{"type": "root", "children": [{"type": "p", "children": [{"type": "t", "text": "\nTNIP2 (also known as ABIN‐2) is increasingly recognized as a key modulator of nuclear factor‐κB (NF‐κB) signaling. Early studies identified members of the ABIN family as inhibitors of NF‐κB activation downstream of pro‐inflammatory stimuli. In endothelial cells, for example, ABIN‐2 interacts with the Tie2 receptor in an angiopoietin‐1–dependent manner to mediate anti‐inflammatory and anti‐apoptotic signals, while overexpression of ABIN‐2 (and related ABIN‐1) can block NF‐κB–driven gene expression in response to tumor necrosis factor and other agonists. These observations establish a role for TNIP2 in attenuating NF‐κB activation under inflammatory conditions."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "1", "end_ref": "3"}]}, {"type": "t", "text": ""}]}, {"type": "t", "text": "\n \n"}, {"type": "p", "children": [{"type": "t", "text": "\nTNIP2 also functions as an adaptor and scaffolding protein that integrates multiple signaling components. It is an integral component of complexes that include p105 and the MEK kinase TPL-2, where it helps maintain TPL-2 protein stability and modulates its kinase activity in Toll-like receptor pathways. TNIP2 contains a ubiquitin-binding domain (UBAN) that mediates interactions with linear polyubiquitin chains, thereby facilitating higher-order assembly of regulatory complexes and influencing IκB kinase (IKK) function—in some contexts even promoting IKKα autophosphorylation. Thus, through binding ubiquitinated proteins and connecting key signaling partners such as A20, p105, and TPL-2, TNIP2 plays both inhibitory and, in specific contexts, stimulatory roles in NF‐κB signaling."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "4", "end_ref": "10"}]}, {"type": "t", "text": ""}]}, {"type": "t", "text": "\n \n"}, {"type": "p", "children": [{"type": "t", "text": "\nIn addition to its fundamental roles in intracellular signal integration, altered TNIP2 expression has been implicated in diverse disease settings. In cancer, for instance, deregulation of TNIP2 via microRNAs (such as miR‐1180) has been linked to enhanced NF‐κB activity and increased tumor cell proliferation, as seen in hepatocellular carcinoma and some lymphomas. Similarly, in inflammatory and stress-related conditions—including major depressive disorder, liver regeneration, osteoarthritis, and multiple organ dysfunction syndrome after trauma—changes in TNIP2 expression correlate with perturbed NF‐κB responses and altered apoptosis or cell cycle kinetics. Moreover, in Alzheimer’s disease models, TNIP2 overexpression reduces amyloidogenic processing by promoting the degradation of BACE1 mRNA. Collectively, these findings highlight the context‐dependent roles of TNIP2 in restraining—or in some cases modulating—NF‐κB–driven inflammation and apoptosis, thereby influencing disease progression and tissue homeostasis."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "11", "end_ref": "17"}]}, {"type": "t", "text": ""}]}, {"type": "rg", "children": [{"type": "r", "ref": 1, "children": [{"type": "t", "text": "David P Hughes, Marie B Marron, Nicholas P J Brindle "}, {"type": "b", "children": [{"type": "t", "text": "The antiinflammatory endothelial tyrosine kinase Tie2 interacts with a novel nuclear factor-kappaB inhibitor ABIN-2."}]}, {"type": "t", "text": " "}, {"type": "i", "children": [{"type": "t", "text": "Circ Res (2003)"}]}, {"type": "t", "text": " DOI: "}, {"type": "a", "children": [{"type": "t", "text": "10.1161/01.RES.0000063422.38690.DC"}], "href": "https://doi.org/10.1161/01.RES.0000063422.38690.DC"}, {"type": "t", "text": " PMID: "}, {"type": "a", "children": [{"type": "t", "text": "12609966"}], "href": "https://pubmed.ncbi.nlm.nih.gov/12609966"}]}, {"type": "r", "ref": 2, "children": [{"type": "t", "text": "Amir Tadros, David P Hughes, Benjamin J Dunmore, et al. 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