Bw T cells were so potent as to overcome suppression by endogenous Tregs in mediating their effect. Probing for a tolerance mechanism, we isolated medullary thymic epithelial cells (mTECs) from WT mice and found that they promiscuously express TRP-1. Unexpectedly, TRP-1 expression in mTECs was found to occur independently of the prominent Autoimmune Regulator (Aire) transcription factor as well as the melanocyte specific transcription factor, mMitf. Our most recent data suggests that thymic dendritic cells may also express copies of the TRP-1 transcript. Future transplant studies will test whether mTECs or thymic dendritic cells directly tolerize TRP-1 specific T cells. Overall, these findings highlight the relevance of central tolerance to cancer immunology and compel further investigation of its mechanistic impact on the development of tumor-reactive T cells.bb