TY - JOUR
T1 - Mucosal gene expression in pediatric and adult patients with ulcerative colitis permits modeling of ideal biopsy collection strategy for transcriptomic analysis
AU - BCH IBD Center
AU - BWH Crohn's and Colitis Center
AU - Ouahed, Jodie
AU - Gordon, William
AU - Canavan, James B.
AU - Zhou, Huanyu
AU - Du, Sarah
AU - von Schack, David
AU - Phillips, Kathleen
AU - Wang, Lu
AU - Augustine Dunn, W.
AU - Field, Michael
AU - Friel, Shelby
AU - Griffith, Alexandra
AU - Evans, Spencer
AU - Tollefson, Sophia
AU - Carrellas, Madeline
AU - Cao, Bonnie
AU - Merker, Ami
AU - Bousvaros, Athos
AU - Shouval, Dror S.
AU - Hung, Kenneth
AU - Lepsy, Christopher
AU - Afzelius, Lovisa
AU - Korzenik, Joshua R.
AU - Snapper, Scott B.
AU - Ballal, Sonia
AU - Bonilla, Silvana
AU - Fawaz, Rima
AU - Flores, Alejandro
AU - Fox, Victor
AU - Grover, Amit
AU - Higuchi, Leslie
AU - Huh, Susanna
AU - Kahn, Stacy
AU - Lee, Christine
AU - Mobassaleh, Munir
AU - Regan, Brian
AU - Rufo, Paul
AU - Sabharwal, Sabina
AU - Verhave, Menno
AU - Wolf, Anne
AU - Zimmerman, Lori
AU - Zitomersky, Naamah
AU - Allegretti, Jessica R.
AU - De Silva, Disentuwahandi Punyanganie
AU - Friedman, Sonia
AU - Hamilton, Matthew
AU - Makrauer, Frederick
N1 - Publisher Copyright:
© 2018 Crohn's & Colitis Foundation. Published by Oxford University Press. All rights reserved.
PY - 2018/12/1
Y1 - 2018/12/1
N2 - Background: Transcriptional profiling has been performed on biopsies from ulcerative colitis patients. Limitations in prior studies include the variability introduced by inflammation, anatomic site of biopsy, extent of disease, and medications. We sought to more globally understand the variability of gene expression from patients with ulcerative colitis to advance our understanding of its pathogenesis and to guide clinical study design. Methods: We performed transcriptional profiling on 13 subjects, including pediatric and adult patients from 2 hospital sites. For each patient, we collected 6 biopsies from macroscopically inflamed tissue and 4 biopsies from macroscopically healthy-appearing tissue. Isolated RNA was used for microarray gene expression analysis utilizing Affymetrix Human Primeview microarrays. Ingenuity pathway analysis was used to assess over-representation of gene ontology and biological pathways. RNAseq was also performed, and differential analysis was assessed to compare affected vs unaffected samples. Finally, we modeled the minimum number of biopsies required to reliably detect gene expression across different subject numbers. Results: Transcriptional profiles co-clustered independently of the hospital collection site, patient age, sex, and colonic location, which parallels prior gene expression findings. A small set of genes not previously described was identified. Our modeling analysis reveals the number of biopsies and patients per cohort to yield reliable results in clinical studies. Conclusions: Key findings include concordance, including some expansion, of previously published gene expression studies and similarity among different age groups. We also established a reliable statistical model for biopsy collection for future clinical studies.
AB - Background: Transcriptional profiling has been performed on biopsies from ulcerative colitis patients. Limitations in prior studies include the variability introduced by inflammation, anatomic site of biopsy, extent of disease, and medications. We sought to more globally understand the variability of gene expression from patients with ulcerative colitis to advance our understanding of its pathogenesis and to guide clinical study design. Methods: We performed transcriptional profiling on 13 subjects, including pediatric and adult patients from 2 hospital sites. For each patient, we collected 6 biopsies from macroscopically inflamed tissue and 4 biopsies from macroscopically healthy-appearing tissue. Isolated RNA was used for microarray gene expression analysis utilizing Affymetrix Human Primeview microarrays. Ingenuity pathway analysis was used to assess over-representation of gene ontology and biological pathways. RNAseq was also performed, and differential analysis was assessed to compare affected vs unaffected samples. Finally, we modeled the minimum number of biopsies required to reliably detect gene expression across different subject numbers. Results: Transcriptional profiles co-clustered independently of the hospital collection site, patient age, sex, and colonic location, which parallels prior gene expression findings. A small set of genes not previously described was identified. Our modeling analysis reveals the number of biopsies and patients per cohort to yield reliable results in clinical studies. Conclusions: Key findings include concordance, including some expansion, of previously published gene expression studies and similarity among different age groups. We also established a reliable statistical model for biopsy collection for future clinical studies.
KW - Endoscopy
KW - Genetics and molecular epidemiology
KW - Pediatrics
UR - http://www.scopus.com/inward/record.url?scp=85057542052&partnerID=8YFLogxK
U2 - 10.1093/IBD/IZY242
DO - 10.1093/IBD/IZY242
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C2 - 30085215
AN - SCOPUS:85057542052
SN - 1078-0998
VL - 24
SP - 2565
EP - 2578
JO - Inflammatory Bowel Diseases
JF - Inflammatory Bowel Diseases
IS - 12
ER -