Project description:Pancreatic ductal adenocarcinoma (PDAC) remains a highly aggressive malignancy with limited treatment options. Targeting metabolic vulnerabilities and disrupting redox stress pathways has gained increasing attention as a potential therapeutic strategy. γ-Glutamyl-selenomethylselenocysteine (GGMSC) is a selenium-containing compound structurally related to seleno-L-methylselenocysteine (MSC), which has shown anticancer potential in preclinical models, although its molecular effects in PDAC are not well defined. In this study, we investigated the transcriptomic response to high-dose GGMSC in two PDAC cell lines, CAPAN-2 and HPAF-II. RNA sequencing and cytotoxicity assays revealed marked sensitivity to GGMSC in CAPAN-2 cells, associated with activation of oxidative stress and ferroptosis-related pathways, alongside downregulation of metabolic and cell cycle genes. Conversely, HPAF-II cells displayed limited transcriptional alterations and maintained proliferative and metabolic programs. These findings offer insights into the molecular mechanisms underlying GGMSC-induced transcriptional responses in PDAC and suggest potential avenues for future investigations of selenium-based therapies in pancreatic cancer.

Project description:Glucose metabolism makes contributions to the development of pancreatic ductal adenocarcinoma (PDAC). Meanwhile, tsRNAs, including tRNA-derived fragment (tRF) and tRNA-derived stress-induced RNA (tiRNA), a subset of noncoding RNAs, exerts a vital role in glucose metabolism and cancer development. Analysis of high-glucose-treated and none glucose-treated HPAF-II cells from 6 samples (3 samples each group) was conducted. Results indicate insight into molecular signature of the pathogenesis of PDAC in abberant glucose metabolism.

Project description:Timecourse RNA-seq of response to PORCN inhibition, using ETC-159, in an orthotopic model of RNF43 mutant pancreatic adenocarcinoma (HPAF-II).

Project description:SRP136970 - PRJNA448481 - RNA-seq of response to PORCN inhibition, using ETC-159,in a subcutanenous model of RNF43 mutant pancreatic adenocarcinoma (HPAF-II).

Project description:SRP136961 - PRJNA448457 - RNA-seq of response to PORCN inhibition, using ETC-159, in vitro of RNF43 mutant pancreatic adenocarcinoma (HPAF-II).

Project description:Pancreatic ductal adenocarcinoma (PDAC) is the fourth leading cause of cancer fatalities in Western societies, characterized by high metastatic potential and resistance to chemotherapy. Critical molecular mechanisms of these phenotypical features still remain unknown, thus hampering the development of effective prognostic and therapeutic measures in PDAC. Here we show that transcriptional co-factor Transducin beta-like (TBL) 1 was over-expressed in both human and murine PDAC. Inactivation of TBL1 in human and mouse pancreatic cancer cells reduced cellular proliferation and enhanced chemosensitivity, correlating with diminished glucose uptake, glycolytic flux, and PI3kinase signaling. TBL1 deficiency both prevented and reversed pancreatic tumor growth in mice, triggering transcriptional PI3kinase inhibition also in vivo. As TBL1 mRNA levels were also found to correlate with overall and disease-free survival in a cohort of human PDAC patients and to predict therapy responsiveness in these subjects, TBL1 expression may serve both as a novel prognostic marker and molecular target in the treatment of human PDAC. Capan-1 cells were transfected with control-siRNA (#1027292, Qiagen) or siRNA against human TBL1 (SI04329514, Qiagen) and RNA was isolated 24h later

Project description:Serine-Driven Metabolic Plasticity Drives Adaptive Resilience in Pancreatic Cancer Cells [HPAF-2]

Project description:SRP137043 - PRJNA448654 - Timecourse RNA-seq response to PORCN inhibition using an HPAF-II orthotopic model with different MYC states

Project description:Investigating the Molecular Impact of GGMSC on Redox and Metabolic Pathways in Pancreatic Cancer Cells [HPAF-II]

Project description:To explore the potential involvement of circular RNAs (circRNAs) in pancreatic ductal adenocarcinoma (PDAC) oncogenesis, we conducted circRNA profiling in six pairs of human PDAC and adjacent normal tissue by microarray. Our results showed that clusters of circRNAs were aberrantly expressed in PDAC compared with normal samples, and provided potential targets for future treatment of PDAC and novel insights into PDAC biology. Analyze circular RNA expression in pancreatic ductal adenocarcinoma (PDAC) by microarray platform.