Project description:Immune checkpoint blockade (ICB) has improved outcomes in some cancers. A major limitation of ICB is that a majority of patients fail to respond, which is partly attributable to immunosuppression. Obesity appears to improve immune checkpoint therapies in some cancers but impacts on breast cancer (BC) remain unknown. In obese mice fed an obesogenic or lean controls on a low fat diet, mice are injected with BC cells andtreated with anti-PD-1 or control. Obesity leads to immunosuppression systemically in tumor-free mice that is exacerbated in tumor-bearing mice. Obesity augments tumor incidence and progression. Anti-PD-1 induces regression in lean mice and potently abrogates progression in obese mice. Anti PD-1 significantly reduces immunosuppressive cells and elevates anti-tumor immune cells. Lamb2, downregulated by anti-PD1, significantly predict patient survival. Last, we identify a microbial signature associated with anti-PD-1 efficacy. In sum, anti-PD-1 is highly efficacious in obese mice by reinvigorating durable antitumor immunity.

Project description:Immunotherapy is life saving for some cancer patients and while obesity can promote cancer, it may also increase immunotherapy efficacy.  Mechanisms of this effect have been unclear, although obesity can promote an inflammatory state that may modify tumor infiltrating lymphocytes and tumor associated macrophage (TAM) populations in tumors.  To identify mechanisms by which obesity affects anti-tumor immunity, diet-induced obese and lean C57BL/6 mice received subcutaneous murine MC38-CEA1 colon cancer tumors. Obesity increased tumor growth rate and tumor burden. Fewer immune cells were present in tumors from obese mice, and the T cells had an activated and exhausted phenotype. Macrophages in obese animals had decreased expression of iNOS2 and MHCII, supporting a weaker “M1” anti-tumor phenotype compared to lean mice. When treated with anti-PD-1 antibodies, however, obese mice had a greater absolute decrease in tumor burden than lean mice. PD-1 blockade repolarized the macrophages to an M1-phentoype in obese mice, but this did not occur in the lean mice. Mechanistically, leptin is a pro-inflammatory adipokine that is increased in obesity and may mediate enhanced anti-tumor immunity in obesity.  To test the effect of leptin on tumor growth and anti-tumor immunity, lean mice were treated with leptin and tumors were observed over time. Leptin had single-agent preventative and therapeutic anti-tumor efficacy similar to PD-1 checkpoint therapy.  These data demonstrate that obesity has dual effects in cancer through promotion of tumor cell initiation while also enhancing anti-tumor immunity through elevated levels of leptin that can reprogram inflammatory macrophages. 

Project description:Here, we developed a mouse model of diet induced obesity that is graft competent. In this model, we grew an ER-positive breast cancer patient derived tumor. Following ovariectomy and estrogen deprivation therapy, tumors continued to grow in obese but not lean mice. RNAsequencing analysis was performed on tumors from estrogen-supplemented lean mice, and from lean and obese mice after estrogen deprivation. This analysis identified fibroblast growth factor receptor signaling as a potential driver of tumor progression in the context of obesity.

Project description:Patients undergoing bariatric surgery are protected from subsequent breast cancer risk. It is unknown whether weight loss alone or surgery-specific alterations mediate risk reduction. We examined breast cancer in a pre-clinical model of diet induced obesity (DIO) followed by vertical sleeve gastrectomy (VSG) or dietary weight loss. DIO exacerbated tumor progression compared to lean controls, while VSG-induced weight loss reversed this exacerbation. However, dietary interventions were more effective than VSG despite similar reductions in weight and adiposity, potentially due to elevated immunosuppression after VSG. In tumor bearing mice, anti-PD-L1 immunotherapy after VSG improved anti-tumor immunity and potently impaired tumor progression. Thus, weight loss before tumor onset was protective regardless of intervention. Importantly, immunotherapy specifically improved outcomes in VSG.

Project description:Patients undergoing bariatric surgery are protected from subsequent breast cancer risk. It is unknown whether weight loss alone or surgery-specific alterations mediate risk reduction. We examined breast cancer in a pre-clinical model of diet induced obesity (DIO) followed by vertical sleeve gastrectomy (VSG) or dietary weight loss. DIO exacerbated tumor progression compared to lean controls, while VSG-induced weight loss reversed this exacerbation. However, dietary interventions were more effective than VSG despite similar reductions in weight and adiposity, potentially due to elevated immunosuppression after VSG. In tumor bearing mice, anti-PD-L1 immunotherapy after VSG improved anti-tumor immunity and potently impaired tumor progression. Thus, weight loss before tumor onset was protective regardless of intervention. Importantly, immunotherapy specifically improved outcomes in VSG.

Project description:Obesity is associated with severe, difficult to control asthma, and increased airway oxidative stress. Mitochondrial reactive oxygen species (mROS) are an important source of oxidative stress leading us to hypothesize that targeting mROS in obese allergic asthma might be an effective treatment strategy. Using a mouse model of house dust mite (HDM) induced allergic airway disease in mice fed a low- (LFD) or high-fat diet (HFD), and the mitochondrial antioxidant MitoQuinone (MitoQ); we investigated the effects of obesity and mROS on airway inflammation, remodelling and airway hyperreactivity (AHR). HDM induces airway inflammation, remodelling and hyperreactivity in both lean and obese mice. Obese allergic mice showed increased lung tissue eotaxin levels, airway tissue eosinophilia and AHR when compared to lean allergic mice. MitoQ reduced markers of airway inflammation, remodelling and hyperreactivity in both lean and obese allergic mice, and tissue eosinophilia in obeseHDM mice. mROS regulates cell signalling by protein oxidation of multiple downstream targets: MitoQ reduced HDM-induced cysteine-sulfenylation of several proteins including those involved in the unfolded protein response (UPR). In summary, mROS mediates the development of allergic airway disease and hence MitoQ might be effective for the treatment for asthma, and specific features of obese asthma.

Project description:Obesity is a chronic inflammatory disease that weakens macrophage innate immune response to infections. Since M1 polarization is crucial during acute infectious diseases, we hypothesized that diet-induced obesity inhibits M1 polarization of macrophages in the response to bacterial infection. Using a computational approach in conjunction with microarray data, we identified switching genes that may differentially control the behavior of response pathways in macrophages from lean and obese mice. Bone marrow macrophages (BMMM-NM-&) from lean and obese mice were exposed to live Porphyromonas gingivalis (P. gingivalis) for three incubation times (1 h, 4 h and 24 h). cDNA from BMMM-NM-& of lean and obese mice were hybridized on Affymetrix Mouse Genome 430 2.0 Arrays. Hybridization was performed on three replicates at each time point (18 arrays total).

Project description:Purpose: Evaluate the anti-tumorigenic efficacy and immunomodulatory effects of chitin as general blocker of immunosuppressive chitinase-like proteins (CLPs) in combination with and without anti-PD-1 immune checkpoint blockade (ICB) in an immunocompetent 4T1- and 66cl4-based intraductal model for triple-negative breast cancer (TNBC). Methods: 4T1 and 66cl4 mammary tumor-bearing female BALB/c mice were either left untreated or were treated with anti-PD-1, chitin or chitin + anti-PD-1 for 2 weeks (w) between 3 and 5 w post-inoculation (p.i.) of the mammary tumor cells. After the 2-w treatment, 4T1 and 66cl4 primary tumors were resected and RNA was isolated from the tissue using in-house developed protocols. Results: Chitin-mediated reduction in innate immunosuppression and increased anti-tumor T-cell immunity in primary tumors of both TNBC models was clearly presented at the genomic level based on RNA-sequencing analysis. More specifically, a selection of 68 and 55 innate immunity-related genes in respectively 4T1 and 66cl4 primary tumors were downregulated upon chitin treatment in combination with or without anti-PD-1. Several of the selected innate immunity genes could be linked to immunosuppressive myeloid cell types, including Ccl2, Cxcl2, Csf1r and Itgam. Genes related to T-cell exhaustion, including Pdcd1, Cd274, Havcr2 and Lag3, were downregulated upon chitin and chitin + anti-PD-1 treatment in 4T1 tumors. Chitin- and chitin + anti-PD-1-treated 66cl4 tumors showed upregulation of genes associated with enhanced T-cell activity, including Cd8a, Cd8b1, Ifng, Il12b and Il18r1. In line with an overall reduced inflammation upon chitin treatment at the protein level, predominantly through myeloid cell reduction, a selected set of 68 and 48 inflammation-related genes were downregulated in chitin- and chitin + anti-PD-1-treated primary tumors of respectively the 4T1- and the 66cl4-based model. Importantly, genes that have been associated with the signaling and pro-tumorigenic activity of a prominent CLP family member, i.e. CHI3L1, were also downregulated in primary tumors following chitin treatment either with or without anti-PD-1, including Usf1 and Rab37 in the 4T1-based model and Lgals3 in the 66cl4-based model. Conclusion: Our findings highlight that chitin, as a general CLP blocker, reduces cancer-associated immunosuppression and enhances anti-tumor immunity as well as ICB responses in complementary ICB-resistant TNBC models, supporting its potential clinical relevance in immunosuppressed TNBC patients.

Project description:Breast cancer (BC), the most common malignant tumor type, ranked top in incidence with high prevalence and mortality among females worldwide. Obesity poses a serious public health issue worldwide, it consider as one of BC risk factors. Obesity has profound effects on cancer cell transcriptome that can affect the outcome of cancer therapy. The information regarding the potential effects of obesity on BC transcriptome to identify novel transcripts biomarker and pathways related to disease progression are still elusive. Therefore, the RNA-seq analysis was performed to investigate the whole blood differential epressed genes profile in the blood liquid biopsy of obese compared with non-obese BC patients to provide a better understanding of the biological status and shed new insights into potential molecular mechanisms interaction and biomarkers in the relationship between obesity and BC.

Project description:The expression of adipogenic genes is decreased in obesity and diabetes mellitus ; Samuel T. Nadler*, Jonathan P. Stoehr*, Kathryn L. Schueler*, Gene Tanimoto, Brian S. Yandell, and Alan D. Attie*,§ ; Departments of * Biochemistry, and Statistics and Horticulture, University of Wisconsin, Madison, WI, 53706; and Affymetrix, Inc., Santa Clara, CA 95051 ; Communicated by Neal L. First, University of Wisconsin, Madison, WI, July 13, 2000 (received for review April 3, 2000) ; Obesity is strongly correlated with type 2 diabetes mellitus, a common disorder of glucose and lipid metabolism. Although adipocytes are critical in obesity, their role in diabetes has only recently been appreciated. We conducted studies by using DNA microarrays to identify differences in gene expression in adipose tissue from lean, obese, and obese-diabetic mice. The expression level of over 11,000 transcripts was analyzed, and 214 transcripts showed significant differences between lean and obese mice. Surprisingly, the expression of genes normally associated with adipocyte differentiation were down-regulated in obesity. Not all obese individuals will become diabetic; many remain normoglycemic despite profound obesity. Understanding the transition to obesity with concomitant diabetes will provide important clues to the pathogenesis of type 2 diabetes. Therefore, we examined the levels of gene expression in adipose tissue from five groups of obese mice with varying degrees of hyperglycemia, and we identified 88 genes whose expression strongly correlated with diabetes severity. This group included many genes that are known to be involved in signal transduction and energy metabolism as well as genes not previously examined in the context of diabetes. Our data show that a decrease in expression of genes normally involved in adipogenesis is associated with obesity, and we further identify genes important for subsequent development of type 2 diabetes mellitus. Experiment Overall Design: For obesity study, lean samples include C57BL/6J lean, (C57BL/6J X BTBR) F1 and BTBR lean, obese sampples incluse C57BL/6J-ob/ob, (C57BL/6J X BTBR) F2-ob/ob and BTBR-ob/ob. All samples are subjected to Mu11K A and B arrays. Experiment Overall Design: For diabetes study, B6-ob/ob, (C57BL/6J X BTBR) F2-ob/ob low glucose, (C57BL/6J X BTBR) F2-ob/ob medium glucose, (C57BL/6J X BTBR) F2-ob/ob high glucose, and BTBR-ob/ob samples were analyzed for genes whose expression levels changes correlated with the plasma glucose levels in these mice. All samples are subjected to Mu11K A and B arrays.