Project description:We aimed to decipher human APOBEC3A driven mutational differences in pancreatic tumor in vivo using a genetically engineered mouse model of pancreatic cancer. Murine pancreatic tumor formation was driven by p53fl/+;KrasLSL-G12D/+;Pdx1-Cre;Rosa26LSL-YFP (PKCY) and p53fl/+;KrasLSL-G12D/+;Pdx1-Cre; Rosa26LSL-YFP; A3A+/- (A3A PKCY).

Project description:RNA-seq analysis revealed CSCs upregulated in TAG synthesis enzymes, such as ACSL1/4, LPIN2, DGAT1/2, and PNPLA3, and the anti-ferroptosis arsenal, GPX4, all of which were relevant to CSC radioresistance, sphere formation, and tumor initiation.

Project description:Comparative gene expression profiling analysis of RNA-seq data in CD45- lung tumor cells from tumor-burdened lungs of KrasLSL-G12D/+Tp53fl/fl and KrasLSL-G12D/+Tp53fl/flUsp25-/- mice 10 weeks after they were intranasally injected with Ad-Cre.

Project description:Comparative gene expression profiling analysis of RNA-seq data in CD45- lung tumor cells from tumor-burdened lungs of KrasLSL-G12D/+Lkb1fl/fl and KrasLSL-G12D/+Lkb1fl/flUsp25-/- mice 10 weeks after they were intranasally injected with Ad-Cre.

Project description:We aimed to decipher human APOBEC3A driven genomic differences in pancreatic tumors in vivo using a genetically engineered mouse model for pancreatic cancer. Murine pancreatic tumor formation was driven by p53fl/+;KrasLSL-G12D/+;Pdx1-Cre;Rosa26LSL-YFP (PKCY) and p53fl/+;KrasLSL-G12D/+;Pdx1-Cre; Rosa26LSL-YFP; A3A+/- (A3A PKCY).

Project description:We aimed to decipher human APOBEC3A driven transcriptomic differences in pancreatic tumors in vivo using a genetically engineered mouse model for pancreatic cancer. Murine pancreatic tumor formation was driven by p53fl/+;KrasLSL-G12D/+;Pdx1-Cre;Rosa26LSL-YFP (PKCY) and p53fl/+;KrasLSL-G12D/+;Pdx1-Cre; Rosa26LSL-YFP; A3A+/- (A3A PKCY).

Project description:We used microarrays to identify genes dysregulated in cellular stress response to nutrient deprivation in an inducible mouse model of Mir15aKO PDAC Expression data of pancreatic cancer collected from genetic mouse model KrasLSL-G12D/Ptf1aCre-ERTM/Ptenflox (named KPP mouse) and KrasLSL-G12D/Ptf1aCre-ERTM/Ptenflox/Mir15aKO (named GL mouse) fed with Control diet (C-diet, 20% protein) and isocaloric, low-protein diet (LP-diet, 5% protein)

Project description:Neutrophils infiltrated in the tumor microenvironment (TME) are heterogeneous populations associated with the prognosis of cancer and cancer immunotherapy. However, the plasticity and function of heterogeneous neutrophils in the TME of non-small cell lung cancer (NSCLC) remain poorly understood. Here, we show that neutrophils produce high levels of IL-8 which induce the differentiation of CD74highSiglecFlow neutrophils and suppress the generation of CD74lowSiglecFhigh neutrophils in the TME of IL-8-humanized (IL8-hu) KrasLSL-G12DTp53fl/fl (KP) and EGFRT790M/Del-Exon19 (EGFRTD) NSCLC mouse models. The CD74highSiglecFlow neutrophils exhibit antigen cross-presentation activity to augment anti-tumor T cell responses. Consistently, deletion of CD74 in IL8-hu neutrophils attenuates the activation of T cells and exacerbates the progression of NSCLC, whereas treatment of a CD74 agonist promotes anti-tumor T cell activation and enhances the effects of anti-PD1 or Osimertinib therapy in the IL8-hu NSCLC mouse models. In addition, we have found that the CD74highCD63low neutrophils in the TME and peripheral blood of advanced NSCLC patients pheno-copy the CD74highSiglecFlow neutrophils in the TME of NSCLC mice and correlate well with the responsiveness to anti-PD-1 plus chemotherapies. Collectively, these data demonstrate an IL-8-CD74high neutrophil axis that promotes anti-tumor immunity in NSCLC.

Project description:Neutrophils infiltrated in the tumor microenvironment (TME) are heterogeneous populations associated with the prognosis of cancer and cancer immunotherapy. However, the plasticity and function of heterogeneous neutrophils in the TME of non-small cell lung cancer (NSCLC) remain poorly understood. Here, we show that neutrophils produce high levels of IL-8 which induce the differentiation of CD74highSiglecFlow neutrophils and suppress the generation of CD74lowSiglecFhigh neutrophils in the TME of IL-8-humanized (IL8-hu) KrasLSL-G12DTp53fl/fl (KP) and EGFRT790M/Del-Exon19 (EGFRTD) NSCLC mouse models. The CD74highSiglecFlow neutrophils exhibit antigen cross-presentation activity to augment anti-tumor T cell responses. Consistently, deletion of CD74 in IL8-hu neutrophils attenuates the activation of T cells and exacerbates the progression of NSCLC, whereas treatment of a CD74 agonist promotes anti-tumor T cell activation and enhances the effects of anti-PD1 or Osimertinib therapy in the IL8-hu NSCLC mouse models. In addition, we have found that the CD74highCD63low neutrophils in the TME and peripheral blood of advanced NSCLC patients pheno-copy the CD74highSiglecFlow neutrophils in the TME of NSCLC mice and correlate well with the responsiveness to anti-PD-1 plus chemotherapies. Collectively, these data demonstrate an IL-8-CD74high neutrophil axis that promotes anti-tumor immunity in NSCLC.

Project description:This SuperSeries is composed of the following subset Series: GSE27478: Gene expression differences between the pancreatic tissues of Pdx1-Cre;KrasLSL-G12D and Pdx1-Cre;KrasLSL-G12D;IKK2/betaF/F mice GSE33322: Gene expression analysis between the pancreatic tissues of Pdx1-cre;Kras LSL-G12D and Pdx-cre;KrasLSL-G12D;IKK2/beta F/F mice Refer to individual Series