Chronic and unrelenting inflammation contributes unequivocally to oncogenesis. However, there are many fundamental challenges in the field of onco-inflammation. Among them, systematic study has not been done to quantitatively and qualitatively identify and characterize the type of inflammations that is particularly oncogenic. We hypothesize that oncogenic inflammation is genotoxic and modulated by key innate immune receptors such as Toll-like receptors (TLRs) in a cell type-specific fashion (Hypothesis 1). In addition, despite the extensive study of the cancer genome, fewer studies have addressed the roles of protein quality control in inflammation and oncogenesis. Cancer cells, as compared to normal cells, have a high metabolic demand which increases the need for protein chaperones that accelerate protein folding. We thus propose that there is a cancer-specific HSP-client network that plays pivotal roles in inflammation and cancer (Hypothesis 2). Molecular chaperone gp96 is a paralogue of HSP90 in the endoplasmic reticulum. It is uniformly expressed at a high level in human cancers, and the high expression of gp96 correlates with worse prognosis. Intriguingly, we discovered that gp96 is an obligated master chaperone for TLRs. We further revealed that deletion of gp96 in M?s protect mice against colitis-associated colon cancer, which correlates with a reduced cytokine level and protection against mutation of Ctnnb1 encoding ?-catenin. We have also generated cell type-specific gp96 KO mice by deleting gp96 in B cells, regulatory T cells, gut epithelial cells, platelets and dendritic cells. These unique models allow us to quantify the extent of contribution by these immune cell subsets to inflammation- associated cancer. In addition, we have shown that gp96 plays essential roles in chaperoning several other strategically important clients in oncogenesis, including integrins, Wnt co-receptor, Her2, IGF-1 and surface TGF? docking receptor LRRC32 (GARP). Our findings suggest that gp96 drives oncogenesis by integrating cell-intrinsic oncogenic client network with inflammation (Hypothesis 3). We will address our hypotheses by first determining if oncogenic inflammation is modulated by the TLR master chaperone gp96 in a cell type-specific fashion, using a battery of unique genetic tools. We will then complete the high resolution mapping of cancer- specific gp96-client network via genetic, pharmacological and biochemical means. The ultimate goal of this US-China joint project (RFA-AI-16-006) is to uncover both cancer-intrinsic and cancer- extrinsic roles of gp96 in oncogenesis to guide the development of novel cancer therapeutics in the future.
This project addresses the question why chronic inflammation increases the risk of cancer. Animal experiments will be done to find out the mechanistic link, while parallel studies will identify molecules from cancer cells that contribute to persistent inflammation and cancer. Findings from this proposal shall lead to development of better diagnostic and prognostic tools for cancer, as well as novel cancer therapeutics.
|Metelli, Alessandra; Salem, Mohammad; Wallace, Caroline H et al. (2018) Immunoregulatory functions and the therapeutic implications of GARP-TGF-? in inflammation and cancer. J Hematol Oncol 11:24|
|Lin, Ching Ying; Kwon, Hyunwoo; Rangel Rivera, Guillermo O et al. (2018) Sex Differences in Using Systemic Inflammatory Markers to Prognosticate Patients with Head and Neck Squamous Cell Carcinoma. Cancer Epidemiol Biomarkers Prev 27:1176-1185|
|Hong, Feng; Liu, Bei; Wu, Bill X et al. (2017) CNPY2 is a key initiator of the PERK-CHOP pathway of the unfolded protein response. Nat Struct Mol Biol 24:834-839|
|Bartee, Eric; Li, Zihai (2017) In vivo and in situ programming of tumor immunity by combining oncolytics and PD-1 immune checkpoint blockade. Exp Hematol Oncol 6:15|
|Rachidi, Saleh; Metelli, Alessandra; Riesenberg, Brian et al. (2017) Platelets subvert T cell immunity against cancer via GARP-TGF? axis. Sci Immunol 2:|