Rossana De Lorenzi scite author profile

The IkappaB kinase complex IKK is a central component of the signaling cascade that controls NF-kappaB-dependent gene transcription. So far, its function in the brain is largely unknown. Here, we show that IKK is activated in a mouse model of stroke. To investigate the function of IKK in brain ischemia we generated mice that contain a targeted deletion of Ikbkb (which encodes IKK2) in mouse neurons and mice that express a dominant inhibitor of IKK in neurons. In both lines, inhibition of IKK activity markedly reduced infarct size. In contrast, constitutive activation of IKK2 enlarged the infarct size. A selective small-molecule inhibitor of IKK mimicked the effect of genetic IKK inhibition in neurons, reducing the infarct volume and cell death in a therapeutic time window of 4.5 h. These data indicate a key function of IKK in ischemic brain damage and suggest a potential role for IKK inhibitors in stroke therapy.

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Sustained Oscillations of NF-κB Produce Distinct Genome Scanning and Gene Expression Profiles

Sung

Salvatore²,

et al. 2009

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NF-κB is a prototypic stress-responsive transcription factor that acts within a complex regulatory network. The signaling dynamics of endogenous NF-κB in single cells remain poorly understood. To examine real time dynamics in living cells, we monitored NF-κB activities at multiple timescales using GFP-p65 knock-in mouse embryonic fibroblasts. Oscillations in NF-κB were sustained in most cells, with several cycles of transient nuclear translocation after TNF-α stimulation. Mathematical modeling suggests that NF-κB oscillations are selected over other non-oscillatory dynamics by fine-tuning the relative strengths of feedback loops like IκBα. The ability of NF-κB to scan and interact with the genome in vivo remained remarkably constant from early to late cycles, as observed by fluorescence recovery after photobleaching (FRAP). Perturbation of long-term NF-κB oscillations interfered with its short-term interaction with chromatin and balanced transcriptional output, as predicted by the mathematical model. We propose that negative feedback loops do not simply terminate signaling, but rather promote oscillations of NF-κB in the nucleus, and these oscillations are functionally advantageous.

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Inhibition of transcription factor NF-κB in the central nervous system ameliorates autoimmune encephalomyelitis in mice

et al. 2006

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Activation of transcription factor NF-kappaB in the central nervous system (CNS) has been linked to autoimmune demyelinating disease; however, it remains unclear whether its function is protective or pathogenic. Here we show that CNS-restricted ablation of 'upstream' NF-kappaB activators NEMO or IKK2 but not IKK1 ameliorated disease pathology in a mouse model of multiple sclerosis, suggesting that 'canonical' NF-kappaB activation in cells of the CNS has a mainly pathogenic function in autoimmune demyelinating disease. NF-kappaB inhibition prevented the expression of proinflammatory cytokines, chemokines and the adhesion molecule VCAM-1 from CNS-resident cells. Thus, NF-kappaB-dependent gene expression in non-microglial cells of the CNS provides a permissive proinflammatory milieu that is critical for CNS inflammation and tissue damage in autoimmune demyelinating disease.

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IKK1 and IKK2 cooperate to maintain bile duct integrity in the liver

Luedde

Heinrichsdorff

Lorenzi

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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Inflammatory destruction of intrahepatic bile ducts is a common cause of vanishing bile duct syndrome and cholestasis, often progressing to biliary cirrhosis and liver failure. However, the molecular mechanisms underlying the pathogenesis of inflammatory biliary disease are poorly understood. Here, we show that the two I B kinases, IKK1/IKK␣ and IKK2/IKK␤, display distinct collaborative and specific functions that are essential to protect the liver from cytokine toxicity and bile duct disease. Combined conditional ablation of IKK1 and IKK2, but not of each kinase alone, sensitized the liver to in vivo LPS challenge, uncovering a redundant function of the two I B kinases in mediating canonical NF-B signaling in hepatocytes and protecting the liver from TNF-induced failure. Unexpectedly, mice with combined ablation of IKK1 and IKK2 or IKK1 and NEMO spontaneously developed severe jaundice and fatal cholangitis characterized by inflammatory destruction of small portal bile ducts. This bile duct disease was caused by the combined impairment of canonical NF-B signaling together with inhibition of IKK1-specific functions affecting the bile-blood barrier. These results reveal a novel function of the two I B kinases in cooperatively regulating liver immune homeostasis and bile duct integrity and suggest that IKK signaling may be implicated in human biliary diseases.cholangitis ͉ inflammation ͉ liver disease ͉ mouse models ͉ signal transduction

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GFP‐p65 knock‐in mice as a tool to study NF‐κB dynamics in vivo

Lorenzi

Gareus

Fengler

et al. 2009

Genesis

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The nuclear factor kappaB (NF-kappaB) signaling pathway regulates immune and inflammatory responses and is implicated in the pathogenesis of multiple diseases. The principal mechanism controlling NF-kappaB activation depends on the association of NF-kappaB transcription factor dimers with IkappaB molecules, which prevents the accumulation of NF-kappaB in the nucleus and the activation of target gene transcription. Monitoring the nucleocytoplalsmic shuttling of NF-kappaB factors is a reliable method to study the dynamic regulation of NF-kappaB activity. Here, we generated knock-in mice expressing a fusion protein between the green fluorescent protein (GFP) and the p65/RelA NF-kappaB subunit (GFP-p65) from the endogenous p65 genomic locus. Homozygous GFP-p65 mice developed normally and showed normal NF-kappaB activation, demonstrating that the GFP-p65 fusion protein functionally substitutes for wild-type p65. Live imaging of primary cells from GFP-p65 mice allowed real-time monitoring of p65 nucleocytoplasmic shuttling upon NF-kappaB activation. Therefore, the GFP-p65 knock-in mice constitute an invaluable tool for studying the dynamic regulation of NF-kappaB.

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