Divergent Innate and Epithelial Functions of the RNA-Binding Protein HuR in Intestinal Inflammation.

Eleni Christodoulou-Vafeiadou,Anastasios D Papanastasiou,Fotis Ioakeimidis,Dimitris L Kontoyiannis,George Stamatakis,Ioannis Karakasiliotis,Martin Reczko,Giorgos Giagkas,Margarita Andreadou,Martina Samiotaki

doi:10.3389/fimmu.2018.02732

Eleni Christodoulou-Vafeiadou, Anastasios D Papanastasiou + Show 8 more

Open Access

https://doi.org/10.3389/fimmu.2018.02732

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Abstract

HuR is an abundant RNA-binding protein acting as a post-transcriptional regulator of many RNAs including mRNAs encoding inflammatory mediators, cytokines, death signalers and cell cycle regulators. In the context of intestinal pathologies, elevated HuR is considered to enhance the stability and the translation of pro-tumorigenic mRNAs providing the rationale for its pharmacological targeting. However, HuR also possesses specific regulatory functions for innate immunity and cytokine mRNA control which can oppose intestinal inflammation and tumor promotion. Here, we aim to identify contexts of intestinal inflammation where the innate immune and the epithelial functions of HuR converge or diverge. To address this, we use a disease-oriented phenotypic approach using mice lacking HuR either in intestinal epithelia or myeloid-derived immune compartments. These mice were compared for their responses to (a) Chemically induced Colitis; (b) Colitis- associated Cancer (CAC); (c) T-cell mediated enterotoxicity; (d) Citrobacter rodentium-induced colitis; and (e) TNF-driven inflammatory bowel disease. Convergent functions of epithelial and myeloid HuR included their requirement for suppressing inflammation in chemically induced colitis and their redundancies in chronic TNF-driven IBD and microbiota control. In the other contexts however, their functions diversified. Epithelial HuR was required to protect the epithelial barrier from acute inflammatory or infectious degeneration but also to promote tumor growth. In contrast, myeloid HuR was required to suppress the beneficial inflammation for pathogen clearance and tumor suppression. This cellular dichotomy in HuR's functions was validated further in mice engineered to express ubiquitously higher levels of HuR which displayed diminished pathologic and beneficial inflammatory responses, resistance to epithelial damage yet a heightened susceptibility to CAC. Our study demonstrates that epithelial and myeloid HuR affect different cellular dynamics in the intestine that need to be carefully considered for its pharmacological exploitation and points toward potential windows for harnessing HuR functions in intestinal inflammation.

Highlights

The effective post-transcriptional control of mRNAs involved in mucosal responses and immunity by specific RNA-binding proteins is emerging as important for the homeostasis of intestinal epithelial barrier [1]
To dissect the functions of HuR in intestinal inflammation, we compared the effects of its deletion in intestinal epithelium to those incurred by its deletion in myeloid-derived immune compartments
This entailed the comparative analyses of mice harboring a loxP flanked Elavl1fl/fl allele [46] rendered as inactive either (a) in intestinal epithelial cells by means of a Cre gene driven by a Villin promoter (VillinCre+Elavl1fl/fl named hereafter as IEC-HuRko mice); or (b) in myeloid-derived cells by means of a Cre driven by a Lysozyme M promoter (LysMCre+Elavlfl/fl named hereafter as M-HuRko mice;) [20]

Summary

Introduction

The effective post-transcriptional control of mRNAs involved in mucosal responses and immunity by specific RNA-binding proteins is emerging as important for the homeostasis of intestinal epithelial barrier [1]. As exemplified by the paradigm of the ARE-containing TNF mRNA [2,3,4,5], such mRNAs encode for a variety of factors relevant to the responses of the intestinal mucosa and are targeted by a class of RNA binding proteins (RBPs) such as the decay promoting family of Zfp proteins and hnRNPD/AUF1; translational inhibitors like TIA1 and TIAR; several associated factors and non-coding RNAs; and the pleiotropic factor Elavl1/HuR Most of these AREassociated factors have gained attention as post-transcriptional modifiers in immunopathology [2], Elavl1/HuR is a well-studied example of clinical relevance to intestinal diseases. The expanding list of tissue restricted mouse mutations [15,16,17,18,19,20,21,22,23,24] reveal that HuR can have-sometimes unpredictable—tissue and signal restricted functions

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