Blimp1/Prdm1 Functions in Opposition to Irf1 to Maintain Neonatal Tolerance during Postnatal Intestinal Maturation

Blimp1/Prdm1 Functions in Opposition to Irf1 to Maintain Neonatal Tolerance during Postnatal Intestinal Maturation

The neonatal intestine is a very complex and dynamic organ that must rapidly adapt and remodel in response to a barrage of environmental stimuli during the first few postnatal weeks. Recent studies demonstrate that the zinc finger transcriptional repressor Blimp1/Prdm1 plays an essential role govern...

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Bibliographic Details
Published in:PLoS genetics Vol. 11; no. 7; p. e1005375
Main Authors: Mould, Arne W, Morgan, Marc A J, Nelson, Andrew C, Bikoff, Elizabeth K, Robertson, Elizabeth J
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-07-2015
Public Library of Science (PLoS)
Subjects:
Animals
Binding sites
Cell Differentiation - genetics
Cell Line, Tumor
Datasets
Developmental biology
Enterocytes - cytology
Experiments
Female
Fibroblasts
Gene expression
Gene Expression Regulation, Developmental
Gene Knock-In Techniques
Genomes
Genomics
Grants
Green Fluorescent Proteins - genetics
Histocompatibility Antigens Class I - immunology
Humans
Interferon
Interferon Regulatory Factor-1 - genetics
Interferon Regulatory Factor-1 - metabolism
Intestinal Mucosa - growth & development
Intestinal Mucosa - metabolism
Metabolism
Mice
Placenta - cytology
Placenta - metabolism
Positive Regulatory Domain I-Binding Factor 1
Pregnancy
Promoter Regions, Genetic - genetics
Proteins
Regulatory Elements, Transcriptional - genetics
Small intestine
Transcription Factors - genetics
Transcription Factors - metabolism
Weaning
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Summary:The neonatal intestine is a very complex and dynamic organ that must rapidly adapt and remodel in response to a barrage of environmental stimuli during the first few postnatal weeks. Recent studies demonstrate that the zinc finger transcriptional repressor Blimp1/Prdm1 plays an essential role governing postnatal reprogramming of intestinal enterocytes during this period. Functional loss results in global changes in gene expression patterns, particularly in genes associated with metabolic function. Here we engineered a knock-in allele expressing an eGFP-tagged fusion protein under control of the endogenous regulatory elements and performed genome wide ChIP-seq analysis to identify direct Blimp1 targets and further elucidate the function of Blimp1 in intestinal development. Comparison with published human and mouse datasets revealed a highly conserved core set of genes including interferon-inducible promoters. Here we show that the interferon-inducible transcriptional activator Irf1 is constitutively expressed throughout fetal and postnatal intestinal epithelium development. ChIP-seq demonstrates closely overlapping Blimp1 and Irf1 peaks at key components of the MHC class I pathway in fetal enterocytes. The onset of MHC class I expression coincides with down-regulated Blimp1 expression during the suckling to weaning transition. Collectively, these experiments strongly suggest that in addition to regulating the enterocyte metabolic switch, Blimp1 functions as a gatekeeper in opposition to Irf1 to prevent premature activation of the MHC class I pathway in villus epithelium to maintain tolerance in the neonatal intestine.
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Conceived and designed the experiments: AWM MAJM EKB EJR. Performed the experiments: AWM MAJM EKB EJR. Analyzed the data: AWM MAJM ACN EKB. Contributed reagents/materials/analysis tools: ACN. Wrote the paper: AWM EKB.
Current address: Department of Biochemistry and Molecular Genetics, Feinberg School of Medicine, Northwestern University, Chicago, Illinois, United States of America
The authors have declared that no competing interests exist.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1005375