Project description:Molecular analysis of precursor lesions in familial pancreatic cancer

Project description:Background: With less than a 5% survival rate pancreatic adenocarcinoma (PDAC) is almost uniformly lethal. In order to make a significant impact on survival of patients with this malignancy, it is necessary to diagnose the disease early, when curative surgery is still possible. Detailed knowledge of the natural history of the disease and molecular events leading to its progression is therefore critical. Methods and Findings: We have analysed the precursor lesions, PanINs, from prophylactic pancreatectomy specimens of patients from four different kindreds with high risk of familial pancreatic cancer who were treated for histologically proven PanIN-2/3. Thus, the material was procured before pancreatic cancer has developed, rather than from PanINs in a tissue field that already contains cancer. Genome-wide transcriptional profiling using such unique specimens was performed. Bulk frozen sections displaying the most extensive but not microdissected PanIN-2/3 lesions were used in order to obtain the holistic view of both the precursor lesions and their microenvironment. A panel of 76 commonly dysregulated genes that underlie neoplastic progression from normal pancreas to PanINs and PDAC were identified. In addition to shared genes some differences between the PanINs of individual families as well as between the PanINs and PDACs were also seen. This was particularly pronounced in the stromal and immune responses. Conclusions: Our comprehensive analysis of precursor lesions without the invasive component provides the definitive molecular proof that PanIN lesions beget cancer from a molecular standpoint. We demonstrate the need for accumulation of transcriptomic changes during the progression of PanIN to PDAC, both in the epithelium and in the surrounding stroma. An identified 76-gene signature of PDAC progression presents a rich candidate pool for the development of early diagnostic and/or surveillance markers as well as potential novel preventive/therapeutic targets for both familial and sporadic pancreatic adenocarcinoma. Gene expression of 13 PanIN samples was compared to profiling data of whole biopsies from normal donor pancreas (N1 to 4, two replicated samples) and sporadic PDAC (PDAC1 to 6).Ttwo PDAC samples (PDAC 3 and 4) and a replicate of one normal specimen (N4) were removed during the hybridisation quality assessment.

Project description:Background: With less than a 5% survival rate pancreatic adenocarcinoma (PDAC) is almost uniformly lethal. In order to make a significant impact on survival of patients with this malignancy, it is necessary to diagnose the disease early, when curative surgery is still possible. Detailed knowledge of the natural history of the disease and molecular events leading to its progression is therefore critical. Methods and Findings: We have analysed the precursor lesions, PanINs, from prophylactic pancreatectomy specimens of patients from four different kindreds with high risk of familial pancreatic cancer who were treated for histologically proven PanIN-2/3. Thus, the material was procured before pancreatic cancer has developed, rather than from PanINs in a tissue field that already contains cancer. Genome-wide transcriptional profiling using such unique specimens was performed. Bulk frozen sections displaying the most extensive but not microdissected PanIN-2/3 lesions were used in order to obtain the holistic view of both the precursor lesions and their microenvironment. A panel of 76 commonly dysregulated genes that underlie neoplastic progression from normal pancreas to PanINs and PDAC were identified. In addition to shared genes some differences between the PanINs of individual families as well as between the PanINs and PDACs were also seen. This was particularly pronounced in the stromal and immune responses. Conclusions: Our comprehensive analysis of precursor lesions without the invasive component provides the definitive molecular proof that PanIN lesions beget cancer from a molecular standpoint. We demonstrate the need for accumulation of transcriptomic changes during the progression of PanIN to PDAC, both in the epithelium and in the surrounding stroma. An identified 76-gene signature of PDAC progression presents a rich candidate pool for the development of early diagnostic and/or surveillance markers as well as potential novel preventive/therapeutic targets for both familial and sporadic pancreatic adenocarcinoma.

Project description:To model familial pancreatic cancer patients, we generated isogenic Brca2 deficient pancreatic cancer cell lines with CRISPR/Cas9. To investigate the changes in the transcriptome profiles upon BET inhibition, we performed RNA-seq.

Project description:To model familial pancreatic cancer patients, we generated isogenic Brca2 deficient pancreatic cancer cell lines with CRISPR/Cas9. To investigate the changes in the enhancer landscape upon BET inhibition, we performed H3K27ac CUT-and-RUN-seq.

Project description:Allele-specific expression in familial pancreatic cancer

Project description:Expression data from hyperplastic polyps and normal colonic mucosa from patients with familial and sporadic hyperplastic polyposis syndrome (HPPS). We aim to characterize at a molecular level a cohort of hyperplastic lesions from HPPS patients with and without family history. RNA from hyperplastic polyps and normal colonic mucosa (proximal and distal) from patients with familial and sporadic HPPS were included in this study. Total RNA was isolated from each tissue sample, quantified and its quality evaluated. cRNA preparation, hybridization and analysis of results was performed according to Affymetrix recommendations. cRNA was hybridised in the GeneChip array (Human Genome U133 Plus 2.0, Affymetrix), and the intensity was measured.

Project description:The increased number of pancreatic cyst lesions (PCLs) have been detected through the development of abdominal imaging techniques, such as computed tomography (CT), magnetic resonance imaging (MRI), and endoscopic ultrasound (EUS). However, accurate classification of cystic lesions is difficult because of the lack of standardized diagnostic methods, and thus potentially unnecessary surgical resection has been performed on pancreatic cyst patients. Among four most common types of cystic lesions of pancreas, intraductal papillary mucinous neoplasms (IPMNs), mucinous cystic neoplasms (MCN), serous cystic neoplasms (SCN), and solid pseudopapillary neoplasms (SPNs), IPMNs, the precursor lesion of pancreatic cancer, have been detected most frequently, and are subdivided into low-grade dysplasia (LGD), high-grade dysplasia (HGD), and invasive IPMN in accordance with their malignancy. To discover the potential biomarkers of the histological grades of IPMN, we investigated pancreatic cyst fluid proteins that are differentially expressed in accordance with the IPMN malignancy by LC-MS/MS analysis.

Project description:Metabolomics analysis of serum exosomes isolated from pancreatic cancer patients and healthy controls.

Project description:Purpose: To study the expression and function of a novel cell cycle regulatory protein, human ecdysoneless (Ecd), during pancreatic cancer (PC) pathogenesis. Experimental Design: Immunohistochemical expression profiling of Ecd was done in non-neoplastic normal pancreatic tissues and pancreatic ductal adenocarcinoma lesions (from tissue microarray and Rapid Autopsy program) as well as precancerous PanIN lesions and metastatic organs. To analyze the biological significance of Ecd in PC progression, Ecd was stably knocked down in PC cell line followed by in vitro and in vivo functional assays. Results: Normal pancreatic ducts show very weak to no Ecd expression compared to significant positive expression in PC tissues (mean±SE composite score: 0.3±0.2 and 3.8±0.2 respectively, p<0.0001) as well as in PanIN precursor lesions with a progressive increase in Ecd expression with increasing dysplasia (PanIN-1 to PanIN-3). Analysis of matched primary tumors and metastases from PC patients revealed that Ecd is highly expressed in both primary pancreatic tumor and in distant metastatic sites. Further, knockdown of Ecd suppressed cell proliferation in vitro and tumorigenicity of PC cells in mice orthotopic tumors. Microarray study revealed that Ecd regulates expression of glucose transporter GLUT4 in PC cells and was subsequently shown to modulate glucose uptake, lactate production and ATP generation by PC cells. Finally, knockdown of Ecd also reduced level of pAkt, key signaling molecule known to regulate aerobic glycolysis in cancer cells. Conclusion: Ecd is a novel tumor promoting factor that is differentially expressed in pancreatic cancer and potentially regulates glucose metabolism within cancer cells. Two-condition experiment, Ecd knockdown vs Scrambled cells. Biological replicates: 3 Ecd knockdownl, 3 Scrambled, independently grown and harvested. One replicate per array