A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways

Mohammed Nabil Quraishi; Animesh Acharjee; Andrew D Beggs; Richard Horniblow; Chris Tselepis; Georgios Gkoutos; Subrata Ghosh; Amanda Rossiter; Nicholas Loman; Willem van Schaik; David Withers; Julian R F Walters; Gideon M Hirschfield; Tariq H Iqbal

doi:10.1093/ecco-jcc/jjaa021

A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways

Mohammed Nabil Quraishi, Animesh Acharjee, Andrew D Beggs, Richard Horniblow, Chris Tselepis, Georgios Gkoutos, Subrata Ghosh, Amanda Rossiter, Nicholas Loman, Willem van Schaik, David Withers, Julian R F Walters, Gideon M Hirschfield, Tariq H Iqbal

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Abstract

BACKGROUND: Although a majority of patients with PSC have colitis [PSC-IBD; primary sclerosing cholangitis-inflammatory bowel disease], this is phenotypically different from ulcerative colitis [UC]. We sought to define further the pathophysiological differences between PSC-IBD and UC, by applying a comparative and integrative approach to colonic gene expression, gut microbiota and immune infiltration data.

METHODS: Colonic biopsies were collected from patients with PSC-IBD [n = 10], UC [n = 10], and healthy controls [HC; n = 10]. Shotgun RNA-sequencing for differentially expressed colonic mucosal genes [DEGs], 16S rRNA analysis for microbial profiling, and immunophenotyping were performed followed by multi-omic integration.

RESULTS: The colonic transcriptome differed significantly between groups [p = 0.01]. Colonic transcriptomes from HC were different from both UC [1343 DEGs] and PSC-IBD [4312 DEGs]. Of these genes, only 939 had shared differential gene expression in both UC and PSC-IBD compared with HC. Imputed pathways were predominantly associated with upregulation of immune response and microbial defense in both disease cohorts compared with HC. There were 1692 DEGs between PSC-IBD and UC. Bile acid signalling pathways were upregulated in PSC-IBD compared with UC [p = 0.02]. Microbiota profiles were different between the three groups [p = 0.01]; with inferred function in PSC-IBD also being consistent with dysregulation of bile acid metabolism. Th17 cells and IL17-producing CD4 cells were increased in both PSC-IBD and UC when compared with HC [p < 0.05]. Multi-omic integration revealed networks involved in bile acid homeostasis and cancer regulation in PSC-IBD.

CONCLUSIONS: Colonic transcriptomic and microbiota analysis in PSC-IBD point toward dysregulation of colonic bile acid homeostasis compared with UC. This highlights important mechanisms and suggests the possibility of novel approaches in treating PSC-IBD.

Original language	English
Pages (from-to)	935-947
Number of pages	13
Journal	Journal of Crohn's & Colitis
Volume	14
Issue number	7
Early online date	4 Feb 2020
DOIs	https://doi.org/10.1093/ecco-jcc/jjaa021
Publication status	Published - Jul 2020

Keywords

Autoimmune liver disease
bioinformatics
colitis
dysbiosis

ASJC Scopus subject areas

Gastroenterology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Understanding the molecular basis and consequences of chemoradiosensitivity in rectal cancer in order to improve tharapy (MOL-RSRC)
Middleton, G., Cazier, J. & Beggs, A.
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Quraishi, M. N., Acharjee, A., Beggs, A. D., Horniblow, R., Tselepis, C., Gkoutos, G., Ghosh, S., Rossiter, A., Loman, N., van Schaik, W., Withers, D., Walters, J. R. F., Hirschfield, G. M., & Iqbal, T. H. (2020). A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways. Journal of Crohn's & Colitis, 14(7), 935-947. https://doi.org/10.1093/ecco-jcc/jjaa021

@article{e4d2f44eb3604b9a9e9f8c117c5864c5,

title = "A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways",

abstract = "BACKGROUND: Although a majority of patients with PSC have colitis [PSC-IBD; primary sclerosing cholangitis-inflammatory bowel disease], this is phenotypically different from ulcerative colitis [UC]. We sought to define further the pathophysiological differences between PSC-IBD and UC, by applying a comparative and integrative approach to colonic gene expression, gut microbiota and immune infiltration data. METHODS: Colonic biopsies were collected from patients with PSC-IBD [n = 10], UC [n = 10], and healthy controls [HC; n = 10]. Shotgun RNA-sequencing for differentially expressed colonic mucosal genes [DEGs], 16S rRNA analysis for microbial profiling, and immunophenotyping were performed followed by multi-omic integration. RESULTS: The colonic transcriptome differed significantly between groups [p = 0.01]. Colonic transcriptomes from HC were different from both UC [1343 DEGs] and PSC-IBD [4312 DEGs]. Of these genes, only 939 had shared differential gene expression in both UC and PSC-IBD compared with HC. Imputed pathways were predominantly associated with upregulation of immune response and microbial defense in both disease cohorts compared with HC. There were 1692 DEGs between PSC-IBD and UC. Bile acid signalling pathways were upregulated in PSC-IBD compared with UC [p = 0.02]. Microbiota profiles were different between the three groups [p = 0.01]; with inferred function in PSC-IBD also being consistent with dysregulation of bile acid metabolism. Th17 cells and IL17-producing CD4 cells were increased in both PSC-IBD and UC when compared with HC [p < 0.05]. Multi-omic integration revealed networks involved in bile acid homeostasis and cancer regulation in PSC-IBD. CONCLUSIONS: Colonic transcriptomic and microbiota analysis in PSC-IBD point toward dysregulation of colonic bile acid homeostasis compared with UC. This highlights important mechanisms and suggests the possibility of novel approaches in treating PSC-IBD.",

keywords = "Autoimmune liver disease, bioinformatics, colitis, dysbiosis",

author = "Quraishi, {Mohammed Nabil} and Animesh Acharjee and Beggs, {Andrew D} and Richard Horniblow and Chris Tselepis and Georgios Gkoutos and Subrata Ghosh and Amanda Rossiter and Nicholas Loman and {van Schaik}, Willem and David Withers and Walters, {Julian R F} and Hirschfield, {Gideon M} and Iqbal, {Tariq H}",

year = "2020",

month = jul,

doi = "10.1093/ecco-jcc/jjaa021",

language = "English",

volume = "14",

pages = "935--947",

journal = "Journal of Crohn's & Colitis",

issn = "1873-9946",

publisher = "Oxford University Press",

number = "7",

}

Quraishi, MN, Acharjee, A , Beggs, AD , Horniblow, R , Tselepis, C , Gkoutos, G, Ghosh, S, Rossiter, A, Loman, N, van Schaik, W , Withers, D, Walters, JRF, Hirschfield, GM & Iqbal, TH 2020, 'A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways', Journal of Crohn's & Colitis, vol. 14, no. 7, pp. 935-947. https://doi.org/10.1093/ecco-jcc/jjaa021

A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease : association of disease with bile acid pathways. / Quraishi, Mohammed Nabil; Acharjee, Animesh ; Beggs, Andrew D et al.

In: Journal of Crohn's & Colitis, Vol. 14, No. 7, 07.2020, p. 935-947.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease

T2 - association of disease with bile acid pathways

AU - Quraishi, Mohammed Nabil

AU - Acharjee, Animesh

AU - Beggs, Andrew D

AU - Horniblow, Richard

AU - Tselepis, Chris

AU - Gkoutos, Georgios

AU - Ghosh, Subrata

AU - Rossiter, Amanda

AU - Loman, Nicholas

AU - van Schaik, Willem

AU - Withers, David

AU - Walters, Julian R F

AU - Hirschfield, Gideon M

AU - Iqbal, Tariq H

PY - 2020/7

Y1 - 2020/7

N2 - BACKGROUND: Although a majority of patients with PSC have colitis [PSC-IBD; primary sclerosing cholangitis-inflammatory bowel disease], this is phenotypically different from ulcerative colitis [UC]. We sought to define further the pathophysiological differences between PSC-IBD and UC, by applying a comparative and integrative approach to colonic gene expression, gut microbiota and immune infiltration data. METHODS: Colonic biopsies were collected from patients with PSC-IBD [n = 10], UC [n = 10], and healthy controls [HC; n = 10]. Shotgun RNA-sequencing for differentially expressed colonic mucosal genes [DEGs], 16S rRNA analysis for microbial profiling, and immunophenotyping were performed followed by multi-omic integration. RESULTS: The colonic transcriptome differed significantly between groups [p = 0.01]. Colonic transcriptomes from HC were different from both UC [1343 DEGs] and PSC-IBD [4312 DEGs]. Of these genes, only 939 had shared differential gene expression in both UC and PSC-IBD compared with HC. Imputed pathways were predominantly associated with upregulation of immune response and microbial defense in both disease cohorts compared with HC. There were 1692 DEGs between PSC-IBD and UC. Bile acid signalling pathways were upregulated in PSC-IBD compared with UC [p = 0.02]. Microbiota profiles were different between the three groups [p = 0.01]; with inferred function in PSC-IBD also being consistent with dysregulation of bile acid metabolism. Th17 cells and IL17-producing CD4 cells were increased in both PSC-IBD and UC when compared with HC [p < 0.05]. Multi-omic integration revealed networks involved in bile acid homeostasis and cancer regulation in PSC-IBD. CONCLUSIONS: Colonic transcriptomic and microbiota analysis in PSC-IBD point toward dysregulation of colonic bile acid homeostasis compared with UC. This highlights important mechanisms and suggests the possibility of novel approaches in treating PSC-IBD.

AB - BACKGROUND: Although a majority of patients with PSC have colitis [PSC-IBD; primary sclerosing cholangitis-inflammatory bowel disease], this is phenotypically different from ulcerative colitis [UC]. We sought to define further the pathophysiological differences between PSC-IBD and UC, by applying a comparative and integrative approach to colonic gene expression, gut microbiota and immune infiltration data. METHODS: Colonic biopsies were collected from patients with PSC-IBD [n = 10], UC [n = 10], and healthy controls [HC; n = 10]. Shotgun RNA-sequencing for differentially expressed colonic mucosal genes [DEGs], 16S rRNA analysis for microbial profiling, and immunophenotyping were performed followed by multi-omic integration. RESULTS: The colonic transcriptome differed significantly between groups [p = 0.01]. Colonic transcriptomes from HC were different from both UC [1343 DEGs] and PSC-IBD [4312 DEGs]. Of these genes, only 939 had shared differential gene expression in both UC and PSC-IBD compared with HC. Imputed pathways were predominantly associated with upregulation of immune response and microbial defense in both disease cohorts compared with HC. There were 1692 DEGs between PSC-IBD and UC. Bile acid signalling pathways were upregulated in PSC-IBD compared with UC [p = 0.02]. Microbiota profiles were different between the three groups [p = 0.01]; with inferred function in PSC-IBD also being consistent with dysregulation of bile acid metabolism. Th17 cells and IL17-producing CD4 cells were increased in both PSC-IBD and UC when compared with HC [p < 0.05]. Multi-omic integration revealed networks involved in bile acid homeostasis and cancer regulation in PSC-IBD. CONCLUSIONS: Colonic transcriptomic and microbiota analysis in PSC-IBD point toward dysregulation of colonic bile acid homeostasis compared with UC. This highlights important mechanisms and suggests the possibility of novel approaches in treating PSC-IBD.

KW - Autoimmune liver disease

KW - bioinformatics

KW - colitis

KW - dysbiosis

UR - http://www.scopus.com/inward/record.url?scp=85089126060&partnerID=8YFLogxK

U2 - 10.1093/ecco-jcc/jjaa021

DO - 10.1093/ecco-jcc/jjaa021

M3 - Article

C2 - 32016358

SN - 1873-9946

VL - 14

SP - 935

EP - 947

JO - Journal of Crohn's & Colitis

JF - Journal of Crohn's & Colitis

IS - 7

ER -

Quraishi MN, Acharjee A , Beggs AD , Horniblow R , Tselepis C , Gkoutos G et al. A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways. Journal of Crohn's & Colitis. 2020 Jul;14(7):935-947. Epub 2020 Feb 4. doi: 10.1093/ecco-jcc/jjaa021

A pilot integrative analysis of colonic gene expression, gut microbiota, and immune infiltration in primary sclerosing cholangitis-inflammatory bowel disease: association of disease with bile acid pathways

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

Fingerprint

Projects

Understanding the molecular basis and consequences of chemoradiosensitivity in rectal cancer in order to improve tharapy (MOL-RSRC)

Cite this