A.R. Rao scite author profile

Epithelia of the vertebrate intestinal tract characteristically maintain an inflammatory hyporesponsiveness toward the lumenal prokaryotic microflora. We report the identification of enteric organisms (nonvirulent Salmonella strains) whose direct interaction with model human epithelia attenuate synthesis of inflammatory effector molecules elicited by diverse proinflammatory stimuli. This immunosuppressive effect involves inhibition of the inhibitor kappaB/nuclear factor kappaB (IkappaB/NF-kappaB) pathway by blockade of IkappaB-alpha degradation, which prevents subsequent nuclear translocation of active NF-kappaB dimer. Although phosphorylation of IkappaB-alpha occurs, subsequent polyubiquitination necessary for regulated IkappaB-alpha degradation is completely abrogated. These data suggest that prokaryotic determinants could be responsible for the unique tolerance of the gastrointestinal mucosa to proinflammatory stimuli.

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Laminar Flow Induction of Antioxidant Response Element-mediated Genes in Endothelial Cells

Chen¹,

Varner²,

Rao³

et al. 2003

Journal of Biological Chemistry

306

212

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Atherosclerotic lesions preferentially develop in areas of the vasculature exposed to nonlaminar blood flow and low fluid shear stress, whereas laminar flow and high fluid shear stress are athero-protective. We have identified a set of genes including NAD(P)H:quinone oxidoreductase-1 (NQO1), heme oxygenase-1 (HO-1), ferritin (heavy and light chains), microsomal epoxide hydrolase, glutathione S-transferase, and ␥-glutamylcysteine Vascular endothelial cells are exposed to a tangential shearing force resulting from the flow of blood over the lumenal surface of the vessel wall (1). The nature and magnitude of this fluid shear stress play a key role in the maintenance of vascular integrity and in the development of vascular diseases. For example, the nonrandom distribution of atherosclerotic lesions is due at least in part to local alterations in hemodynamic forces impinging on the vasculature (2-4). At sites vulnerable to lesion formation such as branch points, bifurcations, and curvatures, unidirectional laminar flow is disturbed, with areas characterized by complex flow patterns such as nonlaminar flow and flow reversal. In contrast, lesion-protected areas of the vasculature are characterized by more uniform laminar flow patterns with relatively high levels of fluid shear stress (2-4).

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Salmonella typhimurium induces epithelial IL-8 expression via Ca2+-mediated activation of the NF-κB pathway

Gewirtz¹,

Rao²,

Simon³

et al. 2000

J. Clin. Invest.

201

170

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Crosstalk between NF-κB and β-catenin pathways in bacterial-colonized intestinal epithelial cells

Sun

Hobert

Duan

et al. 2005

American Journal of Physiology-Gastrointestinal and Liver Physi

118

123

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Salmonella-epithelial cell interactions are known to activate the proinflammatory NF-kappaB signaling pathway and have recently been found to also influence the beta-catenin signaling pathway, an important regulator of epithelial cell proliferation and differentiation. Here, using polarized epithelial cell models, we demonstrate that these same bacteria-mediated effects also direct the molecular crosstalk between the NF-kappaB and beta-catenin signaling pathways. Convergence of these two pathways is a result of the direct interaction between the NF-kappaB p50 subunit and beta-catenin. We show that PhoP(c), the avirulent derivative of a wild-type Salmonella strain, attenuates NF-kappaB activity by stabilizing the association of beta-catenin with NF-kappaB. In cell lines expressing constitutively active beta-catenin, IkappaBalpha protein was indirectly stabilized and NF-kappaB activity was repressed after wild-type Salmonella colonization. Accordingly, constitutively active beta-catenin was found to inhibit the secretion of IL-8. Thus our findings strongly suggest that the crosstalk between the beta-catenin and NF-kappaB signaling pathways is an important regulator of intestinal inflammation.

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Bacterial activation of β-catenin signaling in human epithelia

Sun¹,

Hobert²,

Rao³

et al. 2004

American Journal of Physiology-Gastrointestinal and Liver Physi

104

108

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The mucosal lining of the human intestine is constantly bathed in a milieu of commensal gut flora, the vast majority of these being nonpathogenic microorganisms. Here, we demonstrate that microbial-epithelial cell interactions not only affect proinflammatory pathways but also influence beta-catenin signaling, a key component in regulating epithelial cell proliferation. The nonpathogenic Salmonella strain PhoP(c) activates the beta-catenin signaling pathway of human epithelia via a blockade of beta-catenin degradation. Normal beta-catenin ubiquitination necessary for constitutive beta-catenin degradation is abolished, allowing the accumulation and translocation of beta-catenin to the nucleus. Transcriptional activation mediated by the beta-catenin/T cell factor complex increases c-myc expression and enhances cell proliferation. We also show that the Salmonella effector protein AvrA is involved in modulating this beta-catenin activation. These data suggest that nonvirulent bacterial-epithelial interactions can influence beta-catenin signaling and cell growth control in a manner previously unsuspected.

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A.R. Rao

Prokaryotic Regulation of Epithelial Responses by Inhibition of IκB-α Ubiquitination

Laminar Flow Induction of Antioxidant Response Element-mediated Genes in Endothelial Cells

Salmonella typhimurium induces epithelial IL-8 expression via Ca2+-mediated activation of the NF-κB pathway

Crosstalk between NF-κB and β-catenin pathways in bacterial-colonized intestinal epithelial cells

Bacterial activation of β-catenin signaling in human epithelia

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