Your search keyword '"Paulson TG"' showing total 30 results

1. Significance of Crypt Atypia in Barrett's Esophagus: A Clinical, Molecular, and Outcome Study.

Author

Wang HH, Patil DT, Paulson TG, Grady WM, and Odze RD

Subjects

Humans, Aneuploidy, Hyperplasia, DNA, Outcome Assessment, Health Care, Disease Progression, Barrett Esophagus complications, Esophageal Neoplasms pathology, Precancerous Conditions pathology, Adenocarcinoma

Abstract

Background & Aims: The aim of this study was to characterize baseline morphologic features of crypts in nondysplastic Barrett's esophagus and correlate them with DNA content abnormalities and risk of progression to high-grade dysplasia (HGD) or esophageal adenocarcinoma (EAC)., Methods: The morphologic features of nondysplastic crypts in baseline biopsy specimens from 212 BE patients (2956 biopsy specimens) were graded histologically using a 4-point scale (crypt atypia levels, 0-3). DNA content abnormalities were detected using flow cytometry., Results: In patients who had dysplasia in their baseline biopsy specimens, dysplasia was associated significantly with increasing grades of crypt atypia in the background nondysplastic Barrett's esophagus (P < .001). In a subset of patients without dysplasia at baseline (N = 149), a higher grade of crypt atypia was associated with longer Barrett's esophagus segment length (5.5 vs 3.3 cm; P = .0095), and a higher percentage of cells with 4N DNA content (3.67 ± 1.27 vs 2.93 ± 1.22; P = .018). Crypt atypia was associated with the development of any neoplasia (low-grade dysplasia and HGD/EAC). Although no significant association was noted between the grade of crypt atypia and increased 4N, aneuploidy, or progression to HGD/EAC, only patients with grade 2 or 3 crypt atypia showed increased 4N, aneuploidy, or progression to HGD/EAC., Conclusions: Patients with Barrett's esophagus likely develop dysplasia via a progressive increase in the level of crypt atypia before the onset of dysplasia, and these changes may reflect some alteration of DNA content., (Copyright © 2024 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published

2024

2. Breakage fusion bridge cycles drive high oncogene copy number, but not intratumoral genetic heterogeneity or rapid cancer genome change.

Author

Dehkordi SR, Wong IT, Ni J, Luebeck J, Zhu K, Prasad G, Krockenberger L, Xu G, Chowdhury B, Rajkumar U, Caplin A, Muliaditan D, Coruh C, Jin Q, Turner K, Teo SX, Pang AWC, Alexandrov LB, Chua CEL, Furnari FB, Paulson TG, Law JA, Chang HY, Yue F, DasGupta R, Zhao J, Mischel PS, and Bafna V

Abstract

Oncogene amplification is a major driver of cancer pathogenesis. Breakage fusion bridge (BFB) cycles, like extrachromosomal DNA (ecDNA), can lead to high copy numbers of oncogenes, but their impact on intratumoral heterogeneity, treatment response, and patient survival are not well understood due to difficulty in detecting them by DNA sequencing. We describe a novel algorithm that detects and reconstructs BFB amplifications using optical genome maps (OGMs), called OM2BFB. OM2BFB showed high precision (>93%) and recall (92%) in detecting BFB amplifications in cancer cell lines, PDX models and primary tumors. OM-based comparisons demonstrated that short-read BFB detection using our AmpliconSuite (AS) toolkit also achieved high precision, albeit with reduced sensitivity. We detected 371 BFB events using whole genome sequences from 2,557 primary tumors and cancer lines. BFB amplifications were preferentially found in cervical, head and neck, lung, and esophageal cancers, but rarely in brain cancers. BFB amplified genes show lower variance of gene expression, with fewer options for regulatory rewiring relative to ecDNA amplified genes. BFB positive (BFB (+)) tumors showed reduced heterogeneity of amplicon structures, and delayed onset of resistance, relative to ecDNA(+) tumors. EcDNA and BFB amplifications represent contrasting mechanisms to increase the copy numbers of oncogene with markedly different characteristics that suggest different routes for intervention.

Published

2023

3. Extrachromosomal DNA in the cancerous transformation of Barrett's oesophagus.

Author

Luebeck J, Ng AWT, Galipeau PC, Li X, Sanchez CA, Katz-Summercorn AC, Kim H, Jammula S, He Y, Lippman SM, Verhaak RGW, Maley CC, Alexandrov LB, Reid BJ, Fitzgerald RC, Paulson TG, Chang HY, Wu S, Bafna V, and Mischel PS

Subjects

Humans, Case-Control Studies, Whole Genome Sequencing, Cohort Studies, Biopsy, Oncogenes, Immunomodulation, DNA Copy Number Variations, Gene Amplification, Adenocarcinoma genetics, Adenocarcinoma pathology, Barrett Esophagus genetics, Barrett Esophagus pathology, DNA genetics, Esophageal Neoplasms genetics, Esophageal Neoplasms pathology, Carcinogenesis genetics, Disease Progression, Early Detection of Cancer methods

Abstract

Oncogene amplification on extrachromosomal DNA (ecDNA) drives the evolution of tumours and their resistance to treatment, and is associated with poor outcomes for patients with cancer 1-6 . At present, it is unclear whether ecDNA is a later manifestation of genomic instability, or whether it can be an early event in the transition from dysplasia to cancer. Here, to better understand the development of ecDNA, we analysed whole-genome sequencing (WGS) data from patients with oesophageal adenocarcinoma (EAC) or Barrett's oesophagus. These data included 206 biopsies in Barrett's oesophagus surveillance and EAC cohorts from Cambridge University. We also analysed WGS and histology data from biopsies that were collected across multiple regions at 2 time points from 80 patients in a case-control study at the Fred Hutchinson Cancer Center. In the Cambridge cohorts, the frequency of ecDNA increased between Barrett's-oesophagus-associated early-stage (24%) and late-stage (43%) EAC, suggesting that ecDNA is formed during cancer progression. In the cohort from the Fred Hutchinson Cancer Center, 33% of patients who developed EAC had at least one oesophageal biopsy with ecDNA before or at the diagnosis of EAC. In biopsies that were collected before cancer diagnosis, higher levels of ecDNA were present in samples from patients who later developed EAC than in samples from those who did not. We found that ecDNAs contained diverse collections of oncogenes and immunomodulatory genes. Furthermore, ecDNAs showed increases in copy number and structural complexity at more advanced stages of disease. Our findings show that ecDNA can develop early in the transition from high-grade dysplasia to cancer, and that ecDNAs progressively form and evolve under positive selection., (© 2023. The Author(s).)

Published

2023

4. Somatic whole genome dynamics of precancer in Barrett's esophagus reveals features associated with disease progression.

Author

Paulson TG, Galipeau PC, Oman KM, Sanchez CA, Kuhner MK, Smith LP, Hadi K, Shah M, Arora K, Shelton J, Johnson M, Corvelo A, Maley CC, Yao X, Sanghvi R, Venturini E, Emde AK, Hubert B, Imielinski M, Robine N, Reid BJ, and Li X

Subjects

Disease Progression, Humans, Adenocarcinoma pathology, Barrett Esophagus genetics, Barrett Esophagus pathology, Esophageal Neoplasms pathology

Abstract

While the genomes of normal tissues undergo dynamic changes over time, little is understood about the temporal-spatial dynamics of genomes in premalignant tissues that progress to cancer compared to those that remain cancer-free. Here we use whole genome sequencing to contrast genomic alterations in 427 longitudinal samples from 40 patients with stable Barrett's esophagus compared to 40 Barrett's patients who progressed to esophageal adenocarcinoma (ESAD). We show the same somatic mutational processes are active in Barrett's tissue regardless of outcome, with high levels of mutation, ESAD gene and focal chromosomal alterations, and similar mutational signatures. The critical distinction between stable Barrett's versus those who progress to cancer is acquisition and expansion of TP53-/- cell populations having complex structural variants and high-level amplifications, which are detectable up to six years prior to a cancer diagnosis. These findings reveal the timing of common somatic genome dynamics in stable Barrett's esophagus and define key genomic features specific to progression to esophageal adenocarcinoma, both of which are critical for cancer prevention and early detection strategies., (© 2022. The Author(s).)

Published

2022

5. Distinct Classes of Complex Structural Variation Uncovered across Thousands of Cancer Genome Graphs.

Author

Hadi K, Yao X, Behr JM, Deshpande A, Xanthopoulakis C, Tian H, Kudman S, Rosiene J, Darmofal M, DeRose J, Mortensen R, Adney EM, Shaiber A, Gajic Z, Sigouros M, Eng K, Wala JA, Wrzeszczyński KO, Arora K, Shah M, Emde AK, Felice V, Frank MO, Darnell RB, Ghandi M, Huang F, Dewhurst S, Maciejowski J, de Lange T, Setton J, Riaz N, Reis-Filho JS, Powell S, Knowles DA, Reznik E, Mishra B, Beroukhim R, Zody MC, Robine N, Oman KM, Sanchez CA, Kuhner MK, Smith LP, Galipeau PC, Paulson TG, Reid BJ, Li X, Wilkes D, Sboner A, Mosquera JM, Elemento O, and Imielinski M

Subjects

Chromosome Inversion genetics, Chromothripsis, DNA Copy Number Variations genetics, Gene Rearrangement genetics, Genome, Human genetics, Humans, Mutation genetics, Whole Genome Sequencing methods, Genomic Structural Variation genetics, Genomics methods, Neoplasms genetics

Abstract

Cancer genomes often harbor hundreds of somatic DNA rearrangement junctions, many of which cannot be easily classified into simple (e.g., deletion) or complex (e.g., chromothripsis) structural variant classes. Applying a novel genome graph computational paradigm to analyze the topology of junction copy number (JCN) across 2,778 tumor whole-genome sequences, we uncovered three novel complex rearrangement phenomena: pyrgo, rigma, and tyfonas. Pyrgo are "towers" of low-JCN duplications associated with early-replicating regions, superenhancers, and breast or ovarian cancers. Rigma comprise "chasms" of low-JCN deletions enriched in late-replicating fragile sites and gastrointestinal carcinomas. Tyfonas are "typhoons" of high-JCN junctions and fold-back inversions associated with expressed protein-coding fusions, breakend hypermutation, and acral, but not cutaneous, melanomas. Clustering of tumors according to genome graph-derived features identified subgroups associated with DNA repair defects and poor prognosis., Competing Interests: Declaration of Interests J.S.R.-F. reports receiving personal/consultancy fees from VolitionRx, Paige.AI, Goldman Sachs, REPARE Therapeutics, GRAIL, Ventana Medical Systems, Roche, Genentech, and InviCRO outside of the scope of the submitted work., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

6. Within-patient phylogenetic reconstruction reveals early events in Barrett's Esophagus.

Author

Smith LP, Yamato JA, Galipeau PC, Paulson TG, Li X, Sanchez CA, Reid BJ, and Kuhner MK

Abstract

Barrett's Esophagus is a neoplastic condition which progresses to esophageal adenocarcinoma in 5% of cases. Key events affecting the outcome likely occur before diagnosis of Barrett's and cannot be directly observed; we use phylogenetic analysis to infer such past events. We performed whole-genome sequencing on 4-6 samples from 40 cancer outcome and 40 noncancer outcome patients with Barrett's Esophagus, and inferred within-patient phylogenies of deconvoluted clonal lineages. Spatially proximate lineages clustered in the phylogenies, but temporally proximate ones did not. Lineages with inferred loss-of-function mutations in both copies of TP53 and CDKN2A showed enhanced spatial spread, whereas lineages with loss-of-function mutations in other frequently mutated loci did not. We propose a two-phase model with expansions of TP53 and CKDN2A mutant lineages during initial growth of the segment, followed by relative stasis. Subsequent to initial expansion, mutations in these loci as well as ARID1A and SMARCA4 may show a local selective advantage but do not expand far: The spatial structure of the Barrett's segment remains stable during surveillance even in patients who go on to cancer. We conclude that the cancer/noncancer outcome is strongly affected by early steps in formation of the Barrett's segment., Competing Interests: None declared., (© 2020 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd.)

Published

2020

7. Correction to: NSAID use and somatic exomic mutations in Barrett's esophagus.

Author

Galipeau PC, Oman KM, Paulson TG, Sanchez CA, Zhang Q, Marty JA, Delrow JJ, Kuhner MK, Vaughan TL, Reid BJ, and Li X

Abstract

It was highlighted that in the original article [1] the Availability of data and materials section was incorrect.

Published

2019

8. NSAID use and somatic exomic mutations in Barrett's esophagus.

Author

Galipeau PC, Oman KM, Paulson TG, Sanchez CA, Zhang Q, Marty JA, Delrow JJ, Kuhner MK, Vaughan TL, Reid BJ, and Li X

Subjects

DNA Copy Number Variations genetics, Gene Frequency genetics, Humans, Loss of Heterozygosity, Mutagenesis genetics, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Barrett Esophagus drug therapy, Barrett Esophagus genetics, Exome genetics, Mutation genetics

Abstract

Background: Use of aspirin and other non-steroidal anti-inflammatory drugs (NSAIDs) has been shown to protect against tetraploidy, aneuploidy, and chromosomal alterations in the metaplastic condition Barrett's esophagus (BE) and to lower the incidence and mortality of esophageal adenocarcinoma (EA). The esophagus is exposed to both intrinsic and extrinsic mutagens resulting from gastric reflux, chronic inflammation, and exposure to environmental carcinogens such as those found in cigarettes. Here we test the hypothesis that NSAID use inhibits accumulation of point mutations/indels during somatic genomic evolution in BE., Methods: Whole exome sequences were generated from 82 purified epithelial biopsies and paired blood samples from a cross-sectional study of 41 NSAID users and 41 non-users matched by sex, age, smoking, and continuous time using or not using NSAIDs., Results: NSAID use reduced overall frequency of point mutations across the spectrum of mutation types, lowered the frequency of mutations even when adjusted for both TP53 mutation and smoking status, and decreased the prevalence of clones with high variant allele frequency. Never smokers who consistently used NSAIDs had fewer point mutations in signature 17, which is commonly found in EA. NSAID users had, on average, a 50% reduction in functional gene mutations in nine cancer-associated pathways and also had less diversity in pathway mutational burden compared to non-users., Conclusions: These results indicate NSAID use functions to limit overall mutations on which selection can act and supports a model in which specific mutant cell populations survive or expand better in the absence of NSAIDs.

Published

2018

9. Evolution of Barrett's esophagus through space and time at single-crypt and whole-biopsy levels.

Author

Martinez P, Mallo D, Paulson TG, Li X, Sanchez CA, Reid BJ, Graham TA, Kuhner MK, and Maley CC

Subjects

Adenocarcinoma metabolism, Adenocarcinoma pathology, Adult, Aged, Barrett Esophagus metabolism, Barrett Esophagus pathology, Biopsy, Disease Progression, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Genomic Instability, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, Adenocarcinoma genetics, Barrett Esophagus genetics, Esophageal Neoplasms genetics, Evolution, Molecular

Abstract

The low risk of progression of Barrett's esophagus (BE) to esophageal adenocarcinoma can lead to over-diagnosis and over-treatment of BE patients. This may be addressed through a better understanding of the dynamics surrounding BE malignant progression. Although genetic diversity has been characterized as a marker of malignant development, it is still unclear how BE arises and develops. Here we uncover the evolutionary dynamics of BE at crypt and biopsy levels in eight individuals, including four patients that experienced malignant progression. We assay eight individual crypts and the remaining epithelium by SNP array for each of 6-11 biopsies over 2 time points per patient (358 samples in total). Our results indicate that most Barrett's segments are clonal, with similar number and inferred rates of alterations observed for crypts and biopsies. Divergence correlates with geographical location, being higher near the gastro-esophageal junction. Relaxed clock analyses show that genomic instability precedes and is enhanced by genome doubling. These results shed light on the clinically relevant evolutionary dynamics of BE.

Published

2018

10. Genetic Insights in Barrett's Esophagus and Esophageal Adenocarcinoma.

Author

Reid BJ, Paulson TG, and Li X

Subjects

Barrett Esophagus etiology, Disease Progression, Early Detection of Cancer trends, Environment, Gastroesophageal Reflux complications, Genetic Predisposition to Disease, Genomics methods, Humans, Mutation, Adenocarcinoma diagnosis, Adenocarcinoma genetics, Adenocarcinoma prevention & control, Barrett Esophagus pathology, Early Detection of Cancer methods, Esophageal Neoplasms diagnosis, Esophageal Neoplasms genetics, Esophageal Neoplasms prevention & control, Genomics trends

Abstract

Beginning in the 1980s, an alarming rise in the incidence of esophageal adenocarcinoma (EA) led to screening of patients with reflux to detect Barrett's esophagus (BE) and surveillance of BE to detect early EA. This strategy, based on linear progression disease models, resulted in selective detection of BE that does not progress to EA over a lifetime (overdiagnosis) and missed BE that rapidly progresses to EA (underdiagnosis). Here we review the historical thought processes that resulted in this undesired outcome and the transformation in our understanding of genetic and evolutionary principles governing neoplastic progression that has come from application of modern genomic technologies to cancers and their precursors. This new synthesis provides improved strategies for prevention and early detection of EA by addressing the environmental and mutational processes that can determine "windows of opportunity" in time to detect rapidly progressing BE and distinguish it from slowly or nonprogressing BE., (Copyright © 2015 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published

2015

11. Assessment of Esophageal Adenocarcinoma Risk Using Somatic Chromosome Alterations in Longitudinal Samples in Barrett's Esophagus.

Author

Li X, Paulson TG, Galipeau PC, Sanchez CA, Liu K, Kuhner MK, Maley CC, Self SG, Vaughan TL, Reid BJ, and Blount PL

Subjects

Adenocarcinoma genetics, Adenocarcinoma pathology, Adult, Aged, Aged, 80 and over, Barrett Esophagus genetics, Barrett Esophagus pathology, Biopsy, Cohort Studies, Disease Progression, Endoscopy methods, Esophageal Neoplasms genetics, Esophageal Neoplasms pathology, Female, Genome, Human, Humans, Longitudinal Studies, Male, Middle Aged, Mutation, ROC Curve, Stochastic Processes, Adenocarcinoma diagnosis, Barrett Esophagus diagnosis, Chromosome Aberrations, Esophageal Neoplasms diagnosis, Risk Assessment methods

Abstract

Cancers detected at a late stage are often refractory to treatments and ultimately lethal. Early detection can significantly increase survival probability, but attempts to reduce mortality by early detection have frequently increased overdiagnosis of indolent conditions that do not progress over a lifetime. Study designs that incorporate biomarker trajectories in time and space are needed to distinguish patients who progress to an early cancer from those who follow an indolent course. Esophageal adenocarcinoma is characterized by evolution of punctuated and catastrophic somatic chromosomal alterations and high levels of overall mutations but few recurrently mutated genes aside from TP53. Endoscopic surveillance of Barrett's esophagus for early cancer detection provides an opportunity for assessment of alterations for cancer risk in patients who progress to esophageal adenocarcinoma compared with nonprogressors. We investigated 1,272 longitudinally collected esophageal biopsies in a 248 Barrett's patient case-cohort study with 20,425 person-months of follow-up, including 79 who progressed to early-stage esophageal adenocarcinoma. Cancer progression risk was assessed for total chromosomal alterations, diversity, and chromosomal region-specific alterations measured with single-nucleotide polymorphism arrays in biopsies obtained over esophageal space and time. A model using 29 chromosomal features was developed for cancer risk prediction (area under receiver operator curve, 0.94). The model prediction performance was robust in two independent esophageal adenocarcinoma sets and outperformed TP53 mutation, flow cytometric DNA content, and histopathologic diagnosis of dysplasia. This study offers a strategy to reduce overdiagnosis in Barrett's esophagus and improve early detection of esophageal adenocarcinoma and potentially other cancers characterized by punctuated and catastrophic chromosomal evolution., (©2015 American Association for Cancer Research.)

Published

2015

12. Temporal and spatial evolution of somatic chromosomal alterations: a case-cohort study of Barrett's esophagus.

Author

Li X, Galipeau PC, Paulson TG, Sanchez CA, Arnaudo J, Liu K, Sather CL, Kostadinov RL, Odze RD, Kuhner MK, Maley CC, Self SG, Vaughan TL, Blount PL, and Reid BJ

Subjects

Adenocarcinoma genetics, Adult, Aged, Biopsy, Case-Control Studies, Chromosomal Instability, Disease Progression, Endoscopy, Esophageal Neoplasms genetics, Female, Genome, Human, Humans, Longitudinal Studies, Loss of Heterozygosity, Male, Middle Aged, Polymorphism, Single Nucleotide, Time Factors, Barrett Esophagus genetics, Chromosome Aberrations

Abstract

All cancers are believed to arise by dynamic, stochastic somatic genomic evolution with genome instability, generation of diversity, and selection of genomic alterations that underlie multistage progression to cancer. Advanced esophageal adenocarcinomas have high levels of somatic copy number alterations. Barrett's esophagus is a risk factor for developing esophageal adenocarcinoma, and somatic chromosomal alterations (SCA) are known to occur in Barrett's esophagus. The vast majority (∼95%) of individuals with Barrett's esophagus do not progress to esophageal adenocarcinoma during their lifetimes, but a small subset develop esophageal adenocarcinoma, many of which arise rapidly even in carefully monitored patients without visible endoscopic abnormalities at the index endoscopy. Using a well-designed, longitudinal case-cohort study, we characterized SCA as assessed by single-nucleotide polymorphism arrays over space and time in 79 "progressors" with Barrett's esophagus as they approach the diagnosis of cancer and 169 "nonprogressors" with Barrett's esophagus who did not progress to esophageal adenocarcinoma over more than 20,425 person-months of follow-up. The genomes of nonprogressors typically had small localized deletions involving fragile sites and 9p loss/copy neutral LOH that generate little genetic diversity and remained relatively stable over prolonged follow-up. As progressors approach the diagnosis of cancer, their genomes developed chromosome instability with initial gains and losses, genomic diversity, and selection of SCAs followed by catastrophic genome doublings. Our results support a model of differential disease dynamics in which nonprogressor genomes largely remain stable over prolonged periods, whereas progressor genomes evolve significantly increased SCA and diversity within four years of esophageal adenocarcinoma diagnosis, suggesting a window of opportunity for early detection., (©2013 AACR.)

Published

2014

13. NSAIDs modulate clonal evolution in Barrett's esophagus.

Author

Kostadinov RL, Kuhner MK, Li X, Sanchez CA, Galipeau PC, Paulson TG, Sather CL, Srivastava A, Odze RD, Blount PL, Vaughan TL, Reid BJ, and Maley CC

Subjects

Adenocarcinoma pathology, Aged, Barrett Esophagus pathology, Biopsy, Clonal Evolution drug effects, Disease Progression, Female, Humans, Male, Middle Aged, Phylogeny, Polymorphism, Single Nucleotide, Adenocarcinoma genetics, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Barrett Esophagus genetics, Clonal Evolution genetics, Genomic Instability drug effects

Abstract

Cancer is considered an outcome of decades-long clonal evolution fueled by acquisition of somatic genomic abnormalities (SGAs). Non-steroidal anti-inflammatory drugs (NSAIDs) have been shown to reduce cancer risk, including risk of progression from Barrett's esophagus (BE) to esophageal adenocarcinoma (EA). However, the cancer chemopreventive mechanisms of NSAIDs are not fully understood. We hypothesized that NSAIDs modulate clonal evolution by reducing SGA acquisition rate. We evaluated thirteen individuals with BE. Eleven had not used NSAIDs for 6.2±3.5 (mean±standard deviation) years and then began using NSAIDs for 5.6±2.7 years, whereas two had used NSAIDs for 3.3±1.4 years and then discontinued use for 7.9±0.7 years. 161 BE biopsies, collected at 5-8 time points over 6.4-19 years, were analyzed using 1Million-SNP arrays to detect SGAs. Even in the earliest biopsies there were many SGAs (284±246 in 10/13 and 1442±560 in 3/13 individuals) and in most individuals the number of SGAs changed little over time, with both increases and decreases in SGAs detected. The estimated SGA rate was 7.8 per genome per year (95% support interval [SI], 7.1-8.6) off-NSAIDs and 0.6 (95% SI 0.3-1.5) on-NSAIDs. Twelve individuals did not progress to EA. In ten we detected 279±86 SGAs affecting 53±30 Mb of the genome per biopsy per time point and in two we detected 1,463±375 SGAs affecting 180±100 Mb. In one individual who progressed to EA we detected a clone having 2,291±78 SGAs affecting 588±18 Mb of the genome at three time points in the last three of 11.4 years of follow-up. NSAIDs were associated with reduced rate of acquisition of SGAs in eleven of thirteen individuals. Barrett's cells maintained relative equilibrium level of SGAs over time with occasional punctuations by expansion of clones having massive amount of SGAs., Competing Interests: The authors have declared that no competing interests exist.

Published

2013

14. Feasibility of RNA and DNA extraction from fresh pipelle and archival endometrial tissues for use in gene expression and SNP arrays.

Author

Kissel HD, Paulson TG, Liu K, Li X, Swisher E, Garcia R, Sanchez CA, Reid BJ, Reed SD, and Doherty JA

Abstract

Identifying molecular markers of endometrial hyperplasia (neoplasia) progression is critical to cancer prevention. To assess RNA and DNA quantity and quality from routinely collected endometrial samples and evaluate the performance of RNA- and DNA-based arrays across endometrial tissue types, we collected fresh frozen (FF) Pipelle, FF curettage, and formalin-fixed paraffin-embedded (FFPE) hysterectomy specimens (benign indications) from eight women. Additionally, neoplastic and uninvolved tissues from 24 FFPE archival hysterectomy specimens with endometrial hyperplasias and carcinomas were assessed. RNA was extracted from 15 of 16 FF and 51 of 51 FFPE samples, with yields >1.2  μ g for 13/15 (87%) FF and 50/51 (98%) FFPE samples. Extracted RNA was of high quality; all samples performed successfully on the Illumina whole-genome cDNA-mediated annealing, selection, extension, and ligation (WG-DASL) array and performance did not vary by tissue type. While DNA quantity from FFPE samples was excellent, quality was not sufficient for successful performance on the Affymetrix SNP Array 6.0. In conclusion, FF Pipelle samples, which are minimally invasive, yielded excellent quantity and quality of RNA for gene expression arrays (similar to FF curettage) and should be considered for use in genomic studies. FFPE-derived DNA should be evaluated on new rapidly evolving sequencing platforms.

Published

2013

15. Warburg and Crabtree effects in premalignant Barrett's esophagus cell lines with active mitochondria.

Author

Suchorolski MT, Paulson TG, Sanchez CA, Hockenbery D, and Reid BJ

Subjects

2,4-Dinitrophenol pharmacology, Acids metabolism, Barrett Esophagus genetics, Cell Line, Tumor, Deoxyglucose pharmacology, Disease Progression, Energy Metabolism drug effects, Energy Metabolism genetics, Extracellular Space metabolism, Genomic Instability drug effects, Glycolysis drug effects, Humans, Mitochondria drug effects, Neoplasm Staging, Oxidative Phosphorylation drug effects, Oxygen Consumption drug effects, Uncoupling Agents pharmacology, Barrett Esophagus metabolism, Barrett Esophagus pathology, Mitochondria metabolism, Models, Biological, Precancerous Conditions metabolism, Precancerous Conditions pathology

Abstract

Background: Increased glycolysis is a hallmark of cancer metabolism, yet relatively little is known about this phenotype at premalignant stages of progression. Periodic ischemia occurs in the premalignant condition Barrett's esophagus (BE) due to tissue damage from chronic acid-bile reflux and may select for early adaptations to hypoxia, including upregulation of glycolysis., Methodology/principal Findings: We compared rates of glycolysis and oxidative phosphorylation in four cell lines derived from patients with BE (CP-A, CP-B, CP-C and CP-D) in response to metabolic inhibitors and changes in glucose concentration. We report that cell lines derived from patients with more advanced genetically unstable BE have up to two-fold higher glycolysis compared to a cell line derived from a patient with early genetically stable BE; however, all cell lines preserve active mitochondria. In response to the glycolytic inhibitor 2-deoxyglucose, the most glycolytic cell lines (CP-C and CP-D) had the greatest suppression of extra-cellular acidification, but were able to compensate with upregulation of oxidative phosphorylation. In addition, these cell lines showed the lowest compensatory increases in glycolysis in response to mitochondrial uncoupling by 2,4-dinitrophenol. Finally, these cell lines also upregulated their oxidative phosphorylation in response to glucose via the Crabtree effect, and demonstrate a greater range of modulation of oxygen consumption., Conclusions/significance: Our findings suggest that cells from premalignant Barrett's esophagus tissue may adapt to an ever-changing selective microenvironment through changes in energy metabolic pathways typically associated with cancer cells.

Published

2013

16. Method for physiologic phenotype characterization at the single-cell level in non-interacting and interacting cells.

Author

Kelbauskas L, Ashili SP, Houkal J, Smith D, Mohammadreza A, Lee KB, Forrester J, Kumar A, Anis YH, Paulson TG, Youngbull CA, Tian Y, Holl MR, Johnson RH, and Meldrum DR

Subjects

Cell Culture Techniques instrumentation, Cell Line, Transformed, Cell Respiration physiology, Humans, Linear Models, Microfluidic Analytical Techniques instrumentation, Microscopy instrumentation, Microscopy methods, Cell Communication physiology, Oxygen Consumption physiology, Phenotype, Single-Cell Analysis instrumentation, Single-Cell Analysis methods

Abstract

Intercellular heterogeneity is a key factor in a variety of core cellular processes including proliferation, stimulus response, carcinogenesis, and drug resistance. However, cell-to-cell variability studies at the single-cell level have been hampered by the lack of enabling experimental techniques. We present a measurement platform that features the capability to quantify oxygen consumption rates of individual, non-interacting and interacting cells under normoxic and hypoxic conditions. It is based on real-time concentration measurements of metabolites of interest by means of extracellular optical sensors in cell-isolating microwells of subnanoliter volume. We present the results of a series of measurements of oxygen consumption rates (OCRs) of individual non-interacting and interacting human epithelial cells. We measured the effects of cell-to-cell interactions by using the system's capability to isolate two and three cells in a single well. The major advantages of the approach are: 1. ratiometric, intensity-based characterization of the metabolic phenotype at the single-cell level, 2. minimal invasiveness due to the distant positioning of sensors, and 3. ability to study the effects of cell-cell interactions on cellular respiration rates., (© 2012 Society of Photo-Optical Instrumentation Engineers (SPIE).)

Published

2012

17. Chromosomal instability and copy number alterations in Barrett's esophagus and esophageal adenocarcinoma.

Author

Paulson TG, Maley CC, Li X, Li H, Sanchez CA, Chao DL, Odze RD, Vaughan TL, Blount PL, and Reid BJ

Subjects

Aged, Barrett Esophagus pathology, Chromosome Aberrations, Comparative Genomic Hybridization methods, DNA, Neoplasm metabolism, Disease Progression, Esophageal Neoplasms pathology, Flow Cytometry, Genetic Predisposition to Disease genetics, Genome-Wide Association Study, Humans, Loss of Heterozygosity, Middle Aged, Neoplasm Staging, Barrett Esophagus genetics, Chromosomal Instability, Esophageal Neoplasms genetics, Gene Dosage

Abstract

Purpose: Chromosomal instability, as assessed by many techniques, including DNA content aneuploidy, loss of heterozygosity, and comparative genomic hybridization, has consistently been reported to be common in cancer and rare in normal tissues. Recently, a panel of chromosome instability biomarkers, including loss of heterozygosity and DNA content, has been reported to identify patients at high and low risk of progression from Barrett's esophagus (BE) to esophageal adenocarcinoma (EA), but required multiple platforms for implementation. Although chromosomal instability involving amplifications and deletions of chromosome regions have been observed in nearly all cancers, copy number alterations (CNA) in premalignant tissues have not been well characterized or evaluated in cohort studies as biomarkers of cancer risk., Experimental Design: We examined CNAs in 98 patients having either BE or EA using Bacterial Artificial Chromosome (BAC) array comparative genomic hybridization to characterize CNAs at different stages of progression ranging from early BE to advanced EA., Results: CNAs were rare in early stages (less than high-grade dysplasia) but were progressively more frequent and larger in later stages (high-grade dysplasia and EA), including high-level amplifications. The number of CNAs correlated highly with DNA content aneuploidy. Patients whose biopsies contained CNAs involving >70 Mbp were at increased risk of progression to DNA content abnormalities or EA (hazards ratio, 4.9; 95% confidence interval, 1.6-14.8; P = 0.0047), and the risk increased as more of the genome was affected., Conclusions: Genome-wide analysis of CNAs provides a common platform for the evaluation of chromosome instability for cancer risk assessment as well as for the identification of common regions of alteration that can be further studied for biomarker discovery.

Published

2009

18. Cell proliferation, cell cycle abnormalities, and cancer outcome in patients with Barrett's esophagus: a long-term prospective study.

Author

Chao DL, Sanchez CA, Galipeau PC, Blount PL, Paulson TG, Cowan DS, Ayub K, Odze RD, Rabinovitch PS, and Reid BJ

Subjects

Adenocarcinoma diagnosis, Adult, Aged, Cohort Studies, Esophageal Neoplasms etiology, Female, Genes, p16, Genes, p53, Humans, Ki-67 Antigen metabolism, Longitudinal Studies, Loss of Heterozygosity, Male, Middle Aged, Mutation, Prospective Studies, Adenocarcinoma pathology, Barrett Esophagus complications, Barrett Esophagus pathology, Cell Cycle, Cell Division, Esophageal Neoplasms pathology

Abstract

Purpose: Elevated cellular proliferation and cell cycle abnormalities, which have been associated with premalignant lesions, may be caused by inactivation of tumor suppressor genes. We measured proliferative and cell cycle fractions of biopsies from a cohort of patients with Barrett's esophagus to better understand the role of proliferation in early neoplastic progression and the association between cell cycle dysregulation and tumor suppressor gene inactivation., Experimental Design: Cell proliferative fractions (determined by Ki67/DNA multiparameter flow cytometry) and cell cycle fractions (DNA content flow cytometry) were measured in 853 diploid biopsies from 362 patients with Barrett's esophagus. The inactivation status of CDKN2A and TP53 was assessed in a subset of these biopsies in a cross-sectional study. A prospective study followed 276 of the patients without detectable aneuploidy for an average of 6.3 years with esophageal adenocarcinoma as an end point., Results: Diploid S and 4N (G(2)/tetraploid) fractions were significantly higher in biopsies with TP53 mutation and loss of heterozygosity. CDKN2A inactivation was not associated with higher Ki67-positive, diploid S, G(1), or 4N fractions. High Ki67-positive and G(1)-phase fractions were not associated with the future development of esophageal adenocarcinoma (P=0.13 and P=0.15, respectively), whereas high diploid S-phase and 4N fractions were (P=0.03 and P<0.0001, respectively)., Conclusions: High Ki67-positive proliferative fractions were not associated with inactivation of CDKN2A and TP53 or future development of cancer in our cohort of patients with Barrett's esophagus. Biallelic inactivation of TP53 was associated with elevated 4N fractions, which have been associated with the future development of esophageal adenocarcinoma.

Published

2008

19. p16 mutation spectrum in the premalignant condition Barrett's esophagus.

Author

Paulson TG, Galipeau PC, Xu L, Kissel HD, Li X, Blount PL, Sanchez CA, Odze RD, and Reid BJ

Subjects

Adult, Aged, Aged, 80 and over, Clone Cells, Cohort Studies, DNA Mutational Analysis, Esophagus pathology, Exons, Female, Humans, Male, Middle Aged, Young Adult, Barrett Esophagus genetics, Genes, p16, Mutation, Precancerous Conditions genetics

Abstract

Background: Mutation, promoter hypermethylation and loss of heterozygosity involving the tumor suppressor gene p16 (CDKN2a/INK4a) have been detected in a wide variety of human cancers, but much less is known concerning the frequency and spectrum of p16 mutations in premalignant conditions., Methods and Findings: We have determined the p16 mutation spectrum for a cohort of 304 patients with Barrett's esophagus, a premalignant condition that predisposes to the development of esophageal adenocarcinoma. Forty seven mutations were detected by sequencing of p16 exon 2 in 44 BE patients (14.5%) with a mutation spectrum consistent with that caused by oxidative damage and chronic inflammation. The percentage of patients with p16 mutations increased with increasing histologic grade. In addition, samples from 3 out of 19 patients (15.8%) who underwent esophagectomy were found to have mutations., Conclusions: The results of this study suggest the environment of the esophagus in BE patients can both generate and select for clones with p16 mutations.

Published

2008

20. Direct inference of SNP heterozygosity rates and resolution of LOH detection.

Author

Li X, Self SG, Galipeau PC, Paulson TG, and Reid BJ

Subjects

Animals, Base Sequence, Humans, Molecular Sequence Data, Chromosome Mapping methods, DNA Mutational Analysis methods, Loss of Heterozygosity genetics, Polymorphism, Single Nucleotide genetics, Sequence Analysis, DNA methods

Abstract

Single nucleotide polymorphisms (SNPs) have been increasingly utilized to investigate somatic genetic abnormalities in premalignancy and cancer. LOH is a common alteration observed during cancer development, and SNP assays have been used to identify LOH at specific chromosomal regions. The design of such studies requires consideration of the resolution for detecting LOH throughout the genome and identification of the number and location of SNPs required to detect genetic alterations in specific genomic regions. Our study evaluated SNP distribution patterns and used probability models, Monte Carlo simulation, and real human subject genotype data to investigate the relationships between the number of SNPs, SNP HET rates, and the sensitivity (resolution) for detecting LOH. We report that variances of SNP heterozygosity rate in dbSNP are high for a large proportion of SNPs. Two statistical methods proposed for directly inferring SNP heterozygosity rates require much smaller sample sizes (intermediate sizes) and are feasible for practical use in SNP selection or verification. Using HapMap data, we showed that a region of LOH greater than 200 kb can be reliably detected, with losses smaller than 50 kb having a substantially lower detection probability when using all SNPs currently in the HapMap database. Higher densities of SNPs may exist in certain local chromosomal regions that provide some opportunities for reliably detecting LOH of segment sizes smaller than 50 kb. These results suggest that the interpretation of the results from genome-wide scans for LOH using commercial arrays need to consider the relationships among inter-SNP distance, detection probability, and sample size for a specific study. New experimental designs for LOH studies would also benefit from considering the power of detection and sample sizes required to accomplish the proposed aims.

Published

2007

21. Mutagen sensitivity and neoplastic progression in patients with Barrett's esophagus: a prospective analysis.

Author

Chao DL, Maley CC, Wu X, Farrow DC, Galipeau PC, Sanchez CA, Paulson TG, Rabinovitch PS, Reid BJ, Spitz MR, and Vaughan TL

Subjects

Adenocarcinoma etiology, Adenocarcinoma genetics, Adult, Aged, Aneuploidy, Antibiotics, Antineoplastic pharmacology, Barrett Esophagus complications, Barrett Esophagus genetics, Biomarkers, Tumor analysis, Biomarkers, Tumor genetics, Bleomycin pharmacology, Chromosome Breakage drug effects, Chromosomes, Human, Pair 17 drug effects, Chromosomes, Human, Pair 17 genetics, Chromosomes, Human, Pair 9 drug effects, Chromosomes, Human, Pair 9 genetics, Disease Progression, Esophageal Neoplasms etiology, Esophageal Neoplasms genetics, Female, Follow-Up Studies, Gene Expression Regulation genetics, Genes, p16, Genes, p53 genetics, Genetic Predisposition to Disease, Humans, Loss of Heterozygosity, Male, Middle Aged, Precancerous Conditions genetics, Precancerous Conditions pathology, Prospective Studies, Sensitivity and Specificity, Adenocarcinoma pathology, Barrett Esophagus pathology, Esophageal Neoplasms pathology, Mutagens analysis

Abstract

Background: Defects in DNA damage recognition and repair have been associated with a wide variety of cancers. We conducted a prospective study to determine whether mutagen sensitivity, as determined by an in vitro assay, was associated with the future development of cancer in patients with Barrett's esophagus, which is associated with increased risk of progression to esophageal adenocarcinoma., Methods: We measured sensitivity to bleomycin in peripheral blood lymphocytes in a cohort of 220 patients with Barrett's esophagus. We followed these patients for 1,230 person-years (range, 3 months to 10.1 years; median, 6.4 years), using development of cancer and aneuploidy as end points. A subset of these patients was evaluated for inactivation of tumor-suppressor genes CDKN2A/p16 and TP53 [by mutation and loss of heterozygosity (LOH)] in their Barrett's segments at the time of, or before, the bleomycin test, and the patients were stratified by CDKN2A/p16 and TP53 status in an analysis of mutagen sensitivity and progression., Results: Bleomycin-sensitive patients were found to be at significantly greater risk of developing aneuploidy (adjusted hazard ratio, 3.71; 95% confidence interval, 1.44-9.53) and nonsignificantly greater risk of cancer (adjusted hazard ratio, 1.63; 95% confidence interval, 0.71-3.75). Among patients with detectable LOH at the TP53 locus (on chromosome 17p), increasing bleomycin sensitivity was associated with increased risk of developing cancer (P(trend) < 0.001) and aneuploidy (P(trend) = 0.005)., Conclusions: This study supports the hypothesis that sensitivity to mutagens increases the risk of neoplastic progression in persons with Barrett's esophagus, particularly those with 17p LOH including TP53.

Published

2006

22. Neosquamous epithelium does not typically arise from Barrett's epithelium.

Author

Paulson TG, Xu L, Sanchez C, Blount PL, Ayub K, Odze RD, and Reid BJ

Subjects

Aged, Barrett Esophagus genetics, Base Sequence, DNA Mutational Analysis, Epithelium metabolism, Female, Humans, Loss of Heterozygosity, Male, Microdissection, Barrett Esophagus pathology, Cyclin-Dependent Kinase Inhibitor p16 genetics, Epithelium pathology, Mutation genetics, Tumor Suppressor Protein p53 genetics

Abstract

Purpose: Neosquamous epithelium (NSE) can arise within Barrett's esophagus as a consequence of medical or surgical acid reduction therapy, as well as after endoscopic ablation. Morphologic studies have suggested that NSE can develop from adjacent squamous epithelium, submucosal gland ducts, or multipotent progenitor cell(s) that can give rise to either squamous or Barrett's epithelium, depending on the luminal environment. The cells responsible for Barrett's epithelium self-renewal are frequently mutated during neoplastic progression. If NSE arises from the same cells that self-renew the Barrett's epithelium, the two tissues should be clonally related and share genetic alterations; if NSE does not originate in the self-renewing Barrett's, NSE and Barrett's esophagus should be genetically independent., Experimental Design: We isolated islands of NSE and the surrounding Barrett's epithelium from 20 patients by microdissection and evaluated each tissue for genetic alterations in exon 2 of CDKN2A or exons 5 to 9 of the TP53 gene. Nine patients had p16 mutations and 11 had TP53 mutations within the Barrett's epithelium., Results: In 1 of 20 patients, a focus of NSE had a 146 bp deletion in p16 identical to that found in surrounding Barrett's epithelium. The NSE in the remaining 19 patients was wild-type for p16 or TP53., Conclusion: Our mutational data support the hypothesis that, in most circumstances, NSE originates in cells different from those responsible for self-renewal of Barrett's epithelium. However, in one case, NSE and Barrett's epithelium seem to have arisen from a progenitor cell that was capable of differentiating into either intestinal metaplasia or NSE.

Published

2006

23. The combination of genetic instability and clonal expansion predicts progression to esophageal adenocarcinoma.

Author

Maley CC, Galipeau PC, Li X, Sanchez CA, Paulson TG, Blount PL, and Reid BJ

Subjects

Adult, Aged, Aged, 80 and over, Aneuploidy, Cohort Studies, Disease Progression, Female, Genes, p16, Genes, p53 genetics, Genetic Predisposition to Disease, Humans, Loss of Heterozygosity, Male, Middle Aged, Adenocarcinoma genetics, Adenocarcinoma pathology, Barrett Esophagus genetics, Barrett Esophagus pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms pathology

Abstract

There is debate in the literature over the relative importance of genetic instability and clonal expansion during progression to cancer. Barrett's esophagus is a uniquely suited model to investigate neoplastic progression prospectively because periodic endoscopic biopsy surveillance is recommended for early detection of esophageal adenocarcinoma. We hypothesized that expansion of clones with genetic instability would predict progression to esophageal adenocarcinoma. We measured p16 (CDKN2A/INK4A) lesions (loss of heterozygosity, mutations, and CpG island methylation), p53 (TP53) lesions (loss of heterozygosity, mutation) and ploidy abnormalities (aneuploidy, tetraploidy) within each Barrett's esophagus segment of a cohort of 267 research participants, who were followed prospectively with cancer as an outcome. We defined the size of a lesion as the fraction of cells with the lesion multiplied by the length of the Barrett's esophagus segment. A Cox proportional hazards regression indicates that the sizes of clones with p53 loss of heterozygosity (relative risk = 1.27(x) for an x cm clone; 95% confidence interval, 1.07-1.50) or ploidy abnormalities (relative risk = 1.31(x) for an x cm clone; 95% confidence interval, 1.07-1.60) predict progression to esophageal adenocarcinoma better than the mere presence of such clones (likelihood ratio test, P < 0.01). Controlling for length of the Barrett's esophagus segment had little effect. The size of a clone with a p16 lesion is not a significant predictor of esophageal adenocarcinoma when we controlled for p53 loss of heterozygosity status. The combination of clonal expansion and genetic instability is a better predictor of cancer outcome than either alone. This implies that interventions that limit expansion of genetically unstable clones may reduce risk of progression to cancer.

Published

2004

24. Focus on Barrett's esophagus and esophageal adenocarcinoma.

Author

Paulson TG and Reid BJ

Subjects

Antineoplastic Agents therapeutic use, Barrett Esophagus etiology, Biomarkers, Tumor metabolism, Disease Progression, Esophageal Neoplasms metabolism, Esophageal Neoplasms therapy, Esophagogastric Junction pathology, Gastroesophageal Reflux complications, Gastroesophageal Reflux pathology, Humans, Adenocarcinoma pathology, Barrett Esophagus pathology, Esophageal Neoplasms pathology

Published

2004

25. Selectively advantageous mutations and hitchhikers in neoplasms: p16 lesions are selected in Barrett's esophagus.

Author

Maley CC, Galipeau PC, Li X, Sanchez CA, Paulson TG, and Reid BJ

Subjects

DNA Methylation, Disease Progression, Genes, p53 physiology, Humans, Loss of Heterozygosity, Ploidies, Barrett Esophagus genetics, Barrett Esophagus pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms pathology, Genes, p16 physiology, Mutation

Abstract

Neoplastic progression is an evolutionary process characterized by genomic instability and waves of clonal expansions carrying genetic and epigenetic lesions to fixation (100% of the cell population). However, an evolutionarily neutral lesion may also reach fixation if it spreads as a hitchhiker on a selective sweep. We sought to distinguish advantageous lesions from hitchhikers in the premalignant condition Barrett's esophagus. Patients (211) had biopsies taken at 2-cm intervals in their Barrett's segments. Purified epithelial cells were assayed for loss of heterozygosity and microsatellite shifts on chromosomes 9 and 17, sequence mutations in CDKN2A/MTS1/INK4a (p16) and TP53 (p53), and methylation of the p16 promoter. We measured the expanse of a lesion in a Barrett's segment as the proportion of proliferating cells that carried a lesion in that locus. We then selected the lesion having expanses >90% in the greatest number of patients as our first putative advantageous lesion. We filtered out hitchhikers by removing all expanses of other lesions that did not occur independent of the advantageous lesion. The entire process was repeated on the remaining expanses to identify additional advantageous lesions. p16 loss of heterozygosity, promoter methylation, and sequence mutations have strong, independent, advantageous effects on Barrett's cells early in progression. Second lesions in p16 and p53 are associated with later selective sweeps. Virtually all of the other lesion expansions, including microsatellite shifts, could be explained as hitchhikers on p16 lesion clonal expansions. These techniques can be applied to any neoplasm.

Published

2004

26. Extended lifespan of Barrett's esophagus epithelium transduced with the human telomerase catalytic subunit: a useful in vitro model.

Author

Palanca-Wessels MC, Klingelhutz A, Reid BJ, Norwood TH, Opheim KE, Paulson TG, Feng Z, and Rabinovitch PS

Subjects

Cell Adhesion, Cell Division, Chromosome Aberrations, Colony-Forming Units Assay, DNA-Binding Proteins, Epithelial Cells pathology, Flow Cytometry, Humans, In Situ Hybridization, Fluorescence, In Vitro Techniques, Karyotyping, Retroviridae genetics, Telomere metabolism, Transduction, Genetic, Transfection, Barrett Esophagus genetics, Barrett Esophagus pathology, Cell Transformation, Neoplastic pathology, Gene Expression Regulation, Enzymologic, Telomerase genetics

Abstract

As there has been no previous information on the consequences of telomerase expression in genetically altered, mortal cells derived from pre-malignant tissue, we sought to determine the effect of hTERT (human catalytic subunit of telomerase reverse transcriptase) transduction of pre-malignant cell strains from Barrett's esophagus that do not contain telomerase activity and possess a finite lifespan. Primary cultures of Barrett's esophageal epithelium transduced with a retrovirus containing hTERT were characterized by growth factor requirements, cytogenetics and flow cytometry. Expression of telomerase lengthened telomeres and greatly extended the lifespan of hTERT transduced (hTERT+) Barrett's esophagus cells. Growth factor dependency of the hTERT+ cultures remained largely similar to the parental cultures, although there was a modest increase in the ability to grow in agar. Chromosomal instability, measured by both karyotypic and FISH (fluorescence in situ hybridization) analyses, was reduced but not abrogated by hTERT transduction, suggesting that telomerase expression can enhance genomic stability. However, the persistence of residual instability gave rise to new clonal and non-clonal genetic variants, and in one hTERT+ culture a new DNA aneuploid population was observed, the only time such a ploidy shift has been seen in Barrett's cell strains in vitro. These in vitro observations are analogous to the clinical progression to aneuploidy that often precedes cancer in Barrett's esophagus, and suggest that reactivation of telomerase may be permissive for continued genetic evolution to cancer. Long-lived Barrett's esophagus epithelial cultures should provide a useful in vitro model for studies of neoplastic evolution and chemopreventive therapies.

Published

2003

27. p16(INK4a) lesions are common, early abnormalities that undergo clonal expansion in Barrett's metaplastic epithelium.

Author

Wong DJ, Paulson TG, Prevo LJ, Galipeau PC, Longton G, Blount PL, and Reid BJ

Subjects

Adult, Aged, Aged, 80 and over, Aneuploidy, Barrett Esophagus pathology, Biopsy, Chromosomes, Human, Pair 9, Clone Cells, CpG Islands, DNA Methylation, Epithelial Cells pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms pathology, Humans, Loss of Heterozygosity, Metaphase genetics, Middle Aged, Mutation, Precancerous Conditions genetics, Precancerous Conditions pathology, Barrett Esophagus genetics, Cyclin-Dependent Kinase Inhibitor p16 genetics

Abstract

Barrett's esophagus (BE) is the only known precursor to esophageal adenocarcinoma, a cancer of which the incidence has been increasing at an alarming rate in Western countries. p16(INK4a) lesions occur frequently in esophageal adenocarcinomas but their role in neoplastic progression is not well understood. We detected 9p21 loss of heterozygosity, p16 CpG island methylation, and p16 mutations in biopsies from 57%, 61%, and 15%, respectively, of 107 patients with BE. In contrast, no mutations were found in p14(ARF) or p15, and methylation was found in only 4% and 13%, respectively. >85% of Barrett's segments had clones with one (p16+/-) or two (p16-/-) p16 lesions. Both p16+/- and p16-/- clones underwent extensive expansion involving up to 17 cm of esophageal mucosa. The prevalence of established biomarkers in BE, such as 17p (p53) loss of heterozygosity, aneuploidy, and/or increased 4N (tetraploid) populations, increased from 0% to 20% to 44% in patients whose biopsies were p16+/+, p16+/-, and p16-/-, respectively (P < 0.001). Barrett's segment lengths also increased with change in p16 status with a median of 1.5, 6.0, and 8.0 cm for patients with p16+/+, p16+/-, and p16-/- biopsies, respectively (P < 0.001). We conclude that most Barrett's metaplasia contains genetic and/or epigenetic p16 lesions and has the ability to undergo clonal expansion, creating a field in which other abnormalities can arise that can lead to esophageal adenocarcinoma.

Published

2001

28. Loss of heterozygosity analysis using whole genome amplification, cell sorting, and fluorescence-based PCR.

Author

Paulson TG, Galipeau PC, and Reid BJ

Subjects

Alleles, Aneuploidy, Humans, Reproducibility of Results, Sensitivity and Specificity, Flow Cytometry methods, Fluorescent Dyes metabolism, Loss of Heterozygosity genetics, Nucleic Acid Amplification Techniques, Polymerase Chain Reaction methods

Abstract

Loss of heterozygosity (LOH) is a common genetic lesion found in many human neoplasms. Extending investigation of LOH to large-scale clinical and public health science studies has proven difficult because of the small size and cellular and genetic heterogeneity of human neoplasms, in addition to the challenges associated with increasing throughput. Our approach to LOH analysis was developed using clinical biopsy samples from patients with Barrett's esophagus (BE) and uses flow cytometric cell sorting to increase sample purity, whole genome amplification to increase sample amount, and automated fluorescent genotyping to increase sample throughput. This approach allows LOH assessment at 20 loci in DNA extracted from 1000 flow-purified cells while maintaining accurate and reproducible allele ratios compared with the standard method of using genomic DNA. This method of analysis should allow accurate, reproducible determination of allele ratios in a variety of human tumors and premalignant conditions.

Published

1999

29. Gene amplification in a p53-deficient cell line requires cell cycle progression under conditions that generate DNA breakage.

Author

Paulson TG, Almasan A, Brody LL, and Wahl GM

Subjects

Aspartic Acid analogs & derivatives, Aspartic Acid pharmacology, Cell Cycle, Cell Cycle Proteins metabolism, Drug Resistance, Humans, Methotrexate pharmacology, Models, Genetic, Nucleotides deficiency, Phosphonoacetic Acid analogs & derivatives, Phosphonoacetic Acid pharmacology, Selection, Genetic, Skin Neoplasms pathology, Tumor Cells, Cultured, DNA Damage, Fibrosarcoma pathology, Gene Amplification, Tetrahydrofolate Dehydrogenase genetics, Tumor Suppressor Protein p53 deficiency

Abstract

Amplification of genes involved in signal transduction and cell cycle control occurs in a significant fraction of human cancers. Loss of p53 function has been proposed to enable cells with gene amplification to arise spontaneously during growth in vitro. However, this conclusion derives from studies employing the UMP synthesis inhibitor N-phosphonacetyl-L-aspartate (PALA), which, in addition to selecting for cells containing extra copies of the CAD locus, enables p53-deficient cells to enter S phase and acquire the DNA breaks that initiate the amplification process. Thus, it has not been possible to determine if gene amplification occurs spontaneously or results from the inductive effects of the selective agent. The studies reported here assess whether p53 deficiency leads to spontaneous genetic instability by comparing cell cycle responses and amplification frequencies of the human fibrosarcoma cell line HT1080 when treated with PALA or with methotrexate, an antifolate that, under the conditions used, should not generate DNA breaks. p53-deficient HT1080 cells generated PALA-resistant variants containing amplified CAD genes at a frequency of >10(-5). By contrast, methotrexate selection did not result in resistant cells at a detectable frequency (<10(-9)). However, growth of HT1080 cells under conditions that induced DNA breakage prior to selection generated methotrexate-resistant clones containing amplified dihydrofolate reductase sequences at a high frequency. These data demonstrate that, under standard growth conditions, p53 loss is not sufficient to enable cells to produce the DNA breaks that initiate amplification. We propose that p53-deficient cells must proceed through S phase under conditions that induce DNA breakage for genetic instability to occur.

Published

1998

30. Microsatellite instability correlates with reduced survival and poor disease prognosis in breast cancer.

Author

Paulson TG, Wright FA, Parker BA, Russack V, and Wahl GM

Subjects

Humans, Prognosis, Breast Neoplasms genetics, Breast Neoplasms pathology, DNA, Neoplasm genetics, DNA, Satellite genetics, Microsatellite Repeats genetics

Abstract

Size changes in microsatellite sequences have been detected in many types of cancer, but the influence of this form of genetic instability on disease progression remains unclear. We determined the incidence of microsatellite instability in breast cancer by comparing PCR-amplified sequences from paraffin-embedded samples of normal and tumor tissue from affected individuals. This analysis showed that at least 30% of breast cancers exhibit microsatellite instability (MI). Of importance, MI correlated with indicators commonly associated with poor disease prognosis, including lymph node status, tumor size, and advanced tumor stage. Individuals with MI+ tumors also showed significantly reduced disease-free and overall survival. These data contrast with studies showing that MI correlates with improved prognosis in colon and gastric cancers. We propose that defects resulting in MI promote disease progression and result in a poor prognosis in breast cancer.

Published

1996