Differential Effects of β-catenin and NF-κB Interplay in the Regulation of Cell Proliferation, Inflammation and Tumorigenesis in Response to Bacterial Infection

Parthasarathy Chandrakesan,Laxmi Uma Maheswar Rao Jakkula,Ishfaq Ahmed,Shrikant Anant,Shahid Umar,Badal Roy

doi:10.1371/journal.pone.0079432

Parthasarathy Chandrakesan, Laxmi Uma Maheswar Rao Jakkula + Show 4 more

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https://doi.org/10.1371/journal.pone.0079432

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Abstract

Both β-catenin and NF-κB have been implicated in our laboratory as candidate factors in driving proliferation in an in vivo model of Citrobacter rodentium (CR)-induced colonic crypt hyper-proliferation and hyperplasia. Herein, we test the hypothesis that β-catenin and not necessarily NF-κB regulates colonic crypt hyperplasia or tumorigenesis in response to CR infection. When C57Bl/6 wild type (WT) mice were infected with CR, sequential increases in proliferation at days 9 and 12 plateaued off at day 19 and paralleled increases in NF-κB signaling. In Tlr4−/− (KO) mice, a sequential but sustained proliferation which tapered off only marginally at day 19, was associated with TLR4-dependent and independent increases in NF-κB signaling. Similarly, increases in either activated or total β-catenin in the colonic crypts of WT mice as early as day 3 post-infection coincided with cyclinD1 and c-myc expression and associated crypt hyperplasia. In KO mice, a delayed kinetics associated predominantly with increases in non-phosphorylated (active) β-catenin coincided with increases in cyclinD1, c-myc and crypt hyperplasia. Interestingly, PKCζ-catalyzed Ser-9 phosphorylation and inactivation of GSK-3β and not loss of wild type APC protein accounted for β-catenin accumulation and nuclear translocation in either strain. In vitro studies with Wnt2b and Wnt5a further validated the interplay between the Wnt/β-catenin and NF-κB pathways, respectively. When WT or KO mice were treated with nanoparticle-encapsulated siRNA to β-catenin (si- β-Cat), almost complete loss of nuclear β-catenin coincided with concomitant decreases in CD44 and crypt hyperplasia without defects in NF-κB signaling. si-β-Cat treatment to Apc Min/+ mice attenuated CR-induced increases in β-catenin and CD44 that halted the growth of mutated crypts without affecting NF-κB signaling. The predominant β-catenin-induced crypt proliferation was further validated in a Castaneus strain (B6.CAST.11M) that exhibited significant crypt hyperplasia despite an attenuated NF-κB signaling. Thus, β-catenin and not necessarily NF-κB regulates crypt hyperplasia in response to bacterial infection.

Highlights

Both b-catenin and NF-kB proteins are important regulators of gene expression and cellular proliferation. b-catenin is a ubiquitously expressed protein that acts as an adhesion molecule by mediating the association of E-cadherin with the cytoskeleton [1,2] and is a critical downstream component of the Wnt pathway [3,4,5]
We recently showed that NF-kB activation in response to Citrobacter rodentium (CR) infection was dependent upon signaling via toll like receptor-4 (TLR4) [41]
We observed significant increases in cellular levels of TLR4 in the colonic crypts of CR infected mice suggesting critical role(s) for TLR4 in transducing signals in response to CR infection

Summary

Introduction

Both b-catenin and NF-kB proteins are important regulators of gene expression and cellular proliferation. b-catenin is a ubiquitously expressed protein that acts as an adhesion molecule by mediating the association of E-cadherin with the cytoskeleton [1,2] and is a critical downstream component of the Wnt pathway [3,4,5]. Wnt proteins are ,40 kDa in size and contain many conserved cysteines [6] Wnt ligands produce their effects through activation of one of a dozen different signaling pathways [7]. Multiple studies have demonstrated a regulatory cross-talk between canonical and non-canonical pathways wherein, Wnt5a has been shown to induce a non-canonical pathway that inhibits canonical Wnt signaling. This observation has been made both in vivo and in vitro, including hematopoietic stem cells [8,9]. Wnt5a inhibits b-catenin-dependent activity when its signal is mediated by the orphan tyrosine kinase receptor Ror2 [11]. It activates b-catenin-dependent signaling when it signals through the co-receptors Fzd and LRP5

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