Your search keyword '"Jen Jen Yeh"' showing total 248 results

1. Kinome state is predictive of cell viability in pancreatic cancer tumor and cancer-associated fibroblast cell lines

Author

Matthew E. Berginski, Madison R. Jenner, Chinmaya U. Joisa, Gabriela Herrera Loeza, Brian T. Golitz, Matthew B. Lipner, Jack R. Leary, Naim Rashid, Gary L. Johnson, Jen Jen Yeh, and Shawn M. Gomez

Subjects

Cancer, Cell signaling, Machine learning, Predictive modeling, Drug response, Kinase inhibitor treatment, Medicine, Biology (General), QH301-705.5

Abstract

Numerous aspects of cellular signaling are regulated by the kinome—the network of over 500 protein kinases that guides and modulates information transfer throughout the cell. The key role played by both individual kinases and assemblies of kinases organized into functional subnetworks leads to kinome dysregulation driving many diseases, particularly cancer. In the case of pancreatic ductal adenocarcinoma (PDAC), a variety of kinases and associated signaling pathways have been identified for their key role in the establishment of disease as well as its progression. However, the identification of additional relevant therapeutic targets has been slow and is further confounded by interactions between the tumor and the surrounding tumor microenvironment. In this work, we attempt to link the state of the human kinome, or kinotype, with cell viability in treated, patient-derived PDAC tumor and cancer-associated fibroblast cell lines. We applied classification models to independent kinome perturbation and kinase inhibitor cell screen data, and found that the inferred kinotype of a cell has a significant and predictive relationship with cell viability. We further find that models are able to identify a set of kinases whose behavior in response to perturbation drive the majority of viability responses in these cell lines, including the understudied kinases CSNK2A1/3, CAMKK2, and PIP4K2C. We next utilized these models to predict the response of new, clinical kinase inhibitors that were not present in the initial dataset for model devlopment and conducted a validation screen that confirmed the accuracy of the models. These results suggest that characterizing the perturbed state of the human protein kinome provides significant opportunity for better understanding of signaling behavior and downstream cell phenotypes, as well as providing insight into the broader design of potential therapeutic strategies for PDAC.

Published

2024

2. Integrated single-dose kinome profiling data is predictive of cancer cell line sensitivity to kinase inhibitors

Author

Chinmaya U. Joisa, Kevin A. Chen, Matthew E. Berginski, Brian T. Golitz, Madison R. Jenner, Gabriela Herrera Loeza, Jen Jen Yeh, and Shawn M. Gomez

Subjects

Cancer, Drug response, Predictive modeling, Machine learning, Kinase inhibitor treatment, Cell phenotypes, Medicine, Biology (General), QH301-705.5

Abstract

Protein kinase activity forms the backbone of cellular information transfer, acting both individually and as part of a broader network, the kinome. Their central role in signaling leads to kinome dysfunction being a common driver of disease, and in particular cancer, where numerous kinases have been identified as having a causal or modulating role in tumor development and progression. As a result, the development of therapies targeting kinases has rapidly grown, with over 70 kinase inhibitors approved for use in the clinic and over double this number currently in clinical trials. Understanding the relationship between kinase inhibitor treatment and their effects on downstream cellular phenotype is thus of clear importance for understanding treatment mechanisms and streamlining compound screening in therapy development. In this work, we combine two large-scale kinome profiling data sets and use them to link inhibitor-kinome interactions with cell line treatment responses (AUC/IC50). We then built computational models on this data set that achieve a high degree of prediction accuracy (R2 of 0.7 and RMSE of 0.9) and were able to identify a set of well-characterized and understudied kinases that significantly affect cell responses. We further validated these models experimentally by testing predicted effects in breast cancer cell lines and extended the model scope by performing additional validation in patient-derived pancreatic cancer cell lines. Overall, these results demonstrate that broad quantification of kinome inhibition state is highly predictive of downstream cellular phenotypes.

Published

2023

3. Open-source curation of a pancreatic ductal adenocarcinoma gene expression analysis platform (pdacR) supports a two-subtype model

Author

Luke A. Torre-Healy, Ryan R. Kawalerski, Ki Oh, Lucie Chrastecka, Xianlu L. Peng, Andrew J. Aguirre, Naim U. Rashid, Jen Jen Yeh, and Richard A. Moffitt

Subjects

Biology (General), QH301-705.5

Abstract

pdacR is an open-source R package and web-based platform that enables community exploration of pancreatic ductal adenocarcinoma (PDAC) gene expression datasets. pdacR is used to interrogate the specificities of popular PDAC molecular subtypes.

Published

2023

4. The Q61H mutation decouples KRAS from upstream regulation and renders cancer cells resistant to SHP2 inhibitors

Author

Teklab Gebregiworgis, Yoshihito Kano, Jonathan St-Germain, Nikolina Radulovich, Molly L. Udaskin, Ahmet Mentes, Richard Huang, Betty P. K. Poon, Wenguang He, Ivette Valencia-Sama, Claire M. Robinson, Melissa Huestis, Jinmin Miao, Jen Jen Yeh, Zhong-Yin Zhang, Meredith S. Irwin, Jeffrey E. Lee, Ming-Sound Tsao, Brian Raught, Christopher B. Marshall, Michael Ohh, and Mitsuhiko Ikura

Subjects

Science

Abstract

SHP2 promotes RAS-driven MAPK signalling, but it is unclear why cancer cells with distinct KRAS mutations exhibit differential sensitivity to SHP2 inhibition. Here the authors show that KRAS Q61H is decoupled from SHP2- mediated upstream regulation, thus Q61H pancreatic cancer cells maintain MAPK signalling and are refractory to SHP2 inhibitors.

Published

2021

5. The PDAC Extracellular Matrix: A Review of the ECM Protein Composition, Tumor Cell Interaction, and Therapeutic Strategies

Author

Vincent M. Perez, Joseph F. Kearney, and Jen Jen Yeh

Subjects

pancreatic ductal adenocarcinoma, extracellular matrix, tumor microenvironment, proteome, cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is notorious for a dense fibrotic stroma that is interlaced with a collagen-based extracellular matrix (ECM) that plays an important role in tumor biology. Traditionally thought to only provide a physical barrier from host responses and systemic chemotherapy, new studies have demonstrated that the ECM maintains biomechanical and biochemical properties of the tumor microenvironment (TME) and restrains tumor growth. Recent studies have shown that the ECM augments tumor stiffness, interstitial fluid pressure, cell-to-cell junctions, and microvascularity using a mix of biomechanical and biochemical signals to influence tumor fate for better or worse. In addition, PDAC tumors have been shown to use ECM-derived peptide fragments as a nutrient source in nutrient-poor conditions. While collagens are the most abundant proteins found in the ECM, several studies have identified growth factors, integrins, glycoproteins, and proteoglycans in the ECM. This review focuses on the dichotomous nature of the PDAC ECM, the types of collagens and other proteins found in the ECM, and therapeutic strategies targeting the PDAC ECM.

Published

2021

6. De novo compartment deconvolution and weight estimation of tumor samples using DECODER

Author

Xianlu Laura Peng, Richard A. Moffitt, Robert J. Torphy, Keith E. Volmar, and Jen Jen Yeh

Subjects

Science

Abstract

Separating different cell compartments from bulk gene expression data can be challenging. Here the authors present DECODER, which can perform de novo deconvolutions on non-negative matrices including microarray, RNA-seq and ATAC-seq data sets.

Published

2019

7. Tyrosyl phosphorylation of KRAS stalls GTPase cycle via alteration of switch I and II conformation

Author

Yoshihito Kano, Teklab Gebregiworgis, Christopher B. Marshall, Nikolina Radulovich, Betty P. K. Poon, Jonathan St-Germain, Jonathan D. Cook, Ivette Valencia-Sama, Benjamin M. M. Grant, Silvia Gabriela Herrera, Jinmin Miao, Brian Raught, Meredith S. Irwin, Jeffrey E. Lee, Jen Jen Yeh, Zhong-Yin Zhang, Ming-Sound Tsao, Mitsuhiko Ikura, and Michael Ohh

Subjects

Science

Abstract

Deregulation of the RAS GTPase cycle due to mutations in RAS genes is commonly associated with cancer development. Here authors use NMR and mass spectrometry to shows that KRAS phosphorylation via Src alters the conformation of switch I and II regions and thereby impacts the GTPase cycle.

Published

2019

8. Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree

Author

Audrey M Hendley, Arjun A Rao, Laura Leonhardt, Sudipta Ashe, Jennifer A Smith, Simone Giacometti, Xianlu L Peng, Honglin Jiang, David I Berrios, Mathias Pawlak, Lucia Y Li, Jonghyun Lee, Eric A Collisson, Mark S Anderson, Gabriela K Fragiadakis, Jen Jen Yeh, Chun Jimmie Ye, Grace E Kim, Valerie M Weaver, and Matthias Hebrok

Subjects

scRNA-seq, pancreatic duct ligation, Osteopontin, Geminin, duct heterogeneity, Medicine, Science, Biology (General), QH301-705.5

Abstract

To study disease development, an inventory of an organ's cell types and understanding of physiologic function is paramount. Here, we performed single-cell RNA-sequencing to examine heterogeneity of murine pancreatic duct cells, pancreatobiliary cells, and intrapancreatic bile duct cells. We describe an epithelial-mesenchymal transitory axis in our three pancreatic duct subpopulations and identify osteopontin as a regulator of this fate decision as well as human duct cell dedifferentiation. Our results further identify functional heterogeneity within pancreatic duct subpopulations by elucidating a role for geminin in accumulation of DNA damage in the setting of chronic pancreatitis. Our findings implicate diverse functional roles for subpopulations of pancreatic duct cells in maintenance of duct cell identity and disease progression and establish a comprehensive road map of murine pancreatic duct cell, pancreatobiliary cell, and intrapancreatic bile duct cell homeostasis.

Published

2021

9. Gene Targeting in Disease Networks

Author

Deborah Weighill, Marouen Ben Guebila, Kimberly Glass, John Platig, Jen Jen Yeh, and John Quackenbush

Subjects

cancer genomics, network medicine, gene targeting, differential targeting, gene regulatory networks, Genetics, QH426-470

Abstract

Profiling of whole transcriptomes has become a cornerstone of molecular biology and an invaluable tool for the characterization of clinical phenotypes and the identification of disease subtypes. Analyses of these data are becoming ever more sophisticated as we move beyond simple comparisons to consider networks of higher-order interactions and associations. Gene regulatory networks (GRNs) model the regulatory relationships of transcription factors and genes and have allowed the identification of differentially regulated processes in disease systems. In this perspective, we discuss gene targeting scores, which measure changes in inferred regulatory network interactions, and their use in identifying disease-relevant processes. In addition, we present an example analysis for pancreatic ductal adenocarcinoma (PDAC), demonstrating the power of gene targeting scores to identify differential processes between complex phenotypes, processes that would have been missed by only performing differential expression analysis. This example demonstrates that gene targeting scores are an invaluable addition to gene expression analysis in the characterization of diseases and other complex phenotypes.

Published

2021

10. Discrete microfluidics for the isolation of circulating tumor cell subpopulations targeting fibroblast activation protein alpha and epithelial cell adhesion molecule

Author

Małgorzata A. Witek, Rachel D. Aufforth, Hong Wang, Joyce W. Kamande, Joshua M. Jackson, Swathi R. Pullagurla, Mateusz L. Hupert, Jerry Usary, Weiya Z. Wysham, Dawud Hilliard, Stephanie Montgomery, Victoria Bae-Jump, Lisa A. Carey, Paola A. Gehrig, Matthew I. Milowsky, Charles M. Perou, John T. Soper, Young E. Whang, Jen Jen Yeh, George Martin, and Steven A. Soper

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Diagnostics: Dual selection improves circulating tumor cell assay Using two selection markers, instead of one, can improve the sensitivity of a blood test for circulating tumor cells (CTCs). Steven A. Soper from the University of Kansas in Lawrence, USA, and colleagues analyzed blood samples from patients with cancers of the pancreas, colon, breast, ovaries and prostate, as well blood from healthy donors and those with benign disease. They ran each patient’s blood through two microfluidic devices, one chip targeting the established marker epithelial cell adhesion molecule (EpCAM) and another targeting a new marker, fibroblast activation protein alpha (FAPα). Doing so detected CTCs in nearly all the cancer patients—a substantial improvement over testing for EpCAM CTCs alone. Molecular and genetic analyses of the CTCs showed that those expressing EpCAM and FAPα are distinct subpopulations, and testing for both could prove valuable for clinical management.

Published

2017

11. MYC activation cooperates with Vhl and Ink4a/Arf loss to induce clear cell renal cell carcinoma

Author

Sean T. Bailey, Aleisha M. Smith, Jordan Kardos, Sara E. Wobker, Harper L. Wilson, Bhavani Krishnan, Ryoichi Saito, Hyo Jin Lee, Jing Zhang, Samuel C. Eaton, Lindsay A. Williams, Ujjawal Manocha, Dorien J. Peters, Xinchao Pan, Thomas J. Carroll, Dean W. Felsher, Vonn Walter, Qing Zhang, Joel S. Parker, Jen Jen Yeh, Richard A. Moffitt, Janet Y. Leung, and William Y. Kim

Subjects

Science

Abstract

Renal cell carcinoma (RCC) is a common and aggressive malignancy. Here, the authors generate two mouse models of the most common RCC subtypes: the human papillary RCC throughMYC activation and clear cell RCC through MYC activation combined with Vhl and Cdkn2adeletion.

Published

2017

12. N-BLR, a primate-specific non-coding transcript leads to colorectal cancer invasion and migration

Author

Isidore Rigoutsos, Sang Kil Lee, Su Youn Nam, Simone Anfossi, Barbara Pasculli, Martin Pichler, Yi Jing, Cristian Rodriguez-Aguayo, Aristeidis G. Telonis, Simona Rossi, Cristina Ivan, Tina Catela Ivkovic, Linda Fabris, Peter M. Clark, Hui Ling, Masayoshi Shimizu, Roxana S. Redis, Maitri Y. Shah, Xinna Zhang, Yoshinaga Okugawa, Eun Jung Jung, Aristotelis Tsirigos, Li Huang, Jana Ferdin, Roberta Gafà, Riccardo Spizzo, Milena S. Nicoloso, Anurag N. Paranjape, Maryam Shariati, Aida Tiron, Jen Jen Yeh, Raul Teruel-Montoya, Lianchun Xiao, Sonia A. Melo, David Menter, Zhi-Qin Jiang, Elsa R. Flores, Massimo Negrini, Ajay Goel, Menashe Bar-Eli, Sendurai A. Mani, Chang Gong Liu, Gabriel Lopez-Berestein, Ioana Berindan-Neagoe, Manel Esteller, Scott Kopetz, Giovanni Lanza, and George A. Calin

Subjects

Non-coding RNA, Pyknons, Transcription, ncRNA, lncRNA, N-BLR, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Non-coding RNAs have been drawing increasing attention in recent years as functional data suggest that they play important roles in key cellular processes. N-BLR is a primate-specific long non-coding RNA that modulates the epithelial-to-mesenchymal transition, facilitates cell migration, and increases colorectal cancer invasion. Results We performed multivariate analyses of data from two independent cohorts of colorectal cancer patients and show that the abundance of N-BLR is associated with tumor stage, invasion potential, and overall patient survival. Through in vitro and in vivo experiments we found that N-BLR facilitates migration primarily via crosstalk with E-cadherin and ZEB1. We showed that this crosstalk is mediated by a pyknon, a short ~20 nucleotide-long DNA motif contained in the N-BLR transcript and is targeted by members of the miR-200 family. In light of these findings, we used a microarray to investigate the expression patterns of other pyknon-containing genomic loci. We found multiple such loci that are differentially transcribed between healthy and diseased tissues in colorectal cancer and chronic lymphocytic leukemia. Moreover, we identified several new loci whose expression correlates with the colorectal cancer patients’ overall survival. Conclusions The primate-specific N-BLR is a novel molecular contributor to the complex mechanisms that underlie metastasis in colorectal cancer and a potential novel biomarker for this disease. The presence of a functional pyknon within N-BLR and the related finding that many more pyknon-containing genomic loci in the human genome exhibit tissue-specific and disease-specific expression suggests the possibility of an alternative class of biomarkers and therapeutic targets that are primate-specific.

Published

2017

13. The vitamin D receptor gene as a determinant of survival in pancreatic cancer patients: Genomic analysis and experimental validation.

Author

Federico Innocenti, Kouros Owzar, Chen Jiang, Amy S Etheridge, Raluca Gordân, Alexander B Sibley, Flora Mulkey, Donna Niedzwiecki, Dylan Glubb, Nicole Neel, Mark S Talamonti, David J Bentrem, Eric Seiser, Jen Jen Yeh, Katherine Van Loon, Howard McLeod, Mark J Ratain, Hedy L Kindler, Alan P Venook, Yusuke Nakamura, Michiaki Kubo, Gloria M Petersen, William R Bamlet, and Robert R McWilliams

Subjects

Medicine, Science

Abstract

PURPOSE:Advanced pancreatic cancer is a highly refractory disease almost always associated with survival of little more than a year. New interventions based on novel targets are needed. We aim to identify new genetic determinants of overall survival (OS) in patients after treatment with gemcitabine using genome-wide screens of germline DNA. We aim also to support these findings with in vitro functional analysis. PATIENTS AND METHODS:Genome-wide screens of germline DNA in two independent cohorts of pancreatic cancer patients (from the Cancer and Leukemia Group B (CALGB) 80303 and the Mayo Clinic) were used to select new genes associated with OS. The vitamin D receptor gene (VDR) was selected, and the interactions of genetic variation in VDR with circulating vitamin D levels and gemcitabine treatment were evaluated. Functional effects of common VDR variants were also evaluated in experimental assays in human cell lines. RESULTS:The rs2853564 variant in VDR was associated with OS in patients from both the Mayo Clinic (HR 0.81, 95% CI 0.70-0.94, p = 0.0059) and CALGB 80303 (HR 0.74, 0.63-0.87, p = 0.0002). rs2853564 interacted with high pre-treatment levels of 25-hydroxyvitamin D (25(OH)D, a measure of endogenous vitamin D) (p = 0.0079 for interaction) and with gemcitabine treatment (p = 0.024 for interaction) to confer increased OS. rs2853564 increased transcriptional activity in luciferase assays and reduced the binding of the IRF4 transcription factor. CONCLUSION:Our findings propose VDR as a novel determinant of survival in advanced pancreatic cancer patients. Common functional variation in this gene might interact with endogenous vitamin D and gemcitabine treatment to determine improved patient survival. These results support evidence for a modulatory role of the vitamin D pathway for the survival of advanced pancreatic cancer patients.

Published

2018

14. Genetic and pharmacological inhibition of TTK impairs pancreatic cancer cell line growth by inducing lethal chromosomal instability.

Author

Jeran K Stratford, Feng Yan, Rebecca A Hill, Michael B Major, Lee M Graves, Channing J Der, and Jen Jen Yeh

Subjects

Medicine, Science

Abstract

Pancreatic ductal adenocarcinoma, which accounts for the majority of pancreatic cancers, is a lethal disease with few therapeutic options. Genomic profiling of pancreatic ductal adenocarcinoma has identified a complex and heterogeneous landscape. Understanding the molecular characteristics of pancreatic ductal adenocarcinoma will facilitate the identification of potential therapeutic strategies. We analyzed the gene expression profiles of primary tumors from patients compared to normal pancreas and identified high co-overexpression of core components of the spindle assembly checkpoint, including the protein kinase TTK (also known as MPS-1). We found overexpression of TTK protein in a subset of pancreatic ductal adenocarcinoma primary tumors and cell lines. siRNA-mediated depletion or catalytic inhibition of TTK resulted in an aberrant cell cycle profile, multi- and micro-nucleation, induction of apoptosis, and decreased cell proliferation and transformed growth. Selective catalytic inhibition of TTK caused override of the spindle assembly checkpoint-induced cell cycle arrest. Interestingly, we identified ubiquitin specific peptidase 16 (Usp16), an ubiquitin hydrolase, as a phosphorylation substrate of TTK. Usp16 regulates chromosomal condensation and G2/M progression by deubiquitinating histone H2A and polo-like kinase 1. Phosphomimetic mutants of Usp16 show enhanced proteosomal degradation and may prolong the G2/M transition allowing for correction of replication errors. Taken together, our results suggest a critical role for TTK in preventing aneuploidy-induced cell death in pancreatic cancer.

Published

2017

15. Metformin Treatment Does Not Inhibit Growth of Pancreatic Cancer Patient-Derived Xenografts.

Author

Matthew B Lipner, Raoud Marayati, Yangmei Deng, Xianxi Wang, Laura Raftery, Bert H O'Neil, and Jen Jen Yeh

Subjects

Medicine, Science

Abstract

There is currently tremendous interest in developing anti-cancer therapeutics targeting cell signaling pathways important for both cancer cell metabolism and growth. Several epidemiological studies have shown that diabetic patients taking metformin have a decreased incidence of pancreatic cancer. This has prompted efforts to evaluate metformin, a drug with negligible toxicity, as a therapeutic modality in pancreatic cancer. Preclinical studies in cell line xenografts and one study in patient-derived xenograft (PDX) models were promising, while recently published clinical trials showed no benefit to adding metformin to combination therapy regimens for locally advanced and metastatic pancreatic cancer. PDX models in which patient tumors are directly engrafted into immunocompromised mice have been shown to be excellent preclinical models for biomarker discovery and therapeutic development. We evaluated the response of four PDX tumor lines to metformin treatment and found that all four of our PDX lines were resistant to metformin. We found that the mechanisms of resistance may occur through lack of sustained activation of adenosine monophosphate-activated protein kinase (AMPK) or downstream reactivation of the mammalian target of rapamycin (mTOR). Moreover, combined treatment with metformin and mTOR inhibitors failed to improve responses in cell lines, which further indicates that metformin alone or in combination with mTOR inhibitors will be ineffective in patients, and that resistance to metformin may occur through multiple pathways. Further studies are required to better understand these mechanisms of resistance and inform potential combination therapies with metformin and existing or novel therapeutics.

Published

2016

16. mTOR inhibition induces compensatory, therapeutically targetable MEK activation in renal cell carcinoma.

Author

Sean T Bailey, Bing Zhou, Jeffrey S Damrauer, Bhavani Krishnan, Harper L Wilson, Aleisha M Smith, Mingqing Li, Jen Jen Yeh, and William Y Kim

Subjects

Medicine, Science

Abstract

Rapamycin derivatives allosterically targeting mTOR are currently FDA approved to treat advanced renal cell carcinoma (RCC), and catalytic inhibitors of mTOR/PI3K are now in clinical trials for treating various solid tumors. We sought to investigate the relative efficacy of allosteric versus catalytic mTOR inhibition, evaluate the crosstalk between the mTOR and MEK/ERK pathways, as well as the therapeutic potential of dual mTOR and MEK inhibition in RCC. Pharmacologic (rapamycin and BEZ235) and genetic manipulation of the mTOR pathway were evaluated by in vitro assays as monotherapy as well as in combination with MEK inhibition (GSK1120212). Catalytic mTOR inhibition with BEZ235 decreased proliferation and increased apoptosis better than allosteric mTOR inhibition with rapamycin. While mTOR inhibition upregulated MEK/ERK signaling, concurrent inhibition of both pathways had enhanced therapeutic efficacy. Finally, primary RCC tumors could be classified into subgroups [(I) MEK activated, (II) Dual MEK and mTOR activated, (III) Not activated, and (IV) mTOR activated] based on their relative activation of the PI3K/mTOR and MEK pathways. Patients with mTOR only activated tumors had the worst prognosis. In summary, dual targeting of the mTOR and MEK pathways in RCC can enhance therapeutic efficacy and primary RCC can be subclassified based on their relative levels of mTOR and MEK activation with potential therapeutic implications.

Published

2014

17. Circulating tumor cells as a biomarker of response to treatment in patient-derived xenograft mouse models of pancreatic adenocarcinoma.

Author

Robert J Torphy, Christopher J Tignanelli, Joyce W Kamande, Richard A Moffitt, Silvia G Herrera Loeza, Steven A Soper, and Jen Jen Yeh

Subjects

Medicine, Science

Abstract

Circulating tumor cells (CTCs) are cells shed from solid tumors into circulation and have been shown to be prognostic in the setting of metastatic disease. These cells are obtained through a routine blood draw and may serve as an easily accessible marker for monitoring treatment effectiveness. Because of the rapid progression of pancreatic ductal adenocarcinoma (PDAC), early insight into treatment effectiveness may allow for necessary and timely changes in treatment regimens. The objective of this study was to evaluate CTC burden as a biomarker of response to treatment with a oral phosphatidylinositol-3-kinase inhibitor, BKM120, in patient-derived xenograft (PDX) mouse models of PDAC. PDX mice were randomized to receive vehicle or BKM120 treatment for 28 days and CTCs were enumerated from whole blood before and after treatment using a microfluidic chip that selected for EpCAM (epithelial cell adhesion molecule) positive cells. This microfluidic device allowed for the release of captured CTCs and enumeration of these cells via their electrical impedance signatures. Median CTC counts significantly decreased in the BKM120 group from pre- to post-treatment (26.61 to 2.21 CTCs/250 µL, p = 0.0207) while no significant change was observed in the vehicle group (23.26 to 11.89 CTCs/250 µL, p = 0.8081). This reduction in CTC burden in the treatment group correlated with tumor growth inhibition indicating CTC burden is a promising biomarker of response to treatment in preclinical models. Mutant enriched sequencing of isolated CTCs confirmed that they harbored KRAS G12V mutations, identical to the matched tumors. In the long-term, PDX mice are a useful preclinical model for furthering our understanding of CTCs. Clinically, mutational analysis of CTCs and serial monitoring of CTC burden may be used as a minimally invasive approach to predict and monitor treatment response to guide therapeutic regimens.

Published

2014

18. Fusobacterium is associated with colorectal adenomas.

Author

Amber N McCoy, Félix Araújo-Pérez, Andrea Azcárate-Peril, Jen Jen Yeh, Robert S Sandler, and Temitope O Keku

Subjects

Medicine, Science

Abstract

The human gut microbiota is increasingly recognized as a player in colorectal cancer (CRC). While particular imbalances in the gut microbiota have been linked to colorectal adenomas and cancer, no specific bacterium has been identified as a risk factor. Recent studies have reported a high abundance of Fusobacterium in CRC subjects compared to normal subjects, but this observation has not been reported for adenomas, CRC precursors. We assessed the abundance of Fusobacterium species in the normal rectal mucosa of subjects with (n = 48) and without adenomas (n = 67). We also confirmed previous reports on Fusobacterium and CRC in 10 CRC tumor tissues and 9 matching normal tissues by pyrosequencing. We extracted DNA from rectal mucosal biopsies and measured bacterial levels by quantitative PCR of the 16S ribosomal RNA gene. Local cytokine gene expression was also determined in mucosal biopsies from adenoma cases and controls by quantitative PCR. The mean log abundance of Fusobacterium or cytokine gene expression between cases and controls was compared by t-test. Logistic regression was used to compare tertiles of Fusobacterium abundance. Adenoma subjects had a significantly higher abundance of Fusobacterium species compared to controls (p = 0.01). Compared to the lowest tertile, subjects with high abundance of Fusobacterium were significantly more likely to have adenomas (OR 3.66, 95% CI 1.37-9.74, p-trend 0.005). Cases but not controls had a significant positive correlation between local cytokine gene expression and Fusobacterium abundance. Among cases, the correlation for local TNF-α and Fusobacterium was r = 0.33, p = 0.06 while it was 0.44, p = 0.01 for Fusobacterium and IL-10. These results support a link between the abundance of Fusobacterium in colonic mucosa and adenomas and suggest a possible role for mucosal inflammation in this process.

Published

2013

19. Differential expression of metabolic genes in tumor and stromal components of primary and metastatic loci in pancreatic adenocarcinoma.

Author

Nina V Chaika, Fang Yu, Vinee Purohit, Kamiya Mehla, Audrey J Lazenby, Dominick DiMaio, Judy M Anderson, Jen Jen Yeh, Keith R Johnson, Michael A Hollingsworth, and Pankaj K Singh

Subjects

Medicine, Science

Abstract

Pancreatic cancer is the fourth leading cause of cancer related deaths in the United States with a five-year survival rate of 6%. It is characterized by extremely aggressive tumor growth rate and high incidence of metastasis. One of the most common and profound biochemical phenotypes of animal and human cancer cells is their ability to metabolize glucose at high rates, even under aerobic conditions. However, the contribution of metabolic interrelationships between tumor cells and cells of the surrounding microenvironment to the progression of cancer is not well understood. We evaluated differential expression of metabolic genes and, hence, metabolic pathways in primary tumor and metastases of patients with pancreatic adenocarcinoma.We analyzed the metabolic gene (those involved in glycolysis, tri-carboxylic acid pathway, pentose-phosphate pathway and fatty acid metabolism) expression profiles of primary and metastatic lesions from pancreatic cancer patients by gene expression arrays. We observed two principal results: genes that were upregulated in primary and most of the metastatic lesions; and genes that were upregulated only in specific metastatic lesions in a site-specific manner. Immunohistochemical (IHC) analyses of several metabolic gene products confirmed the gene expression patterns at the protein level. The IHC analyses also revealed differential tumor and stromal expression patterns of metabolic enzymes that were correlated with the metastasis sites.Here, we present the first comprehensive studies that establish differential metabolic status of tumor and stromal components and elevation of aerobic glycolysis gene expression in pancreatic cancer.

Published

2012

20. Differential gene expression between African American and European American colorectal cancer patients.

Author

Biljana Jovov, Felix Araujo-Perez, Carlie S Sigel, Jeran K Stratford, Amber N McCoy, Jen Jen Yeh, and Temitope Keku

Subjects

Medicine, Science

Abstract

The incidence and mortality of colorectal cancer (CRC) is higher in African Americans (AAs) than other ethnic groups in the U. S., but reasons for the disparities are unknown. We performed gene expression profiling of sporadic CRCs from AAs vs. European Americans (EAs) to assess the contribution to CRC disparities. We evaluated the gene expression of 43 AA and 43 EA CRC tumors matched by stage and 40 matching normal colorectal tissues using the Agilent human whole genome 4x44K cDNA arrays. Gene and pathway analyses were performed using Significance Analysis of Microarrays (SAM), Ten-fold cross validation, and Ingenuity Pathway Analysis (IPA). SAM revealed that 95 genes were differentially expressed between AA and EA patients at a false discovery rate of ≤5%. Using IPA we determined that most prominent disease and pathway associations of differentially expressed genes were related to inflammation and immune response. Ten-fold cross validation demonstrated that following 10 genes can predict ethnicity with an accuracy of 94%: CRYBB2, PSPH, ADAL, VSIG10L, C17orf81, ANKRD36B, ZNF835, ARHGAP6, TRNT1 and WDR8. Expression of these 10 genes was validated by qRT-PCR in an independent test set of 28 patients (10 AA, 18 EA). Our results are the first to implicate differential gene expression in CRC racial disparities and indicate prominent difference in CRC inflammation between AA and EA patients. Differences in susceptibility to inflammation support the existence of distinct tumor microenvironments in these two patient populations.

Published

2012

21. A six-gene signature predicts survival of patients with localized pancreatic ductal adenocarcinoma.

Author

Jeran K Stratford, David J Bentrem, Judy M Anderson, Cheng Fan, Keith A Volmar, J S Marron, Elizabeth D Routh, Laura S Caskey, Jonathan C Samuel, Channing J Der, Leigh B Thorne, Benjamin F Calvo, Hong Jin Kim, Mark S Talamonti, Christine A Iacobuzio-Donahue, Michael A Hollingsworth, Charles M Perou, and Jen Jen Yeh

Subjects

Medicine

Abstract

Pancreatic ductal adenocarcinoma (PDAC) remains a lethal disease. For patients with localized PDAC, surgery is the best option, but with a median survival of less than 2 years and a difficult and prolonged postoperative course for most, there is an urgent need to better identify patients who have the most aggressive disease.We analyzed the gene expression profiles of primary tumors from patients with localized compared to metastatic disease and identified a six-gene signature associated with metastatic disease. We evaluated the prognostic potential of this signature in a training set of 34 patients with localized and resected PDAC and selected a cut-point associated with outcome using X-tile. We then applied this cut-point to an independent test set of 67 patients with localized and resected PDAC and found that our signature was independently predictive of survival and superior to established clinical prognostic factors such as grade, tumor size, and nodal status, with a hazard ratio of 4.1 (95% confidence interval [CI] 1.7-10.0). Patients defined to be high-risk patients by the six-gene signature had a 1-year survival rate of 55% compared to 91% in the low-risk group.Our six-gene signature may be used to better stage PDAC patients and assist in the difficult treatment decisions of surgery and to select patients whose tumor biology may benefit most from neoadjuvant therapy. The use of this six-gene signature should be investigated in prospective patient cohorts, and if confirmed, in future PDAC clinical trials, its potential as a biomarker should be investigated. Genes in this signature, or the pathways that they fall into, may represent new therapeutic targets. Please see later in the article for the Editors' Summary.

Published

2010

22. Isoform-specific upregulation of palladin in human and murine pancreas tumors.

Author

Silvia M Goicoechea, Brian Bednarski, Christianna Stack, David W Cowan, Keith Volmar, Leigh Thorne, Edna Cukierman, Anil K Rustgi, Teresa Brentnall, Rosa F Hwang, Christopher A G McCulloch, Jen Jen Yeh, David J Bentrem, Steven N Hochwald, Sunil R Hingorani, Hong Jin Kim, and Carol A Otey

Subjects

Medicine, Science

Abstract

Pancreatic ductal adenocarcinoma (PDA) is a lethal disease with a characteristic pattern of early metastasis, which is driving a search for biomarkers that can be used to detect the cancer at an early stage. Recently, the actin-associated protein palladin was identified as a candidate biomarker when it was shown that palladin is mutated in a rare inherited form of PDA, and overexpressed in many sporadic pancreas tumors and premalignant precursors. In this study, we analyzed the expression of palladin isoforms in murine and human PDA and explored palladin's potential use in diagnosing PDA. We performed immunohistochemistry and immunoblot analyses on patient samples and tumor-derived cells using an isoform-selective monoclonal antibody and a pan-palladin polyclonal antibody. Immunoblot and real-time quantitative reverse transcription-PCR were used to quantify palladin mRNA levels in human samples. We show that there are two major palladin isoforms expressed in pancreas: 65 and 85-90 kDa. The 65 kDa isoform is expressed in both normal and neoplastic ductal epithelial cells. The 85-90 kDa palladin isoform is highly overexpressed in tumor-associated fibroblasts (TAFs) in both primary and metastatic tumors compared to normal pancreas, in samples obtained from either human patients or genetically engineered mice. In tumor-derived cultured cells, expression of palladin isoforms follows cell-type specific patterns, with the 85-90 kDa isoform in TAFs, and the 65 kDa isoform predominating in normal and neoplastic epithelial cells. These results suggest that upregulation of 85-90 kDa palladin isoform may play a role in the establishment of the TAF phenotype, and thus in the formation of a desmoplastic tumor microenvironment. Thus, palladin may have a potential use in the early diagnosis of PDA and may have much broader significance in understanding metastatic behavior.

Published

2010

23. Sub-Cluster Identification through Semi-Supervised Optimization of Rare-Cell Silhouettes (SCISSORS) in single-cell RNA-sequencing.

Author

Jack R. Leary, Yi Xu, Ashley B. Morrison, Chong Jin, Emily C. Shen, Peyton C. Kuhlers, Ye Su, Naim U. Rashid, Jen Jen Yeh, and Xianlu Laura Peng

Published

2023

24. Tumor-intrinsic and Cancer-associated Fibroblast Subtypes Independently Predict Outcomes in Pancreatic Cancer.

Author

Lee, Jaewon J., Kearney, Joseph F., Trembath, Hannah E., Hariharan, Arthi, LaBella, Michelle E., Kharitonova, Elena V., Chan, Priscilla S., Morrison, Ashley B., Cliff, Ashley, Meyers, Michael O., Hong Jin Kim, Rashid, Naim U., Xianlu L. Peng, and Jen Jen Yeh

Abstract

Objective: To assess the utility of tumor-intrinsic and cancer-associated fibroblast (CAF) subtypes of pancreatic ductal adenocarcinoma (PDAC) in predicting response to neoadjuvant therapy (NAT) and overall survival (OS). Background: PDAC remains a deadly disease with limited treatment options, and both the tumor as well as the microenvironment play an important role in pathogenesis. Gene expression--based tumorintrinsic subtypes (classical and basal-like) have been shown to predict outcomes, but tumor microenvironment subtypes are still evolving. Methods: RNA-sequencing was performed on 114 deidentified resected PDAC tumors. Clinical data were collected by retrospective chart review. Single sample classifiers were used to determine classical and basal-like subtypes as well as tumor-permissive permCAF and tumor-restraining restCAF subtypes. Survival was analyzed using the log-rank test. Results: Patients who received NAT had an increase in OS, with a median survival of 27.9 months compared with 20.1 months for those who did not receive NAT, but the difference did not reach statistical significance (hazard ratio: 0.64, P=0.076). Either tumorintrinsic or CAF subtypes alone were associated with OS regardless of NAT or no NAT, and patients with classical or restCAF subtypes had the best outcomes. When evaluated together, patients with the classical-restCAF subtype had the best OS and basalpermCAF the worst OS (P< 0.0001). Patients undergoing NAT with the classical-restCAF subtype demonstrated the longest OS compared with the other groups (P=0.00041). Conclusions: CAF subtypes have an additive effect over tumorintrinsic subtypes in predicting survival with or without neoadjuvant FOLFIRINOX in PDAC. Molecular subtyping of both tumor and CAF compartments of PDAC may be important steps in selecting first-line systemic therapy. [ABSTRACT FROM AUTHOR]

Published

2024

25. Pan-lysyl oxidase inhibition disrupts fibroinflammatory tumor stroma, rendering cholangiocarcinoma susceptible to chemotherapy.

Author

Burchard, Paul R., Ruffolo, Luis I., Ullman, Nicholas A., Dale, Benjamin S., Dave, Yatee A., Hilty, Bailey K., Jian Ye, Georger, Mary, Jewell, Rachel, Miller, Christine, De Las Casas, Luis, Jarolimek, Wolfgang, Perryman, Lara, Byrne, Matthew M., Loria, Anthony, Marin, Chelsea, Chávez Villa, Mariana, Jen Jen Yeh, Belt, Brian A., and Linehan, David C.

Published

2024

26. High dimensional precision medicine from patient-derived xenografts.

Author

Naim U. Rashid, Daniel J. Luckett, Jingxiang Chen, Michael T. Lawson, Longshaokan Wang, Yunshu Zhang, Eric B. Laber, Yufeng Liu, Jen Jen Yeh, Donglin Zeng, and Michael R. Kosorok

Published

2019

27. Promise of bile circulating tumor DNA in biliary tract cancers

Author

Joseph F. Kearney, Deborah Weighill, and Jen Jen Yeh

Subjects

Cancer Research, Oncology, Article

Published

2023

28. Identifying patient profiles of disparate care in resectable pancreas cancer using latent class analysis

Author

Ugwuji N. Maduekwe, Briana J. K. Stephenson, Jen Jen Yeh, Melissa A. Troester, and Hanna K. Sanoff

Subjects

Oncology, Surgery, General Medicine

Published

2023

29. Supplementary Figures from B cell–Derived IL35 Drives STAT3-Dependent CD8+ T-cell Exclusion in Pancreatic Cancer

Author

Yuliya Pylayeva-Gupta, Dario A.A. Vignali, Benjamin G. Vincent, Autumn J. McRee, Jen Jen Yeh, Naim U. Rashid, David G. DeNardo, William G. Hawkins, Ryan C. Fields, Gaorav P. Gupta, Emily C. Goldman, Kevin Greene, Cameron Harris, Nancy P. Kren, Samuel J. Lee, Daniel Michaud, and Bhalchandra Mirlekar

Abstract

Supplementary Figures 1-14

Published

2023

30. Supplementary Tables from B cell–Derived IL35 Drives STAT3-Dependent CD8+ T-cell Exclusion in Pancreatic Cancer

Author

Yuliya Pylayeva-Gupta, Dario A.A. Vignali, Benjamin G. Vincent, Autumn J. McRee, Jen Jen Yeh, Naim U. Rashid, David G. DeNardo, William G. Hawkins, Ryan C. Fields, Gaorav P. Gupta, Emily C. Goldman, Kevin Greene, Cameron Harris, Nancy P. Kren, Samuel J. Lee, Daniel Michaud, and Bhalchandra Mirlekar

Abstract

Supplementary Tables 1-3

Published

2023

31. Data from B cell–Derived IL35 Drives STAT3-Dependent CD8+ T-cell Exclusion in Pancreatic Cancer

Author

Yuliya Pylayeva-Gupta, Dario A.A. Vignali, Benjamin G. Vincent, Autumn J. McRee, Jen Jen Yeh, Naim U. Rashid, David G. DeNardo, William G. Hawkins, Ryan C. Fields, Gaorav P. Gupta, Emily C. Goldman, Kevin Greene, Cameron Harris, Nancy P. Kren, Samuel J. Lee, Daniel Michaud, and Bhalchandra Mirlekar

Abstract

Pancreatic ductal adenocarcinoma (PDA) is an aggressive malignancy characterized by a paucity of tumor-proximal CD8+ T cells and resistance to immunotherapeutic interventions. Cancer-associated mechanisms that elicit CD8+ T-cell exclusion and resistance to immunotherapy are not well-known. Here, using a Kras- and p53-driven model of PDA, we describe a mechanism of action for the protumorigenic cytokine IL35 through STAT3 activation in CD8+ T cells. Distinct from its action on CD4+ T cells, IL35 signaling in gp130+CD8+ T cells activated the transcription factor STAT3, which antagonized intratumoral infiltration and effector function of CD8+ T cells via suppression of CXCR3, CCR5, and IFNγ expression. Inhibition of STAT3 signaling in tumor-educated CD8+ T cells improved PDA growth control upon adoptive transfer to tumor-bearing mice. We showed that activation of STAT3 in CD8+ T cells was driven by B cell– but not regulatory T cell–specific production of IL35. We also demonstrated that B cell–specific deletion of IL35 facilitated CD8+ T-cell activation independently of effector or regulatory CD4+ T cells and was sufficient to phenocopy therapeutic anti-IL35 blockade in overcoming resistance to anti–PD-1 immunotherapy. Finally, we identified a circulating IL35+ B-cell subset in patients with PDA and demonstrated that the presence of IL35+ cells predicted increased occurrence of phosphorylated (p)Stat3+CXCR3−CD8+ T cells in tumors and inversely correlated with a cytotoxic T-cell signature in patients. Together, these data identified B cell–mediated IL35/gp130/STAT3 signaling as an important direct link to CD8+ T-cell exclusion and immunotherapy resistance in PDA.

Published

2023

32. Supplementary Figure 4 from Response to MLN8237 in Pancreatic Cancer Is Not Dependent on RalA Phosphorylation

Author

Jen Jen Yeh, Channing J. Der, Timothy D. Martin, Jeffrey A. Ecsedy, Vaishali Shinde, Jeran K. Stratford, and Nicole F. Neel

Abstract

PDF - 21K, HH3 staining.

Published

2023

33. Supplementary Figure 6 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 118K, GSK-3 inhibition leads to a decrease in TAK1 protein Panc-1 and MiaPaCa-2 cells were treated with GSK-3 inhibitor, AR-A014418 or vehicle control, DMSO in the presence or absence of MG132 for 24 hours. Whole cell extracts were immunoblotted for indicated antibodies.

Published

2023

34. Supplementary Figure 1 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 308K, Left: AR-A014418 inhibits GSK-3 activity in a dose dependent mannerPanc-1 cells were treated with increasing concentrations of GSK-3 inhibitor, AR-A014418, like in Fig.1A. Whole cells extracts were prepared and immunoblotted for specified antibodies. p-Glycogen synthase is a downstream substrate of GSK-3 and thus an indicator of its kinase activity. Right: GSK-3 regulates apoptosis in MiaPaCa-2 cells. . Panc-1 and MiaPaCa-2 cells were transiently transfected with indicated siRNAs for 72 hours. Whole cell extracts were immunoblotted for specified antibodies.

Published

2023

35. MAF file for CNVs from Real-time Genomic Characterization of Advanced Pancreatic Cancer to Enable Precision Medicine

Author

Brian M. Wolpin, Scott L. Carter, Ryan B. Corcoran, William C. Hahn, Jen Jen Yeh, Nikhil Wagle, David A. Tuveson, Paul B. Shyn, Jeffrey W. Miller, Robert J. Mayer, Matthew H. Kulke, Bruce E. Johnson, Jason L. Hornick, Gad Getz, Levi A. Garraway, Charles S. Fuchs, Matthew B. Yurgelun, Dean J. Welsch, Deborah Knoerzer, Richard B. Lanman, Rebecca J. Nagy, Stuart G. Silverman, Ewa Sicinska, Geoffrey I. Shapiro, Marvin Ryou, Douglas A. Rubinson, Michael H. Rosenthal, Kimberly Perez, Anuj K. Patel, Kimmie Ng, Janet E. Murphy, Jeffrey A. Meyerhardt, Nadine J. McCleary, Kunal Jajoo, Leona A. Doyle, James M. Cleary, Thomas Clancy, Kelly P. Burke, Joseph P. St. Pierre, Heather A. Shahzade, Emily E. Van Seventer, Brandon Nadres, Annacarolina Da Silva, Ana Babic, Nelly Oliver, Karla Helvie, Kristin Anderka, Lori Marini, Devin McCabe, Emma Reilly, Marisa W. Welch, Dorisanne Ragon, Lauren K. Brais, Jaegil Kim, Srivatsan Raghavan, Mehlika Hazar-Rethinam, Arezou A. Ghazani, Richard A. Moffitt, Nicholas D. Camarda, Jonathan A. Nowak, and Andrew J. Aguirre

Abstract

MAF file for copy number variations identified in the cohort

Published

2023

36. Supplementary Figure 2 from Response to MLN8237 in Pancreatic Cancer Is Not Dependent on RalA Phosphorylation

Author

Jen Jen Yeh, Channing J. Der, Timothy D. Martin, Jeffrey A. Ecsedy, Vaishali Shinde, Jeran K. Stratford, and Nicole F. Neel

Abstract

PDF - 609K, pRalA validation.

Published

2023

37. Supplementary Figure 5 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 63K, GSK-3 inhibition inhibits TAK1 mediated signaling. Panc-1 cells were treated with GSK-3 inhibitor, AR-A014418 (30M) for 24 hours and whole cell lysates immunoblotted for indicated antibodies.

Published

2023

38. Supplementary Figure 2 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 181K, Left: Kras regulates TAK1 levels. HKRAS cells were transiently transfected with non-targeting or Kras siRNA for 72 hours. TAK1 was immunoprecitated from whole cell extracts and immunoblotted for specified antibodies. Right: TAK1 inhibition induces apoptosis. MiaPaCa-2 cells were treated with the TAK1 inhibitor, 5Z-7-oxozaenol at indicated concentrations for 24 hours. Whole cells extracts were immunoblotted with specified antibodies.

Published

2023

39. Supplementary Table S4 from Real-time Genomic Characterization of Advanced Pancreatic Cancer to Enable Precision Medicine

Author

Brian M. Wolpin, Scott L. Carter, Ryan B. Corcoran, William C. Hahn, Jen Jen Yeh, Nikhil Wagle, David A. Tuveson, Paul B. Shyn, Jeffrey W. Miller, Robert J. Mayer, Matthew H. Kulke, Bruce E. Johnson, Jason L. Hornick, Gad Getz, Levi A. Garraway, Charles S. Fuchs, Matthew B. Yurgelun, Dean J. Welsch, Deborah Knoerzer, Richard B. Lanman, Rebecca J. Nagy, Stuart G. Silverman, Ewa Sicinska, Geoffrey I. Shapiro, Marvin Ryou, Douglas A. Rubinson, Michael H. Rosenthal, Kimberly Perez, Anuj K. Patel, Kimmie Ng, Janet E. Murphy, Jeffrey A. Meyerhardt, Nadine J. McCleary, Kunal Jajoo, Leona A. Doyle, James M. Cleary, Thomas Clancy, Kelly P. Burke, Joseph P. St. Pierre, Heather A. Shahzade, Emily E. Van Seventer, Brandon Nadres, Annacarolina Da Silva, Ana Babic, Nelly Oliver, Karla Helvie, Kristin Anderka, Lori Marini, Devin McCabe, Emma Reilly, Marisa W. Welch, Dorisanne Ragon, Lauren K. Brais, Jaegil Kim, Srivatsan Raghavan, Mehlika Hazar-Rethinam, Arezou A. Ghazani, Richard A. Moffitt, Nicholas D. Camarda, Jonathan A. Nowak, and Andrew J. Aguirre

Abstract

Treatment history for patients enrolled on the PancSeq protocol.

Published

2023

40. Supplementary Figure 3 from Response to MLN8237 in Pancreatic Cancer Is Not Dependent on RalA Phosphorylation

Author

Jen Jen Yeh, Channing J. Der, Timothy D. Martin, Jeffrey A. Ecsedy, Vaishali Shinde, Jeran K. Stratford, and Nicole F. Neel

Abstract

PDF - 1287K, pRalA changes in tumors.

Published

2023

41. Supplementary Figures from Real-time Genomic Characterization of Advanced Pancreatic Cancer to Enable Precision Medicine

Author

Brian M. Wolpin, Scott L. Carter, Ryan B. Corcoran, William C. Hahn, Jen Jen Yeh, Nikhil Wagle, David A. Tuveson, Paul B. Shyn, Jeffrey W. Miller, Robert J. Mayer, Matthew H. Kulke, Bruce E. Johnson, Jason L. Hornick, Gad Getz, Levi A. Garraway, Charles S. Fuchs, Matthew B. Yurgelun, Dean J. Welsch, Deborah Knoerzer, Richard B. Lanman, Rebecca J. Nagy, Stuart G. Silverman, Ewa Sicinska, Geoffrey I. Shapiro, Marvin Ryou, Douglas A. Rubinson, Michael H. Rosenthal, Kimberly Perez, Anuj K. Patel, Kimmie Ng, Janet E. Murphy, Jeffrey A. Meyerhardt, Nadine J. McCleary, Kunal Jajoo, Leona A. Doyle, James M. Cleary, Thomas Clancy, Kelly P. Burke, Joseph P. St. Pierre, Heather A. Shahzade, Emily E. Van Seventer, Brandon Nadres, Annacarolina Da Silva, Ana Babic, Nelly Oliver, Karla Helvie, Kristin Anderka, Lori Marini, Devin McCabe, Emma Reilly, Marisa W. Welch, Dorisanne Ragon, Lauren K. Brais, Jaegil Kim, Srivatsan Raghavan, Mehlika Hazar-Rethinam, Arezou A. Ghazani, Richard A. Moffitt, Nicholas D. Camarda, Jonathan A. Nowak, and Andrew J. Aguirre

Abstract

Supplementary Figure S1: Overview of workflow and data generation. Supplementary Figure S2: Analysis of neoplastic cellularity. Supplementary Figure S3: Recurrent copy number alterations. Supplementary Figure S4: Mutational signature analysis. Supplementary Figure S5: Analysis of PDAC gene expression signatures. Supplementary Figure S6: Clinically relevant alterations in the cohort.

Published

2023

42. Supplementary Figure 1 from Response to MLN8237 in Pancreatic Cancer Is Not Dependent on RalA Phosphorylation

Author

Jen Jen Yeh, Channing J. Der, Timothy D. Martin, Jeffrey A. Ecsedy, Vaishali Shinde, Jeran K. Stratford, and Nicole F. Neel

Abstract

PDF - 112K, MLN8237 structure and additional response data.

Published

2023

43. Supplementary Experimental Methods from Real-time Genomic Characterization of Advanced Pancreatic Cancer to Enable Precision Medicine

Author

Brian M. Wolpin, Scott L. Carter, Ryan B. Corcoran, William C. Hahn, Jen Jen Yeh, Nikhil Wagle, David A. Tuveson, Paul B. Shyn, Jeffrey W. Miller, Robert J. Mayer, Matthew H. Kulke, Bruce E. Johnson, Jason L. Hornick, Gad Getz, Levi A. Garraway, Charles S. Fuchs, Matthew B. Yurgelun, Dean J. Welsch, Deborah Knoerzer, Richard B. Lanman, Rebecca J. Nagy, Stuart G. Silverman, Ewa Sicinska, Geoffrey I. Shapiro, Marvin Ryou, Douglas A. Rubinson, Michael H. Rosenthal, Kimberly Perez, Anuj K. Patel, Kimmie Ng, Janet E. Murphy, Jeffrey A. Meyerhardt, Nadine J. McCleary, Kunal Jajoo, Leona A. Doyle, James M. Cleary, Thomas Clancy, Kelly P. Burke, Joseph P. St. Pierre, Heather A. Shahzade, Emily E. Van Seventer, Brandon Nadres, Annacarolina Da Silva, Ana Babic, Nelly Oliver, Karla Helvie, Kristin Anderka, Lori Marini, Devin McCabe, Emma Reilly, Marisa W. Welch, Dorisanne Ragon, Lauren K. Brais, Jaegil Kim, Srivatsan Raghavan, Mehlika Hazar-Rethinam, Arezou A. Ghazani, Richard A. Moffitt, Nicholas D. Camarda, Jonathan A. Nowak, and Andrew J. Aguirre

Abstract

Supplementary Experimental Methods

Published

2023

44. MAF file for mutations from Real-time Genomic Characterization of Advanced Pancreatic Cancer to Enable Precision Medicine

Author

Brian M. Wolpin, Scott L. Carter, Ryan B. Corcoran, William C. Hahn, Jen Jen Yeh, Nikhil Wagle, David A. Tuveson, Paul B. Shyn, Jeffrey W. Miller, Robert J. Mayer, Matthew H. Kulke, Bruce E. Johnson, Jason L. Hornick, Gad Getz, Levi A. Garraway, Charles S. Fuchs, Matthew B. Yurgelun, Dean J. Welsch, Deborah Knoerzer, Richard B. Lanman, Rebecca J. Nagy, Stuart G. Silverman, Ewa Sicinska, Geoffrey I. Shapiro, Marvin Ryou, Douglas A. Rubinson, Michael H. Rosenthal, Kimberly Perez, Anuj K. Patel, Kimmie Ng, Janet E. Murphy, Jeffrey A. Meyerhardt, Nadine J. McCleary, Kunal Jajoo, Leona A. Doyle, James M. Cleary, Thomas Clancy, Kelly P. Burke, Joseph P. St. Pierre, Heather A. Shahzade, Emily E. Van Seventer, Brandon Nadres, Annacarolina Da Silva, Ana Babic, Nelly Oliver, Karla Helvie, Kristin Anderka, Lori Marini, Devin McCabe, Emma Reilly, Marisa W. Welch, Dorisanne Ragon, Lauren K. Brais, Jaegil Kim, Srivatsan Raghavan, Mehlika Hazar-Rethinam, Arezou A. Ghazani, Richard A. Moffitt, Nicholas D. Camarda, Jonathan A. Nowak, and Andrew J. Aguirre

Abstract

MAF file for mutations identified in the cohort

Published

2023

45. Supplementary Methods from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 72K

Published

2023

46. Supplementary Figure 8 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 1842K, GSK-3 inhibition leads to a decrease in TAK1 levels and p100-p52 processing in a statistically significant manner. All data obtained with independent experiments with Panc-1 and MiaPaCa-2, treated with GSK-3 inhibitor for 24 hours (right panel) or transiently transfected with indicated siRNA's for 72 hours (left panel) were quantified by densitometric analyses and is expressed as mean�SD. Statistical evaluation of the differences were calculated using students two-tailed t test and P value < 0.05 was considered significant.

Published

2023

47. Supplementary Figure 4 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 3743K, TAK1 inhibition alters cell cycle regulation. Panc-1 cells were treated with TAK1 inhibitor, 5Z-7-oxozaenol or vehicle control, DMSO for 24 hours. Cells were fixed and stained with Propidium Iodide and analyzed by Flow cytometry.

Published

2023

48. Supplementary Figure 3 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 113K, TAK1 inhibition decreases cell proliferation in Kras+ cells. Indicated cell lines were seeded in E-plate-16 (Roche) at 3000 cells/well/100μl. 24hours after plating, cells were treated with TAK1 inhibitor 5Z-7-oxozaenol (0.625μM), or vehicle control, DMSO. Cell impedance was measured every 2 hours for the entire course of experiment using RTCA.

Published

2023

49. Supplementary Figure 9 from GSK-3α Promotes Oncogenic KRAS Function in Pancreatic Cancer via TAK1–TAB Stabilization and Regulation of Noncanonical NF-κB

Author

Albert S. Baldwin, Jen Jen Yeh, Meagan Ryan, Willie Wilson, and Deepali Bang

Abstract

PDF file - 263K, Kras regulates GSK-3α mRNA levels. HKRAS cells were transiently transfected with non-targeting control or KRAS siRNA. RNA was isolated, reverse transcribed to cDNA and real time RT-PCR performed for Kras and GSK-3α. Gus B was used as endogenous control.

Published

2023

50. Integrated single-dose kinome profiling data is predictive of cancer cell line sensitivity to kinase inhibitors.

Author

Joisa, Chinmaya U., Chen, Kevin A., Berginski, Matthew E., Golitz, Brian T., Jenner, Madison R., Loeza, Gabriela Herrera, Jen Jen Yeh, and Gomez, Shawn M.

Subjects

KINASE inhibitors, CELL lines, CANCER cells, PANCREATIC cancer, KNOWLEDGE transfer, KINASES

Abstract

Protein kinase activity forms the backbone of cellular information transfer, acting both individually and as part of a broader network, the kinome. Their central role in signaling leads to kinome dysfunction being a common driver of disease, and in particular cancer, where numerous kinases have been identified as having a causal or modulating role in tumor development and progression. As a result, the development of therapies targeting kinases has rapidly grown, with over 70 kinase inhibitors approved for use in the clinic and over double this number currently in clinical trials. Understanding the relationship between kinase inhibitor treatment and their effects on downstream cellular phenotype is thus of clear importance for understanding treatment mechanisms and streamlining compound screening in therapy development. In this work, we combine two large-scale kinome profiling data sets and use them to link inhibitor-kinome interactions with cell line treatment responses (AUC/IC50). We then built computational models on this data set that achieve a high degree of prediction accuracy (R² of 0.7 and RMSE of 0.9) and were able to identify a set of well-characterized and understudied kinases that significantly affect cell responses. We further validated these models experimentally by testing predicted effects in breast cancer cell lines and extended the model scope by performing additional validation in patient-derived pancreatic cancer cell lines. Overall, these results demonstrate that broad quantification of kinome inhibition state is highly predictive of downstream cellular phenotypes. [ABSTRACT FROM AUTHOR]

Published

2023