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1. Determination of absolute expression profiles using multiplexed miRNA analysis.

Author

Yunke Song, Duncan Kilburn, Jee Hoon Song, Yulan Cheng, Christopher T Saeui, Douglas G Cheung, Carlo M Croce, Kevin J Yarema, Stephen J Meltzer, Kelvin J Liu, and Tza-Huei Wang

Subjects
Medicine, Science
Abstract

Accurate measurement of miRNA expression is critical to understanding their role in gene expression as well as their application as disease biomarkers. Correct identification of changes in miRNA expression rests on reliable normalization to account for biological and technological variance between samples. Ligo-miR is a multiplex assay designed to rapidly measure absolute miRNA copy numbers, thus reducing dependence on biological controls. It uses a simple 2-step ligation process to generate length coded products that can be quantified using a variety of DNA sizing methods. We demonstrate Ligo-miR's ability to quantify miRNA expression down to 20 copies per cell sensitivity, accurately discriminate between closely related miRNA, and reliably measure differential changes as small as 1.2-fold. Then, benchmarking studies were performed to show the high correlation between Ligo-miR, microarray, and TaqMan qRT-PCR. Finally, Ligo-miR was used to determine copy number profiles in a number of breast, esophageal, and pancreatic cell lines and to demonstrate the utility of copy number analysis for providing layered insight into expression profile changes.

Published
2017
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2. Proton Pump Inhibitors Do Not Reduce the Risk of Esophageal Adenocarcinoma in Patients with Barrett's Esophagus: A Systematic Review and Meta-Analysis.

Author

Qiang Hu, Tian-Tian Sun, Jie Hong, Jing-Yuan Fang, Hua Xiong, and Stephen J Meltzer

Subjects
Medicine, Science
Abstract

Proton pump inhibitors (PPIs) have been used for treatment of Barrett's esophagus (BE) for many years. However, the connection between PPIs and esophageal adenocarcinoma (EAC) in patients with BE has still been controversial. The current systematic review and meta-analysis was designed to evaluate the association between PPIs and the risk of EAC or high-grade dysplasia (HGD) in patients with BE.A systematic literature search of studies reporting the association between PPIs and the risk of EAC and/or HGD in patients with BE was conducted in PubMed, Embase, Web of Science and the Cochrane Library. Next, literature was screened using previously established criteria and relevant data were extracted from included studies. Finally, the software program Review Manage 5.2 was applied to aggregate data and analyze the results.Nine observational studies, comprising five cohort and four case-control studies (including a total of 5712 patients with BE), were identified. Upon meta-analysis, PPIs were found to have no association with the risk of EAC and/or HGD in patients with BE (unadjusted OR 0.43, 95% CI 0.17-1.08). Analysis for duration response relationship revealed no significant trend toward protection against EAC or HGD with PPIs usage for >2~3 years (one study using 7-year cutoff) when compared to usage for shorter time periods (PPIs usage >2~3 years vs.

Published
2017
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3. Phosphorus-32, a clinically available drug, inhibits cancer growth by inducing DNA double-strand breakage.

Author

Yulan Cheng, Ana P Kiess, Joseph M Herman, Martin G Pomper, Stephen J Meltzer, and John M Abraham

Subjects
Medicine, Science
Abstract

Radioisotopes that emit electrons (beta particles), such as radioiodine, can effectively kill target cells, including cancer cells. Aqueous 32P[PO4] is a pure beta-emitter that has been used for several decades to treat non-malignant human myeloproliferative diseases. 32P[PO4] was directly compared to a more powerful pure beta-emitter, the clinically important 90Y isotope. In vitro, 32P[PO4] was more effective at killing cells than was the more powerful isotope 90Y (P ≤ 0.001) and also caused substantially more double-stranded DNA breaks than did 90Y. In vivo, a single low-dose intravenous dose of aqueous elemental 32P significantly inhibited tumor growth in the syngeneic murine cancer model (P ≤ 0.001). This effect is exerted by direct incorporation into nascent DNA chains, resulting in double-stranded breakage, a unique mechanism not duplicatable by other, more powerful electron-emitting radioisotopes. 32P[PO4] should be considered for human clinical trials as a potential novel anti-cancer drug.

Published
2015
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4. Analytical Validation of Esopredict, an Epigenetic Prognostic Assay for Patients with Barrett’s Esophagus

Author

Sarah Laun, Francia Pierre, Suji Kim, Daniel Lunz, Tara Maddala, Jerome V. Braun, Stephen J. Meltzer, and Lisa Kann

Subjects
EAC, HGD, Barrett’s esophagus (BE), prognostic assay, Medicine (General), R5-920
Abstract

EsopredictTM is a prognostic assay that risk-stratifies Barrett’s esophagus patients to predict future progression to high-grade dysplasia (HGD) or esophageal adenocarcinoma (EAC). Established based on foundational studies at Johns Hopkins University, a risk algorithm was developed and clinically validated in two independent studies (n = 320). EsopredictTM is currently offered as a clinical test under the Clinical Laboratory Improvement Amendments (CLIA) guidelines. Here we present the analytical validation by repeated testing of FFPE tissues (n = 26 patients), cell lines, and contrived DNA controls to determine assay performance regarding analytical sensitivity (as defined by the limit of detection (LOD)), analytical specificity (as defined by the limit of blank (LOB)), accuracy as determined from the average positive and negative agreement, repeatability, and reproducibility. The LOD for the assay at 1.5% DNA methylation was significantly higher than the LOB, as determined by an unmethylated DNA control (0% methylated DNA). Inter- and intra-assay average positive agreement (APA) were 88% and 94%, respectively, while average negative agreement (ANA) values were 90% and 94%, respectively. Average inter- and intra-assay precision were TM is a highly reproducible, sensitive, and specific risk categorization assay for the prediction of progression to HGD or EAC within 5 years.

Published
2024
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5. Impact of the location of CpG methylation within the GSTP1 gene on its specificity as a DNA marker for hepatocellular carcinoma.

Author

Surbhi Jain, Sitong Chen, Kung-Chao Chang, Yih-Jyh Lin, Chi-Tan Hu, Batbold Boldbaatar, James P Hamilton, Selena Y Lin, Ting-Tsung Chang, Shun-Hua Chen, Wei Song, Stephen J Meltzer, Timothy M Block, and Ying-Hsiu Su

Subjects
Medicine, Science
Abstract

Hypermethylation of the glutathione S-transferase π 1 (GSTP1) gene promoter region has been reported to be a potential biomarker to distinguish hepatocellular carcinoma (HCC) from other liver diseases. However, reports regarding how specific a marker it is have ranged from 100% to 0%. We hypothesized that, to a large extent, the variation of specificity depends on the location of the CpG sites analyzed. To test this hypothesis, we compared the methylation status of the GSTP1 promoter region of the DNA isolated from HCC, cirrhosis, hepatitis, and normal liver tissues by bisulfite-PCR sequencing. We found that the 5' region of the position -48 nt from the transcription start site of the GSTP1 gene is selectively methylated in HCC, whereas the 3' region is methylated in all liver tissues examined, including normal liver and the HCC tissue. Interestingly, when DNA derived from fetal liver and 11 nonhepatic normal tissue was also examined by bisulfite-PCR sequencing, we found that methylation of the 3' region of the promoter appeared to be liver-specific. A methylation-specific PCR assay targeting the 5' region of the promoter was developed and used to quantify the methylated GSTP1 gene in various diseased liver tissues including HCC. When we used an assay targeting the 3' region, we found that the methylation of the 5'-end of the GSTP1 promoter was significantly more specific than that of the 3'-end (97.1% vs. 60%, p

Published
2012
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6. Widespread hypomethylation occurs early and synergizes with gene amplification during esophageal carcinogenesis.

Author

Hector Alvarez, Joanna Opalinska, Li Zhou, Davendra Sohal, Melissa J Fazzari, Yiting Yu, Christina Montagna, Elizabeth A Montgomery, Marcia Canto, Kerry B Dunbar, Jean Wang, Juan Carlos Roa, Yongkai Mo, Tushar Bhagat, K H Ramesh, Linda Cannizzaro, J Mollenhauer, Reid F Thompson, Masako Suzuki, Stephen J Meltzer, Ari Melnick, John M Greally, Anirban Maitra, and Amit Verma

Subjects
Genetics, QH426-470
Abstract

Although a combination of genomic and epigenetic alterations are implicated in the multistep transformation of normal squamous esophageal epithelium to Barrett esophagus, dysplasia, and adenocarcinoma, the combinatorial effect of these changes is unknown. By integrating genome-wide DNA methylation, copy number, and transcriptomic datasets obtained from endoscopic biopsies of neoplastic progression within the same individual, we are uniquely able to define the molecular events associated progression of Barrett esophagus. We find that the previously reported global hypomethylation phenomenon in cancer has its origins at the earliest stages of epithelial carcinogenesis. Promoter hypomethylation synergizes with gene amplification and leads to significant upregulation of a chr4q21 chemokine cluster and other transcripts during Barrett neoplasia. In contrast, gene-specific hypermethylation is observed at a restricted number of loci and, in combination with hemi-allelic deletions, leads to downregulatation of selected transcripts during multistep progression. We also observe that epigenetic regulation during epithelial carcinogenesis is not restricted to traditionally defined "CpG islands," but may also occur through a mechanism of differential methylation outside of these regions. Finally, validation of novel upregulated targets (CXCL1 and 3, GATA6, and DMBT1) in a larger independent panel of samples confirms the utility of integrative analysis in cancer biomarker discovery.

Published
2011
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7. Methylation of the CpG sites only on the sense strand of the APC gene is specific for hepatocellular carcinoma.

Author

Surbhi Jain, Ting-Tsung Chang, James P Hamilton, Selena Y Lin, Yih-Jyh Lin, Alison A Evans, Florin M Selaru, Pin-Wen Lin, Shun-Hua Chen, Timothy M Block, Chi-Tan Hu, Wei Song, Stephen J Meltzer, and Ying-Hsiu Su

Subjects
Medicine, Science
Abstract

Hypermethylation of the promoter of the tumor suppressor gene, adenomatous polyposis coli (APC), occurs in various malignancies, including hepatocellular carcinoma (HCC). However, reports on the specificity of the methylation of the APC gene for HCC have varied. To gain insight into how these variations occur, bisulfite PCR sequencing was performed to analyze the methylation status of both sense and antisense strands of the APC gene in samples of HCC tissue, matched adjacent non-HCC liver tissue, hepatitis, cirrhosis, and normal liver tissues. DNA derived from fetal liver and 12 nonhepatic normal tissue was also examined. These experiments revealed liver-specific, antisense strand-biased CpG methylation of the APC gene and suggested that, although methylation of the antisense strand of the APC gene exists in normal liver and other non-HCC disease liver tissue, methylation of the sense strand of the APC gene occurs predominantly in HCC. To determine the effect of the DNA strand on the specificity of the methylated APC gene as a biomarker for HCC detection, quantitative methylation-specific PCR assays for sense and antisense strand DNA were developed and performed on DNA isolated from HCC (n = 58), matched adjacent non-HCC (n = 58), cirrhosis (n = 41), and hepatitis (n = 39). Receiver operating characteristic curves were constructed. With the cutoff value set at the limit of detection, the specificity of sense and antisense strand methylation was 84% and 43%, respectively, and sensitivity was 67.2% and 72.4%, respectively. This result demonstrated that the identity of the methylated DNA strand impacted the specificity of APC for HCC detection. Interestingly, methylation of the sense strand of APC occurred in 40% of HCCs from patients with serum AFP levels less than 20 ng/mL, suggesting a potential role for APC as a biomarker to complement AFP in HCC screening.

Published
2011
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8. Screening for microsatellite instability identifies frequent 3'-untranslated region mutation of the RB1-inducible coiled-coil 1 gene in colon tumors.

Author

Bogdan C Paun, Yulan Cheng, Barbara A Leggett, Joanne Young, Stephen J Meltzer, and Yuriko Mori

Subjects
Medicine, Science
Abstract

BackgroundCoding region microsatellite instability (MSI) results in loss of gene products and promotion of microsatellite-unstable (MSI-H) carcinogenesis. Recent studies have indicated that MSI within 3'-untranslated regions (3'UTRs) may post-transcriptionally dysregulate gene products. Within this context, we conducted a broad mutational survey of 42 short 3'UTR microsatellites (MSs) in 45 MSI-H colorectal tumors and their corresponding normal colonic mucosae.Methodology/principal findingsIn order to estimate the overall susceptibility of MSs to MSI in MSI-H tumors, the observed MSI frequency of each MS was correlated with its length, interspecies sequence conservation level, and distance from some genetic elements (i.e., stop codon, polyA signal, and microRNA binding sites). All MSs were stable in normal colonic mucosae. The MSI frequency at each MS in MSI-H tumors was independent of sequence conservation level and distance from other genetic elements. In contrast, MS length correlated significantly with MSI frequency in MSI-H tumors (r=0.86, p=7.2x10(-13)). 3'UTR MSs demonstrated MSI frequencies in MSI-H tumors higher than the 99% upper limit predicted by MS length for RB1-inducible coiled-coil 1(RB1CC1, mutation frequency 68.4%), NUAK family SNF1-like kinase 1(NUAK1, 31.0%), and Rtf1, Paf1/RNA polymerase II complex component, homolog (RTF1, 25.0%). An in silico prediction of RNA structure alterations was conducted for these MSI events to gauge their likelihood of affecting post-transcriptional regulation. RB1CC1 mutant was predicted to lose a microRNA-accessible loop structure at a putative binding site for the tumor-suppressive microRNA, miR-138. In contrast, the predicted 3'UTR structural change was minimal for NUAK1- and RTF1 mutants. Notably, real-time quantitative RT-PCR analysis revealed significant RB1CC1 mRNA overexpression vs. normal colonic mucosae in MSI-H cancers manifesting RB1CC1 3'UTR MSI (9.0-fold; p = 3.6x10(-4)).ConclusionsThis mutational survey of well-characterized short 3'UTR MSs confirms that MSI incidence in MSI-H colorectal tumors correlates with MS length, but not with sequence conservation level or distance from other genetic elements. This study also identifies RB1CC1 as a novel target of frequent mutation and aberrant upregulation in MSI-H colorectal tumors. The predicted loss of a microRNA-accessible structure in mutant RB1CC1 RNA fits the hypothesis that 3'UTR MSI involves in aberrant RB1CC1 posttranscriptional upregulation. Further direct assessments are indicated to investigate this possibility.

Published
2009
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9. Silencing of claudin-11 is associated with increased invasiveness of gastric cancer cells.

Author

Rachana Agarwal, Yuriko Mori, Yulan Cheng, Zhe Jin, Alexandru V Olaru, James P Hamilton, Stefan David, Florin M Selaru, Jian Yang, John M Abraham, Elizabeth Montgomery, Patrice J Morin, and Stephen J Meltzer

Subjects
Medicine, Science
Abstract

Claudins are membrane proteins that play critical roles in tight junction (TJ) formation and function. Members of the claudin gene family have been demonstrated to be aberrantly regulated, and to participate in the pathogenesis of various human cancers. In the present study, we report that claudin-11 (CLDN11) is silenced in gastric cancer via hypermethylation of its promoter region.Levels of CLDN11 methylation and mRNA expression were measured in primary gastric cancer tissues, noncancerous gastric mucosae, and cell lines of gastric origin using quantitative methylation-specific PCR (qMSP) and quantitative reverse transcriptase-PCR (qRT-PCR), respectively. Analyses of paired gastric cancers and adjacent normal gastric tissues revealed hypermethylation of the CLDN11 promoter region in gastric cancers, and this hypermethylation was significantly correlated with downregulation of CLDN11 expression vs. normal tissues. The CLDN11 promoter region was also hypermethylated in all gastric cancer cell lines tested relative to immortalized normal gastric epithelial cells. Moreover, CLDN11 mRNA expression was inversely correlated with its methylation level. Treatment of CLDN11-nonexpressing gastric cancer cells with 5-aza-2'-deoxycytidine restored CLDN11 expression. Moreover, siRNA-mediated knockdown of CLDN11 expression in normal gastric epithelial cells increased their motility and invasiveness.These data suggest that hypermethylation of CLDN11, leading to downregulated expression, contributes to gastric carcinogenesis by increasing cellular motility and invasiveness. A further understanding of the mechanisms underlying the role of claudin proteins in gastric carcinogenesis will likely help in the identification of novel approaches for diagnosis and therapy of gastric cancer.

Published
2009
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10. Generation of small 32P-labeled peptides as a potential approach to colorectal cancer therapy.

Author

John M Abraham, Yulan Cheng, James P Hamilton, Bogdan Paun, Zhe Jin, Rachana Agarwal, Takatsugu Kan, Stefan David, Alexandru Olaru, Jian Yang, Tetsuo Ito, Florin M Selaru, Yuriko Mori, and Stephen J Meltzer

Subjects
Medicine, Science
Abstract

Cancers have been revealed to be extremely heterogenous in terms of the frequency and types of mutations present in cells from different malignant tumors. Thus, it is likely that uniform clinical treatment is not optimal for all patients, and that the development of individualized therapeutic regimens may be beneficial. We describe the generation of multiple, unique small peptides nine to thirty-four amino acids in length which, when labeled with the radioisotope (32)P, bind with vastly differing efficiencies to cell lines derived from different colon adenocarcinomas. In addition, the most effective of these peptides permanently transfers the (32)P radioisotope to colorectal cancer cellular proteins within two hours at a rate that is more than 150 times higher than in cell lines derived from other cancers or from the normal tissues tested. Currently, the only two FDA-approved radioimmunotherapeutic agents in use both employ antibodies directed against the B cell marker CD20 for the treatment of non-Hodgkin's lymphoma. By using the method described herein, large numbers of different (32)P-labeled peptides can be readily produced and assayed against a broad spectrum of cancer types. This report proposes the development and use of (32)P-labeled peptides as potential individualized peptide-binding therapies for the treatment of colon adenocarcinoma patients.

Published
2008
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11. Three-tiered risk stratification model to predict progression in Barrett's esophagus using epigenetic and clinical features.

Author

Fumiaki Sato, Zhe Jin, Karsten Schulmann, Jean Wang, Bruce D Greenwald, Tetsuo Ito, Takatsugu Kan, James P Hamilton, Jian Yang, Bogdan Paun, Stefan David, Alexandru Olaru, Yulan Cheng, Yuriko Mori, John M Abraham, Harris G Yfantis, Tsung-Teh Wu, Mary B Fredericksen, Kenneth K Wang, Marcia Canto, Yvonne Romero, Ziding Feng, and Stephen J Meltzer

Subjects
Medicine, Science
Abstract

Barrett's esophagus predisposes to esophageal adenocarcinoma. However, the value of endoscopic surveillance in Barrett's esophagus has been debated because of the low incidence of esophageal adenocarcinoma in Barrett's esophagus. Moreover, high inter-observer and sampling-dependent variation in the histologic staging of dysplasia make clinical risk assessment problematic. In this study, we developed a 3-tiered risk stratification strategy, based on systematically selected epigenetic and clinical parameters, to improve Barrett's esophagus surveillance efficiency.We defined high-grade dysplasia as endpoint of progression, and Barrett's esophagus progressor patients as Barrett's esophagus patients with either no dysplasia or low-grade dysplasia who later developed high-grade dysplasia or esophageal adenocarcinoma. We analyzed 4 epigenetic and 3 clinical parameters in 118 Barrett's esophagus tissues obtained from 35 progressor and 27 non-progressor Barrett's esophagus patients from Baltimore Veterans Affairs Maryland Health Care Systems and Mayo Clinic. Based on 2-year and 4-year prediction models using linear discriminant analysis (area under the receiver-operator characteristic (ROC) curve: 0.8386 and 0.7910, respectively), Barrett's esophagus specimens were stratified into high-risk (HR), intermediate-risk (IR), or low-risk (LR) groups. This 3-tiered stratification method retained both the high specificity of the 2-year model and the high sensitivity of the 4-year model. Progression-free survivals differed significantly among the 3 risk groups, with p = 0.0022 (HR vs. IR) and p

Published
2008
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12. Novel decapeptides that bind avidly and deliver radioisotope to colon cancer cells.

Author

John M Abraham, Fumiaki Sato, Yulan Cheng, Bogdan Paun, Takatsugu Kan, Alexandru Olaru, Zhe Jin, Jian Yang, Rachana Agarwal, Stefan David, James P Hamilton, Tetsuo Ito, Yuriko Mori, and Stephen J Meltzer

Subjects
Medicine, Science
Abstract

The rapidly growing field of targeted tumor therapy often utilizes an antibody, sometimes tagged with a tumor-ablating material such as radioisotope, directed against a specific molecule.This report describes the discovery of nine novel decapeptides which can be radioactively labeled, bind to, and deliver (32)P to colon cancer cells. The decapeptides vary from one another by one to three amino acids and demonstrate vastly different binding abilities. The most avidly binding decapeptide can permanently deliver very high levels of radioisotope to the adenocarcinoma cancer cell lines at an efficiency 35 to 150 times greater than to a variety of other cell types, including cell lines derived from other types of cancer or from normal tissue.This experimental approach represents a new example of a strategy, termed peptide binding therapy, for the potential treatment of colorectal and other adenocarcinomas.

Published
2007
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16. Data from Methylation Biomarker Panel Performance in EsophaCap Cytology Samples for Diagnosing Barrett's Esophagus: A Prospective Validation Study

Author

Stephen J. Meltzer, Tza-Huei Wang, Eun J. Shin, Saowanee Ngamruengphong, Mouen A. Khashab, Yulong He, Hao Wang, Hua-Ling Tsai, Alexander Trick, Alejandro Stark, Mark Duncan, Vishnu Prasath, Xi Liu, John M. Abraham, Alan H. Tieu, Cem Simsek, Ke Ma, Yulan Cheng, Swetha Kambhampati, and Zhixiong Wang

Abstract

Purpose:Barrett's esophagus is the only known precursor of esophageal adenocarcinoma (EAC). Although endoscopy and biopsy are standard methods for Barrett's esophagus diagnosis, their high cost and risk limit their use as a screening modality. Here, we sought to develop a Barrett's esophagus detection method based on methylation status in cytology samples captured by EsophaCap using a streamlined sensitive technique, methylation on beads (MOB).Experimental Design:We conducted a prospective cohort study on 80 patients (52 in the training set; 28 in the test set). We used MOB to extract and bisulfite-convert DNA, followed by quantitative methylation-specific PCR to assess methylation levels of 8 previously selected candidate markers. Lasso regression was applied to establish a prediction model in the training set, which was then tested on the independent test set.Results:In the training set, five of eight candidate methylation biomarkers (p16, HPP1, NELL1, TAC1, and AKAP12) were significantly higher in Barrett's esophagus patients than in controls. We built a four-biomarker-plus-age lasso regression model for Barrett's esophagus diagnosis. The AUC was 0.894, with sensitivity 94.4% [95% confidence interval (CI), 71%–99%] and specificity 62.2% (95% CI, 44.6%–77.3%) in the training set. This model also performed with high accuracy for Barrett's esophagus diagnosis in an independent test set: AUC = 0.929 (P < 0.001; 95% CI, 0.810%–1%), with sensitivity=78.6% (95% CI, 48.8%–94.3%) and specificity = 92.8% (95% CI, 64.1%–99.6%).Conclusions:EsophaCap, in combination with an epigenetic biomarker panel and the MOB method, is a promising, well-tolerated, low-cost esophageal sampling strategy for Barrett's esophagus diagnosis. This approach merits further prospective studies in larger populations.

Published
2023

17. Supplementary Fig 18 from EpiPanGI Dx: A Cell-free DNA Methylation Fingerprint for the Early Detection of Gastrointestinal Cancers

Author

Ajay Goel, Wei Li, Daniel Von Hoff, Randall Brand, Hideo Baba, Stephen J. Meltzer, Douglas Evans, Susan Tsai, Erkut Borazanci, Francesc Balaguer, Hiroyuki Uetake, M. Iqbal Parker, Kensuke Yamamura, Takatoshi Matsuyama, Alexander Link, Jianfeng Xu, and Raju Kandimalla

Abstract

Multi-class (top) prediction accuracy using GI cancer-specific DMRs

Published
2023

18. CCR Translation for This Article from Colorectal Cancers with Microsatellite Instability Display Unique miRNA Profiles

Author

Ajay Goel, Meritxell Gironella, C. Richard Boland, Antoni Castells, Xavier Llor, Rodrigo Jover, Elena Stoffel, Sapna Syngal, Stephen J. Meltzer, Mildred Arnold, Miriam Cuatrecasas, Yan Shen, Georgina Ramirez, Alexander Link, Juan Jose Lozano, Leticia Moreira, and Francesc Balaguer

Abstract

CCR Translation for This Article from Colorectal Cancers with Microsatellite Instability Display Unique miRNA Profiles

Published
2023

23. Raw data 1 from Evaluation of Salivary Exosomal Chimeric GOLM1-NAA35 RNA as a Potential Biomarker in Esophageal Carcinoma

Author

Hao Zhang, Sai-Ching J. Yeung, Stephen J. Meltzer, Lang Ma, Ningtao Dai, Haijun Yang, Hongzheng Ren, Yuping Chen, Changchun Ma, Fuyou Zhou, Yi Guo, Xiao Xiong, Kai Li, Wan Lin, Weilun Deng, Hongmei Dong, and Yusheng Lin

Abstract

Raw data 1-Supplementary Zip including supplementary tables with the qRT-PCR data from the patient cohorts with the amplification profile data (tissue archive and discovery cohort)

Published
2023

24. Supplementary Table S1 from Hypermethylation of Tachykinin-1 Is a Potential Biomarker in Human Esophageal Cancer

Author

Stephen J. Meltzer, John M. Abraham, David G. Beer, Rachana Agarwal, Stefan David, Suna Wang, Tetsuo Ito, James P. Hamilton, Bogdan Paun, Carmit Mantzur, Yuriko Mori, Takatsugu Kan, Yulan Cheng, Fumiaki Sato, Jian Yang, Alexandru Olaru, and Zhe Jin

Abstract

Supplementary Table S1 from Hypermethylation of Tachykinin-1 Is a Potential Biomarker in Human Esophageal Cancer

Published
2023

25. Supplementary Fig. 2 from EpiPanGI Dx: A Cell-free DNA Methylation Fingerprint for the Early Detection of Gastrointestinal Cancers

Author

Ajay Goel, Wei Li, Daniel Von Hoff, Randall Brand, Hideo Baba, Stephen J. Meltzer, Douglas Evans, Susan Tsai, Erkut Borazanci, Francesc Balaguer, Hiroyuki Uetake, M. Iqbal Parker, Kensuke Yamamura, Takatoshi Matsuyama, Alexander Link, Jianfeng Xu, and Raju Kandimalla

Abstract

Methylation ratio distribution of the gitBS performed on normal plasma samples (a) and GI cancer plasma samples (b).

Published
2023

31. Data from Hypermethylation of Tachykinin-1 Is a Potential Biomarker in Human Esophageal Cancer

Author

Stephen J. Meltzer, John M. Abraham, David G. Beer, Rachana Agarwal, Stefan David, Suna Wang, Tetsuo Ito, James P. Hamilton, Bogdan Paun, Carmit Mantzur, Yuriko Mori, Takatsugu Kan, Yulan Cheng, Fumiaki Sato, Jian Yang, Alexandru Olaru, and Zhe Jin

Abstract

Purpose: Our aim was to investigate whether and at what stage hypermethylation of the tachykinin-1 (TAC1) gene is associated with human esophageal neoplastic transformation.Experimental Design:TAC1 promoter hypermethylation was examined by real-time methylation-specific PCR in 258 human esophageal specimens and 126 plasma samples from patients or tissues at various stages of neoplastic evolution.Results:TAC1 hypermethylation in tissue samples showed highly discriminative receiver-operator characteristic curve profiles, clearly distinguishing esophageal squamous cell carcinoma (ESCC) and esophageal adenocarcinoma (EAC) from normal esophagus (P < 0.0001). Both frequencies and normalized methylation values of TAC1 tissue methylation were significantly higher in Barrett's metaplasia (BE), dysplastic Barrett's esophagus, EAC, and ESCC than in normal esophagus (P < 0.01). The frequency of TAC1 hypermethylation increased dramatically and early during neoplastic progression, from 7.5% in normal esophagus to 55.6% in BE from patients with Barrett's metaplasia alone, 57.5% in dysplastic Barrett's esophagus, and 61.2% in EAC. There was a significant relationship between TAC1 hypermethylation and BE segment length, a known clinical risk factor for neoplastic progression. Twelve (50%) of 24 ESCC exhibited TAC1 hypermethylation. Overall patient survival correlated significantly with TAC1 methylation status in ESCC patients (mean survival, 22 versus 110 months; P = 0.0102, log-rank test), but not in EAC patients. Both mean normalized methylation values and frequency of TAC1 hypermethylation in plasma samples were significantly higher in EAC patients than in control subjects. Treatment of KYSE220 ESCC and BIC EAC cells with 5-aza-2′-deoxycytidine reduced TAC1 methylation and increased TAC1 mRNA expression.Conclusions:TAC1 promoter hypermethylation is a common event in both major histologic types of human esophageal carcinoma, occurs early, correlates with other progression risk factors in esophageal adenocarcinogenesis, and is a tissue biomarker of a poor prognosis in ESCC. Circulating methylated TAC1 promoter DNA also offers potential as a biomarker for the diagnosis of EAC.

Published
2023

33. Supplementary Tables S1 & S2 from Reprimo Methylation Is a Potential Biomarker of Barrett's-Associated Esophageal Neoplastic Progression

Author

Stephen J. Meltzer, John M. Abraham, Jian Yang, Suna Wang, Yulan Cheng, Takatsugu Kan, Bogdan C. Paun, Yuriko Mori, Tetsuo Ito, Bruce D. Greenwald, Zhe Jin, Fumiaki Sato, and James P. Hamilton

Abstract

Supplementary Tables S1 & S2 from Reprimo Methylation Is a Potential Biomarker of Barrett's-Associated Esophageal Neoplastic Progression

Published
2023

34. Raw data 3 from Evaluation of Salivary Exosomal Chimeric GOLM1-NAA35 RNA as a Potential Biomarker in Esophageal Carcinoma

Author

Hao Zhang, Sai-Ching J. Yeung, Stephen J. Meltzer, Lang Ma, Ningtao Dai, Haijun Yang, Hongzheng Ren, Yuping Chen, Changchun Ma, Fuyou Zhou, Yi Guo, Xiao Xiong, Kai Li, Wan Lin, Weilun Deng, Hongmei Dong, and Yusheng Lin

Abstract

Raw data 3-Supplementary Zip including supplementary tables with the qRT-PCR data from the patient cohorts with the amplification profile data (validation cohort)

Published
2023

35. Supplementary Fig. 3 from EpiPanGI Dx: A Cell-free DNA Methylation Fingerprint for the Early Detection of Gastrointestinal Cancers

Author

Ajay Goel, Wei Li, Daniel Von Hoff, Randall Brand, Hideo Baba, Stephen J. Meltzer, Douglas Evans, Susan Tsai, Erkut Borazanci, Francesc Balaguer, Hiroyuki Uetake, M. Iqbal Parker, Kensuke Yamamura, Takatoshi Matsuyama, Alexander Link, Jianfeng Xu, and Raju Kandimalla

Abstract

Workflow of model training and test for GI cancer prediction. (a) Initial markers discovery was conducted with 1653 GI cancer and 287 normal tissues. Targeted bisulfite sequencing that covers the initial selected CpG sites was performed on 300 plasma samples, including 254 GI cancer and 46 normal samples. GI plasma samples set was split into training set (70%) and test set (30%). The training set was used for calling differential methylated regions, feature selection and training random forest prediction models. The test set was used for model performance evaluation. (b) Annotations of panGI markers selected from GI cancer tissues.

Published
2023

36. Supplementary Data from Methylation Biomarker Panel Performance in EsophaCap Cytology Samples for Diagnosing Barrett's Esophagus: A Prospective Validation Study

Author

Stephen J. Meltzer, Tza-Huei Wang, Eun J. Shin, Saowanee Ngamruengphong, Mouen A. Khashab, Yulong He, Hao Wang, Hua-Ling Tsai, Alexander Trick, Alejandro Stark, Mark Duncan, Vishnu Prasath, Xi Liu, John M. Abraham, Alan H. Tieu, Cem Simsek, Ke Ma, Yulan Cheng, Swetha Kambhampati, and Zhixiong Wang

Abstract

supplementary figures and tables

Published
2023

37. Data from Evaluation of Salivary Exosomal Chimeric GOLM1-NAA35 RNA as a Potential Biomarker in Esophageal Carcinoma

Author

Hao Zhang, Sai-Ching J. Yeung, Stephen J. Meltzer, Lang Ma, Ningtao Dai, Haijun Yang, Hongzheng Ren, Yuping Chen, Changchun Ma, Fuyou Zhou, Yi Guo, Xiao Xiong, Kai Li, Wan Lin, Weilun Deng, Hongmei Dong, and Yusheng Lin

Abstract

Purpose:Transcriptionally induced chimeric RNAs are an important emerging area of research into molecular signatures for biomarker and therapeutic target development. Salivary exosomes represent a relatively unexplored, but convenient, and noninvasive area of cancer biomarker discovery. However, the potential of cancer-derived exosomal chimeric RNAs in saliva as biomarkers is unknown. Here, we explore the potential clinical utility of salivary exosomal GOLM1-NAA35 chimeric RNA (seG-NchiRNA) in esophageal squamous cell carcinoma (ESCC).Experimental Design:In a retrospective study, the prognostic significance of G-NchiRNA was determined in ESCC tissues. The correlation between seG-NchiRNA and circulating exosomal or tumoral G-NchiRNA was ascertained in cultured cells and mice. In multiple prospective cohorts of patients with ESCC, seG-NchiRNA was measured by qRT-PCR and analyzed for diagnostic accuracy, longitudinal monitoring of treatment response, and prediction of progression-free survival (PFS).Results:Exosomal G-NchiRNA was readily detectable in ESCC cells and nude mouse ESCC xenografts. SeG-NchiRNA levels reflected tumor burden in vivo and correlated with tumor G-NchiRNA levels. In prospective studies of a training cohort (n = 220) and a validation cohort (n = 102), seG-NchiRNA levels were substantially reduced after ESCC resection. Moreover, seG-NchiRNA was successfully used to evaluate chemoradiation responsiveness, as well as to detect disease progression earlier than imaging studies. Changes in seG-NchiRNA levels also predicted PFS of patients after chemoradiation.Conclusions:SeG-NchiRNA constitutes an effective candidate noninvasive biomarker for the convenient, reliable assessment of therapeutic response, recurrence, and early detection.

Published
2023

39. Raw data 2 from Evaluation of Salivary Exosomal Chimeric GOLM1-NAA35 RNA as a Potential Biomarker in Esophageal Carcinoma

Author

Hao Zhang, Sai-Ching J. Yeung, Stephen J. Meltzer, Lang Ma, Ningtao Dai, Haijun Yang, Hongzheng Ren, Yuping Chen, Changchun Ma, Fuyou Zhou, Yi Guo, Xiao Xiong, Kai Li, Wan Lin, Weilun Deng, Hongmei Dong, and Yusheng Lin

Abstract

Raw data 2-Supplementary Zip including supplementary tables with the qRT-PCR data from the patient cohorts with the amplification profile data (training cohort)

Published
2023

40. Data from EpiPanGI Dx: A Cell-free DNA Methylation Fingerprint for the Early Detection of Gastrointestinal Cancers

Author

Ajay Goel, Wei Li, Daniel Von Hoff, Randall Brand, Hideo Baba, Stephen J. Meltzer, Douglas Evans, Susan Tsai, Erkut Borazanci, Francesc Balaguer, Hiroyuki Uetake, M. Iqbal Parker, Kensuke Yamamura, Takatoshi Matsuyama, Alexander Link, Jianfeng Xu, and Raju Kandimalla

Abstract

Purpose:DNA methylation alterations have emerged as front-runners in cell-free DNA (cfDNA) biomarker development. However, much effort to date has focused on single cancers. In this context, gastrointestinal (GI) cancers constitute the second leading cause of cancer-related deaths worldwide; yet there is no blood-based assay for the early detection and population screening of GI cancers.Experimental Design:Herein, we performed a genome-wide DNA methylation analysis of multiple GI cancers to develop a pan-GI diagnostic assay. By analyzing DNA methylation data from 1,781 tumor and adjacent normal tissues, we first identified differentially methylated regions (DMR) between individual GI cancers and adjacent normal, as well as across GI cancers. We next prioritized a list of 67,832 tissue DMRs by incorporating all significant DMRs across various GI cancers to design a custom, targeted bisulfite sequencing platform. We subsequently validated these tissue-specific DMRs in 300 cfDNA specimens and applied machine learning algorithms to develop three distinct categories of DMR panelsResults:We identified three distinct DMR panels: (i) cancer-specific biomarker panels with AUC values of 0.98 (colorectal cancer), 0.98 (hepatocellular carcinoma), 0.94 (esophageal squamous cell carcinoma), 0.90 (gastric cancer), 0.90 (esophageal adenocarcinoma), and 0.85 (pancreatic ductal adenocarcinoma); (ii) a pan-GI panel that detected all GI cancers with an AUC of 0.88; and (iii) a multi-cancer (tissue of origin) prediction panel, EpiPanGI Dx, with a prediction accuracy of 0.85–0.95 for most GI cancers.Conclusions:Using a novel biomarker discovery approach, we provide the first evidence for a cfDNA methylation assay that offers robust diagnostic accuracy for GI cancers.

Published
2023

41. Supplementary Table 1 from Activin Type II Receptor Restoration in ACVR2-Deficient Colon Cancer Cells Induces Transforming Growth Factor-β Response Pathway Genes

Author

Stephen J. Meltzer, John M. Abraham, Takatsugu Kan, Agnes Berki, Karsten Schulmann, Suna Wang, Yan Xu, Anca Sterian, Andreea Olaru, Jing Yin, Fumiaki Sato, Yuriko Mori, and Elena Deacu

Abstract

Supplementary Table 1 from Activin Type II Receptor Restoration in ACVR2-Deficient Colon Cancer Cells Induces Transforming Growth Factor-β Response Pathway Genes

Published
2023

43. Supplementary Table 3 from A Multicenter, Double-Blinded Validation Study of Methylation Biomarkers for Progression Prediction in Barrett's Esophagus

Author

Stephen J. Meltzer, Richard E. Sampliner, Ziding Feng, Kenneth K. Wang, Yvonne Romero, Paul D. Wagner, Mark A. Nelson, Achyut Bhattacharyya, Marcia Irene Canto, Jean Wang, Kay Washington, Nicholas J. Shaheen, Michael B. Wallace, Herbert C. Wolfsen, John M. Abraham, Stefan David, Rachana Agarwal, Florin M. Selaru, James P. Hamilton, Tetsuo Ito, Takatsugu Kan, Jian Yang, Bogdan C. Paun, Alexandru V. Olaru, Yuriko Mori, Fumiaki Sato, Yingye Zheng, Wen Gu, Yulan Cheng, and Zhe Jin

Abstract

Supplementary Table 3 from A Multicenter, Double-Blinded Validation Study of Methylation Biomarkers for Progression Prediction in Barrett's Esophagus

Published
2023

46. Supplementary Table 1 from Pituitary Tumor-Transforming 1 Increases Cell Motility and Promotes Lymph Node Metastasis in Esophageal Squamous Cell Carcinoma

Author

Fumiaki Sato, Stephen J. Meltzer, John M. Abraham, Jian Yang, James P. Hamilton, Alexandru Olaru, Zhe Jin, Bogdan Paun, Rachana Agarwal, Yuriko Mori, Yulan Cheng, Stefan David, Takatsugu Kan, Yutaka Shimada, and Tetsuo Ito

Abstract

Supplementary Table 1 from Pituitary Tumor-Transforming 1 Increases Cell Motility and Promotes Lymph Node Metastasis in Esophageal Squamous Cell Carcinoma

Published
2023

47. Supplementary Methods from Activin Type II Receptor Restoration in ACVR2-Deficient Colon Cancer Cells Induces Transforming Growth Factor-β Response Pathway Genes

Author

Stephen J. Meltzer, John M. Abraham, Takatsugu Kan, Agnes Berki, Karsten Schulmann, Suna Wang, Yan Xu, Anca Sterian, Andreea Olaru, Jing Yin, Fumiaki Sato, Yuriko Mori, and Elena Deacu

Abstract

Supplementary Methods from Activin Type II Receptor Restoration in ACVR2-Deficient Colon Cancer Cells Induces Transforming Growth Factor-β Response Pathway Genes

Published
2023

48. Data from Activin Type II Receptor Restoration in ACVR2-Deficient Colon Cancer Cells Induces Transforming Growth Factor-β Response Pathway Genes

Author

Stephen J. Meltzer, John M. Abraham, Takatsugu Kan, Agnes Berki, Karsten Schulmann, Suna Wang, Yan Xu, Anca Sterian, Andreea Olaru, Jing Yin, Fumiaki Sato, Yuriko Mori, and Elena Deacu

Abstract

The activin type II receptor (ACVR2) gene is a putative tumor suppressor gene that is frequently mutated in microsatellite-unstable colon cancers (MSI-H colon cancers). ACVR2 is a member of the transforming growth factor (TGF)-β type II receptor (TGFBR2) family and controls cell growth and differentiation. SMAD proteins are major intracellular effectors shared by ACVR2 and TGFBR2 signaling; however, additional shared effector mechanisms remain to be explored. To discover novel mechanisms transmitting the ACVR2 signal, we restored ACVR2 function by transfecting wild-type ACVR2 (wt-ACVR2) into a MSI-H colon cancer cell line carrying an ACVR2 frameshift mutation. The effect of ACVR2 restoration on cell growth, SMAD phosphorylation, and global molecular phenotype was then evaluated. Decreased cell growth was observed in wt-ACVR2 transfectants relative to ACVR2-deficient vector-transfected controls. Western blotting revealed higher expression of phosphorylated SMAD2 in wt-ACVR2 transfectants versus controls, suggesting cells deficient in ACVR2 had impaired SMAD signaling. Microarray-based differential expression analysis revealed substantial ACVR2-induced overexpression of genes implicated in the control of cell growth and tumorigenesis, including the activator protein (AP)-1 complex genes JUND, JUN, and FOSB, as well as the small GTPase signal transduction family members, RHOB, ARHE, and ARHGDIA. Overexpression of these genes is shared with TGFBR2 activation. This observed similarity between the activin and TGF-β signaling systems suggests that activin may serve as an alternative activator of TGF-β effectors, including SMADs, and that frameshift mutation of ACVR2 may contribute to MSI-H colon tumorigenesis via disruption of alternate TGF-β effector pathways.

Published
2023

49. Supplementary Table 1 from Identification of Genes Uniquely Involved in Frequent Microsatellite Instability Colon Carcinogenesis by Expression Profiling Combined with Epigenetic Scanning

Author

Stephen J. Meltzer, Barbara A. Leggett, Joanne Young, John M. Abraham, Elena Deacu, Suna Wang, Andreea Olaru, Yan Xu, Karsten Schulmann, Florin M. Selaru, Lisa A. Simms, Anca Sterian, Fumiaki Sato, Jing Yin, and Yuriko Mori

Abstract

Supplementary Table 1 from Identification of Genes Uniquely Involved in Frequent Microsatellite Instability Colon Carcinogenesis by Expression Profiling Combined with Epigenetic Scanning

Published
2023

50. Supplementary Methods section from Identification of Genes Uniquely Involved in Frequent Microsatellite Instability Colon Carcinogenesis by Expression Profiling Combined with Epigenetic Scanning

Author

Stephen J. Meltzer, Barbara A. Leggett, Joanne Young, John M. Abraham, Elena Deacu, Suna Wang, Andreea Olaru, Yan Xu, Karsten Schulmann, Florin M. Selaru, Lisa A. Simms, Anca Sterian, Fumiaki Sato, Jing Yin, and Yuriko Mori

Abstract

Supplementary Methods section from Identification of Genes Uniquely Involved in Frequent Microsatellite Instability Colon Carcinogenesis by Expression Profiling Combined with Epigenetic Scanning

Published
2023

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