Pancreatic Cancer Database

Thomas, Joji Kurian; Kim, Min‐Sik; Balakrishnan, Lavanya; Nanjappa, Vishalakshi; Raju, Rajesh; Marimuthu, Arivusudar; Radhakrishnan, Aneesha; Muthusamy, Babylakshmi; Khan, Aafaque Ahmad; Sakamuri, Sruthi; Tankala, Shantal Gupta; Singal, Mukul; Nair, Bipin; Sirdeshmukh, Ravi; Chatterjee, Aditi; Prasad, T. S. Keshava; Maitra, Anirban; Gowda, Harsha; Hruban, Ralph H.; Pandey, Akhilesh

doi:10.4161/cbt.29188

Cited by 54 publications

(22 citation statements)

References 17 publications

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“…In addition, in our series a small panel of 5 overexpressed PDAC markers (S100A11, GPR137B, SULF1, POSTN and miR-155) would allow precise distinction between PDAC and non-tumoral pancreatic tissues. In line with this hypothesis, strong expression of the S100A11 and GPR137B genes has been reported at the protein level in PDAC tissues, while SULF1 and POSTN are expressed at more variable patterns [ 67 - 69 ]; of note all four proteins have been also found to be secreted and present in both tumor tissues and the plasma [ 67 , 68 , 70 ] from PDAC patients. Altogether, secretion of these proteins outside the tumor cell, supports the potential utility of these genes as candidate markers for the diagnosis and monitoring of PDAC patients.…”

Section: Discussionmentioning

confidence: 84%

Identification and characterization of the gene expression profiles for protein coding and non-coding RNAs of pancreatic ductal adenocarcinomas

et al. 2015

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Significant advances have been achieved in recent years in the identification of the genetic and the molecular alterations of pancreatic ductal adenocarcinoma (PDAC). Despite this, at present the understanding of the precise mechanisms involved in the development and malignant transformation of PDAC remain relatively limited. Here, we evaluated for the first time, the molecular heterogeneity of PDAC tumors, through simultaneous assessment of the gene expression profile (GEP) for both coding and non-coding genes of tumor samples from 27 consecutive PDAC patients. Overall, we identified a common GEP for all PDAC tumors, characterized by an increased expression of genes involved in PDAC cell proliferation, local invasion and metastatic capacity, together with a significant alteration of the early steps of the cellular immune response. At the same time, we confirm and extend on previous observations about the genetic complexity of PDAC tumors as revealed by the demonstration of two clearly distinct and unique GEPs (e.g. epithelial-like vs. mesenchymal-like) reflecting the alteration of different signaling pathways involved in the oncogenesis and progression of these tumors. Our results also highlight the potential role of the immune system microenvironment in these tumors, with potential diagnostic and therapeutic implications.

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Section: Discussionmentioning

confidence: 84%

Identification and characterization of the gene expression profiles for protein coding and non-coding RNAs of pancreatic ductal adenocarcinomas

et al. 2015

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“…But until now no studies have focused on these 3 TFs in IPMN. Moreover, most of the regulated genes (18/25) of these three TFs could be found in Pancreatic Cancer Database [ 41 ]. Nevertheless, our study indicates that these three TFs may be the key regulators in early stage of IPMN and are definitely worth further exploration.…”

Section: Discussionmentioning

confidence: 99%

Exploring the Functional Disorder and Corresponding Key Transcription Factors in Intraductal Papillary Mucinous Neoplasms Progression

Bai

Gao

et al. 2015

International Journal of Genomics

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This study has analyzed the gene expression patterns of an IPMN microarray dataset including normal pancreatic ductal tissue (NT), intraductal papillary mucinous adenoma (IPMA), intraductal papillary mucinous carcinoma (IPMC), and invasive ductal carcinoma (IDC) samples. And eight clusters of differentially expressed genes (DEGs) with similar expression pattern were detected by k-means clustering. Then a survey map of functional disorder in IPMN progression was established by functional enrichment analysis of these clusters. In addition, transcription factors (TFs) enrichment analysis was used to detect the key TFs in each cluster of DEGs, and three TFs (FLI1, ERG, and ESR1) were found to significantly regulate DEGs in cluster 1, and expression of these three TFs was validated by qRT-PCR. All these results indicated that these three TFs might play key roles in the early stages of IPMN progression.

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“…The expression of a number of microRNAs is also altered in pancreatic cancer and its precursors, and again, it has been suggested that these alterations could form the basis for the early detection of pancreatic neoplasia 24–26 . All of these changes in gene expression ultimately are associated with changes in protein expression, and these alterations in protein expression can form a foundation for a rational basis for chemoprevention and early detection 27 .…”

Section: Keynote Speaker Ralph Hruban: Biology Of Pancreatic Cancermentioning

confidence: 99%

Pancreatic Cancer Chemoprevention Translational Workshop

et al. 2016

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Pancreatic cancer is the 4th leading cause of cancer related deaths in the US with a 5 year survival rate of <10%. The Division of Cancer Prevention of the NCI sponsored the Pancreatic Cancer Chemoprevention Translational Workshop on September 10–11th 2015. The goal of the workshop was to obtain information regarding the current state of the science and future scientific areas that should be prioritized for pancreatic cancer prevention research, including early detection and intervention for high-risk precancerous lesions. The workshop addressed the molecular/genetic landscape of pancreatic cancer and precursor lesions; high risk populations and criteria to identify a high risk population for potential chemoprevention trials; identification of chemopreventative/immuopreventative agents; and use of potential biomarkers and imaging for assessing short term efficacy of a preventative agent. The field of chemoprevention for pancreatic cancer is emerging and this workshop was organized to begin to address these important issues and promote multi-institutional efforts in this area. The meeting participants recommended the development of an NCI working group to coordinate efforts, provide a framework, and identify opportunities for chemoprevention of pancreatic cancer.

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Pancreatic Cancer Database

Cited by 54 publications

References 17 publications

Identification and characterization of the gene expression profiles for protein coding and non-coding RNAs of pancreatic ductal adenocarcinomas

Identification and characterization of the gene expression profiles for protein coding and non-coding RNAs of pancreatic ductal adenocarcinomas

Exploring the Functional Disorder and Corresponding Key Transcription Factors in Intraductal Papillary Mucinous Neoplasms Progression

Pancreatic Cancer Chemoprevention Translational Workshop

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