Project description:We have previously shown that Kras mutant-induced lung tumors in CCSPCre/LSL-K-rasG12D mice (CC-LR) exhibited Stat3 activation. Here we sought to study the role of epithelial Stat3 in Kras-mutant lung tumor oncogenesis through derivation of a lung epithelial specific CC-LR/Stat3 conditional knockout (LR/Stat3D/D or LRDD) model. Analysis of tumor burdens revealed marked gender disparity following epithelial Stat3 deletion, LRDD males exhibited increased tumor burdens compared to male CC-LR animals whereas female LRDD mice displayed attenuated tumor development when compared to female CC-LR littermates. We then performed RNA-sequencing of whole lungs from the mice in order to understand global expression programs that may underlie this gender-specific effect of epithelial Stat3 deletion.

Project description:Mechanisms underlying cancer stemness in Kras-mutant lung adenocarcinoma (KM-LUAD) are poorly understood. We previously found that mice with knockout of Gprc5a develop LUADs with somatic Kras mutations. We also previously derived Gprc5a-/- KM-LUAD cells (MDA-F471 cells) from a mouse exposed to the tobacco-specific carcinogen NNK. We also derived cancer stem cells (CSCs; grown and cultured as spheres in 3D cultures) from MDA-F471 cells. To better understand the biology of these CSCs, we compared the transcriptomes of MDA-F471 cells and their CSC counterparts by bulk RNA-sequencing.

Project description:Many patients have cancers that have increased activity of a protein called STAT3 that contributes critically to the development and growth of their cancer. Despite our knowledge of STAT3’s importance to cancer, scientists and doctors have not developed a drug that targets it and that patients can take to treat their cancer more effectively than treatments that are now available. Tvardi Therapeutics, Incorporated has developed a compound, TTI-101, which can be given by mouth and acts as a direct inhibitor of STAT3. Administration of TTI-101 to mice demonstrated that it blocked growth of cancers of the breast, head and neck, lung, and liver and it was safe when administered at high doses to mice, rats, and dogs. In this application, Tvardi is proposing to further develop TTI-101 for treatment of solid tumors for which the prognosis is dismal. The investigators will determine how safe it is when administered to patients with cancer, determine whether an adequate dose can be administered to patients with cancer that will block STAT3 in their cancer, and determine whether treatment with TTI-101 leads to reduced growth of their cancer.

Project description:Oncogenic STAT3 functions are known in various malignancies. We found that STAT3 plays an unexpected tumor suppressive role in KRAS-mutant non-small-cell-lung cancer (NSCLC). In mice, tissue-specific inactivation of Stat3 resulted in increased Kras (G12D)-driven NSCLC initiation and malignant progression leading to markedly reduced survival. Clinically, low STAT3 expression levels correlate with poor survival in human lung adenocarcinoma patients with smoking history. Consistently, KRAS-mutant lung tumors showed reduced STAT3 levels. Mechanistically, we show that STAT3 controls NFκB-induced IL-8-expression by sequestering NFκB in the cytoplasm while IL-8 in turn regulates myeloid tumor infiltration and tumor vascularization thereby promoting tumor progression. These results identify a novel STAT3-NFκB-IL-8 axis in KRAS-mutant NSCLC with therapeutic and prognostic relevance WT: Control lung; KRAS: Lung tumors expressing KRAS G12D; KRAS STAT3 KO: Lung tumors expressing KRAS G12D- STAT3 deficient; tumors of four mice pooled per sample

Project description:Circulating biomarkers play important roles in diagnosis of malignant tumors. N-glycosylation is an important post-translation patter and obviously affect biological behaviors of malignant tumor cells. However, the role of N-glycosylation sites in early diagnosis of tumors still remains further investigation. In this study, plasma from 20 lung adenocarcinoma (LUAD), which were all classified as stage I, as well as 20 normal controls (NL) were labeled and screened by mass spectrometry (MS). Total 39 differential N-glycosylation sites were detected in LUAD, 17 were up-regulated and 22 were down-regulated. In all differential sites, ITGB3-680 showed highest potential in LUAD which showed 99.2% AUC, 95.0% SP and 95.0% SN. Besides, APOB-1523 (AUC: 89.0%, SP: 95.0%, SN: 70.0%), APOB-2982 (AUC: 86.8%, SP: 95.0%, SN: 45.0%) and LPAL2-101 (AUC: 81.1%, SP: 95.0%, SN: 47.4%) also acted as candidate biomarkers in LUAD. Combination analysis was then performed by random forest model, all samples were divided into training group (16 cases) and testing group (4 cases) and conducted by feature selection, machine learning, integrated model of classifier and model evaluation. And the results indicated that combination of differential sites could reach 100% AUC in both training and testing group. Taken together, our study revealed multiple N-glycosylation sites which could be applied as candidate biomarkers for early diagnosis diagnosis of LUAD.

Project description:Immunosurveillance constitutes the first step of cancer immunoediting in which developing malignant lesions are eliminated by anti-tumorigenic immune cells. However, the mechanisms by which neoplastic cells induce an immunosuppressive state to evade the immune response are still unclear. The transcription factor Stat3 has been implicated in breast carcinogenesis and tumor immunosuppression in advanced disease, but its involvement in early disease development has not been established. Here, we genetically ablated Stat3 in the tumor epithelia of the inducible PyVmT mammary tumor model and found that Stat3-deficient mice recapitulated the three phases of immunoediting: elimination, equilibrium, and escape. Pathological analyses revealed that Stat3-deficient mice initially formed hyperplastic and early adenoma-like lesions that later completely regressed, thereby preventing the emergence of mammary tumors in the majority of animals. Furthermore, tumor regression was correlated with massive immune infiltration into the Stat3-deficient lesions, leading to their elimination. In a minority of animals, focal, non-metastatic Stat3-deficient mammary tumors escaped immunosurveillance after a long latency or equilibrium period. Taken together, our findings suggest that tumor epithelial expression of Stat3 plays a critical role in promoting an immunosuppressive tumor microenvironment during breast tumor initiation and progression, and prompt further investigation of Stat3 inhibitory strategies that may reactivate the immunosurveillance program. We used microarrays to detail determine the transcriptional difference between PyVmT-driven mouse mammary tumors that progressed in the presence or absense of epithelial Stat3. Mammary tumors from transgenic mice were excise and flash frozen. Tumors were analyzed from 8 Stat3-proficient tumors and 6 Stat3-deficient tumors. RNA was extracted and hybridization on Affymetrix microarrays.

Project description:This experiment was designed to identify changes in gene expression in the brain (specifically the hipocampus) in relation to variable levels of voluntary exercise. Male C57Bl/6J mice were weaned onto a low fat diet (LF; Research Diets D12329, 11% kcal fat) and given continuous access to exercise wheels (30.3 x 20.6 x 26 cm; Mini Mitter®, Nalgene® Activity Wheel for Rodents) at ten weeks of age, for three days (n=96). Six mice had their wheels locked to act as sedentary controls (sed). Animals were considered to be high runners (HR) if they ran >= 5 km/night and low runners (LR) if they ran <= 2 km/night. Middle runners (MR) were chosen randomly from the population of animals falling between the high and low groups. This series is comprised of array results from three parallel experiments comparing HR versus sed, MR versus sed, and HR versus LR. Six hybridizations were performed for each of the three comparisons (3 forward-labeled, 3-reverse labeled) to account for dye-incorporation differences. One slide from the HR vs LR experiment was broken during processing, so only five are included from that group. Keywords = hippocampus Keywords = voluntary running Keywords = voluntary exercise Keywords = C57Bl/6J Keywords: parallel sample

Project description:Scarcity of dendritic cells (DCs) impact lung and pancreatic tumor immune status despite limited clinical benefits from autologous tumor lysate-pulsed DC vaccination. To tackle this issue, we developed a DC-based immunotherapy utilizing cationic nanoparticles (cNPs) loaded with tumor or organoid lysate encapsulated within DC-derived microvesicles (cNPcancer cell@MVDC). Remarkably, cNPcancer cell@MVDC treatment converted immune cold tumors into a hot microenvironment, leading to increased migratory DC population, reduced tumor growth and improved survival in orthotopic animal models compared to mature DC treatment. In vivo tracking experiments demonstrated superior accumulation of cNPcancer cell@MVDC in tumors and draining lymph nodes (dLNs) compared to mature DCs, promoting DC migration to dLNs and activating CD8+ T cells. Clinically, the accurate prediction of tumor immune status, immunotherapy response and patient prognosis relies on migratory DC infiltration rather than CD8+ T cells. Mechanistically, tumor lysate pulsed-cNPs enriched mitochondrial DNA, which exhibited a stronger binding affinity with cGAS compared to nuclear DNA, resulting in enhanced cGAS-STING-mediated DC activation. This immunotherapy elicits durable anti-tumor immune responses, even in immune-deserted tumor environments.

Project description:Abstract: Immunotherapy has emerged as a crucial treatment approach for lung adenocarcinoma (LUAD), yet a notable percentage of patients do not exhibit the anticipated prognosis and therapeutic response. In this study, we embarked on a comprehensive analysis of immune infiltration-related genes in LUAD by integrating transcriptome sequencing data and TCGA dataset. And an immune risk prognosis model was developed, which accurately forecasts the prognosis and predicts the immunotherapy efficacy in LUAD. Patients with LUAD were categorized into high-risk and low-risk groups based on the model's risk value. The high-risk group exhibited a poorer prognosis, higher tumor mutation burden (TMB), greater genomic heterogeneity and lower immune scores. In contrast, the low-risk group manifested characteristics conducive to immunotherapy, including a more favorable prognosis, heightened sensitivity to immunotherapy and reduced likelihood of immune escape. The robustness of the model's predictive capability was corroborated using the GEO dataset, Nomogram and an independent immunotherapy cohort. Furthermore, the model risk value was found to be significantly associated with the prognosis of LUAD patients, genomic heterogeneity, immune cell infiltration, immune regulation and immunotherapy outcomes. Additionally, we characterized the significance of the model's feature factors using single-cell clustering and pseudo-temporal analysis, revealing that the model's feature genes are predominantly located in tumor-infiltrating T cells, particularly in the exhausted and effector subtypes. TNFRSF11A emerged as a key gene in the model, promoting LUAD cell proliferation, migration, and apoptosis, and involvement in LUAD M6A methylation and PD-L1-mediated immune escape. TNFRSF11A was mainly expressed in T cell clusters and represented a potential immune system regulatory factor associated with T cell exhaustion, fostering malignant progression in LUAD cells. Our study offers new mechanistic insights and therapeutic targets for the biological behaviors and immune suppression in LUAD.

Project description:Long noncoding RNAs (lncRNAs) are known to regulate the development and progression of various cancers, however, few lncRNAs have been well characterized in lung adenocarcinoma (LUAD). Understanding the expression profile of lncRNAs and protein-coding genes is critical to develop new diagnosis and treatment strategies for LUAD and improving the prognosis of diagnosed patients. Five female LUAD patients with no smoking history were selected to profile lncRNA and protein-coding gene expression with microarrays. Paired tumor tissues and adjacent nontumor tissues were collected and confirmed by pathologists.