IκBα and IκBβ possess injury context-specific functions that uniquely influence hepatic NF-κB induction and inflammation
Chenguang Fan, … , Weihong Zhou, John F. Engelhardt
Chenguang Fan, … , Weihong Zhou, John F. Engelhardt
Published March 1, 2004
Citation Information: J Clin Invest. 2004;113(5):746-755. https://doi.org/10.1172/JCI17337.
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Article Immunology

IκBα and IκBβ possess injury context-specific functions that uniquely influence hepatic NF-κB induction and inflammation

Abstract

IκB proteins play an important role in regulating NF-κB induction following a diverse range of environmental injuries. Studies evaluating IκBβ knock-in mice (AKBI), in which the IκBα gene is replaced by the IκBβ cDNA, have uncovered divergent properties of IκBα and IκBβ that influence their ability to activate hepatic NF-κB and subsequent downstream proinflammatory processes in a stimulus-specific manner. While AKBI mice demonstrated identical levels of hepatic NF-κB activation in response to endotoxin, a significantly reduced level of hepatic NF-κB activation was observed in AKBI mice after liver ischemia/reperfusion (I/R) injury. This reduced level of NF-κB activation in AKBI mice after liver I/R also correlated with decreased induction of serum TNF-α, reduced hepatic inflammation, and increased survival. In contrast, no differences in any of these indicators were observed between AKBI mice and WT littermates after a lethal injection of LPS. Molecular studies suggest that the specificity of IκBα, but not IκBβ, to properly regulate NF-κB induction during the acute phase of I/R injury is due to injury context–specific activation of c-Src and subsequent tyrosine phosphorylation of IκBα on Tyr42. These results demonstrate that IκBα and IκBβ play unique injury context–specific roles in activating NF-κB–mediated proinflammatory responses and suggest that strategies aimed at inhibiting IκBα gene expression may be of potential therapeutic benefit in hepatic I/R injury.

Authors

Chenguang Fan, Qiang Li, Yulong Zhang, Xiaoming Liu, Meihui Luo, Duane Abbott, Weihong Zhou, John F. Engelhardt

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Figure 4

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Neutrophil recruitment and liver dysfunction following liver I/R, but no...
Neutrophil recruitment and liver dysfunction following liver I/R, but not LPS challenge, is significantly attenuated in AKBI mice. (A) Liver tissues from ABKI and WT littermates were evaluated for histopathology in paraffin sections following LPS or I/R treatment. Livers from LPS-injected (4 μg/g body weight, i.v.) or I/R-treated (1 hour ischemia) mice were harvested at 18 hours after LPS treatment or reperfusion, respectively. Tissue samples were then fixed with 10% neutral formalin and embedded in paraffin for sectioning. Photomicrographs depict high-power (×400) and lower (×100) power representative photomicrographs for both AKBI and WT littermates for the indicated conditions. The high-power photomicrograph is an enlargement of the lower power field given for each example. (B) Hepatic neutrophil accumulation in WT and AKBI mice at 18 hours after reperfusion was quantified by measuring liver MPO activity. Values represent the mean (± SEM) for n = 4 independent animals in each group. (C) AKBI mice were compared to WT mice for liver function following I/R at the indicated time points. Values depict ALT levels (mean ± SEM) as an index for liver injury from n = 4 animals for each experimental point. Differences marked by daggers in B are statistically significant by the Student’s t test (P < 0.05). ALT profiles were also significantly different between AKBI and WT mice (P < 0.05) as assessed by ANOVA.