{"type": "root", "children": [{"type": "p", "children": [{"type": "t", "text": "\nGenetic studies have revealed that PLCE1 is a critical susceptibility gene in a range of human disorders. Genome‐wide association analyses and mutational screenings have linked PLCE1 variants—notably rs2274223 and related alleles—to increased risk of gastric cancer, esophageal squamous cell carcinoma, and other upper gastrointestinal malignancies, as well as to congenital and early‐onset nephrotic syndromes including diffuse mesangial sclerosis. These findings underscore its clinical relevance in tumorigenesis and kidney development, with altered PLCE1 expression or function associating with adverse clinical outcomes in diverse patient populations."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "1", "end_ref": "10"}]}, {"type": "t", "text": "\n"}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nAt the molecular level, PLCE1 functions as an effector enzyme that integrates signals from small GTPases such as Ras and Rap. Upon stimulation by growth factors or receptor agonists, PLCE1 is activated to catalyze the hydrolysis of phosphoinositides, thereby generating second messengers like diacylglycerol and inositol trisphosphate. This activity coordinates intracellular Ca²⁺ mobilization and triggers downstream signaling cascades including protein kinase C activation. Additionally, PLCE1 plays a role in cytoskeletal remodeling by mediating R-Ras–dependent actin reorganization, thus influencing membrane protrusion and cell motility."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "11", "end_ref": "16"}]}, {"type": "t", "text": "\n"}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nBeyond its role in intracellular signaling, PLCE1 modulates tumor cell behavior by promoting processes such as proliferation, migration, invasion, and epithelial‑mesenchymal transition. In various cancers—including bladder carcinoma, head and neck squamous cell carcinoma, and non‐small cell lung cancer—overexpression or deregulated activity of PLCE1 has been shown to enhance invasive capacity and to support oncogenic signaling. Moreover, microRNAs (for example, miR‑145 and miR‑1976) have been identified as negative regulators of PLCE1, serving to counteract its tumor‐promoting effects by reducing its expression and downstream signaling output."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "17", "end_ref": "24"}]}, {"type": "t", "text": "\n"}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nIn addition to its role in oncogenesis, alterations in PLCE1 signaling appear to influence inflammatory and vascular responses in non‐cancerous conditions. For example, variants in PLCE1 have been associated with susceptibility to dengue shock syndrome, raising the possibility that aberrant PLCE1 function may modulate immune and endothelial responses during severe infections. Collectively, these studies illustrate the multifunctional nature of PLCE1 as a central mediator of Ras‐dependent signaling pathways that govern diverse biological processes—from organogenesis and maintenance of tissue homeostasis to cancer progression and inflammatory disease."}, {"type": "fg", "children": [{"type": "fg_f", "ref": "25"}]}, {"type": "t", "text": "\n"}]}, {"type": "rg", "children": [{"type": "r", "ref": 1, "children": [{"type": "t", "text": "Christian C Abnet, Neal D Freedman, Nan Hu, et al. 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