{"type": "root", "children": [{"type": "p", "children": [{"type": "t", "text": "\n Homeodomain‐interacting protein kinase 1 (HIPK1) is an evolutionarily conserved nuclear serine/threonine kinase that integrates multiple signaling inputs to regulate cell proliferation, apoptosis, transcription, stress responses, and differentiation during both embryonic development and disease. In developing embryos, HIPK1 functions (often redundantly with its family members) to modulate morphogenetic signals—including those mediated by Sonic hedgehog and Wnt/β‐catenin—to control neural fold proliferation and proper cell fate determination."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "1"}]}, {"type": "t", "text": " In the nucleus, HIPK1 phosphorylates transcriptional regulators such as Daxx, thereby redistributing Daxx within nuclear subdomains and tempering its repressive activity"}, {"type": "fg", "children": [{"type": "fg_f", "ref": "3"}]}, {"type": "t", "text": ", and it targets p53—phosphorylating serine-15—to enhance p53’s transactivation potential, which contributes to cell cycle control and apoptotic responses."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "4"}]}, {"type": "t", "text": " Under stressful conditions such as TNFα stimulation, HIPK1 undergoes desumoylation and translocates transiently to the cytoplasm, a process that is critical for the activation of the ASK1–JNK/p38 pathway and the ensuing stress-induced apoptotic signaling."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "6"}]}, {"type": "t", "text": " In addition, HIPK1 modulates the balance between proliferation and cell cycle exit in neural stem/progenitor cells by influencing β‐catenin–dependent transcriptional programs."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "7"}]}, {"type": "t", "text": ""}]}, {"type": "t", "text": "\n \n "}, {"type": "p", "children": [{"type": "t", "text": "\n In oncogenic settings, HIPK1 plays multifaceted roles by modulating key regulators of tumorigenesis. For instance, its phosphorylation of the intrinsically disordered protein PAGE4 alters PAGE4’s conformation and its subsequent interaction with the AP-1 transcription factor c-Jun, thereby influencing the development and progression of malignancies such as prostate and lung cancers."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "8", "end_ref": "11"}]}, {"type": "t", "text": " Moreover, modulation of HIPK1 levels—either directly or via microRNAs such as miR-3065-5p—has been shown to affect cell proliferation and epithelial–mesenchymal transition in melanoma and lung cancer cells."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "12"}]}, {"type": "t", "text": " In cultured human cells, inhibition or genetic knockout of HIPK1 has been associated with enhanced recombinant protein expression, suggesting that HIPK1 may also influence translational output and hold promise for biotechnological applications."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "13"}]}, {"type": "t", "text": "\n "}]}, {"type": "t", "text": "\n \n "}, {"type": "p", "children": [{"type": "t", "text": "\n Finally, in inflammatory and oxidative stress contexts such as acute lung injury, elevated HIPK1 levels are linked to increased inflammation and oxidative markers, whereas HIPK1 knockdown reduces these effects and enhances protective autophagy."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "15"}]}, {"type": "t", "text": " Collectively, HIPK1 emerges as a pivotal regulator that orchestrates diverse cellular processes—from embryonic tissue patterning and transcriptional control to stress signaling and oncogenic modulation—highlighting its potential as both a biomarker and a therapeutic target in various pathological conditions.\n "}]}, {"type": "rg", "children": [{"type": "r", "ref": 1, "children": [{"type": "t", "text": "Kyoichi Isono, Kazumi Nemoto, Yuanyuan Li, et al. 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