{"type": "root", "children": [{"type": "p", "children": [{"type": "t", "text": "\nRecent studies have revealed that PQBP1 functions as an intracellular sensor that directly binds nucleic acids—from reverse‐transcribed HIV‐1 DNA to aberrant tau protein aggregates—and couples these recognition events to the activation of innate immune signaling. In dendritic cells, PQBP1 binds HIV‐1 cDNA and interacts with cGAS to trigger an IRF3‐dependent antiviral response, while in microglia it directly senses extracellular tau, promoting NFκB nuclear translocation via the cGAS–STING pathway. Moreover, PQBP1 can modulate the IFI16/cGAS pathway in response to cytosolic DNA, underscoring its pivotal role in innate immunity."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "1", "end_ref": "3"}]}, {"type": "t", "text": "\n"}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nIn addition to its immunological functions, PQBP1 is a nuclear protein that plays a crucial role in pre‐mRNA splicing and transcriptional regulation. By interacting with spliceosomal factors such as U5-15 kD, WBP11, and TXNL4A, its WW domain—and mutations therein—profoundly affect RNA processing. Genetic alterations in the PQBP1 gene, including frameshift mutations and subtle in-frame deletions, have been linked to X-linked intellectual disability syndromes (e.g., Renpenning syndrome), characterized by microcephaly, short stature, and dysmorphic features. A cytoplasmic pool of PQBP1 further participates in mRNA metabolism by associating with RNA-binding proteins and integrating into neuronal RNA granules and stress granules, suggesting a broader impact on neuronal development and cognitive function."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "4", "end_ref": "15"}]}, {"type": "t", "text": "\n"}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nBeyond its roles in RNA metabolism and innate immunity, PQBP1 also helps regulate translational elongation and synaptic plasticity by binding to non-phosphorylated eEF2 and thereby suppressing eEF2K-mediated phosphorylation—a mechanism critical for proper mGluR-dependent long-term depression. Structural studies indicate that disease-associated PQBP1 mutations, including those affecting the WW domain and frameshift variants that eliminate key motifs, lead to aberrant protein–protein interactions, abnormal oligomerization (with formation of stable dimers rather than higher aggregates), and loss of function. These molecular perturbations can provoke mitochondrial stress in neurons and even contribute to oncogenic processes by altering splicing of apoptotic regulators such as BAX. Finally, studies in Drosophila as well as clinical investigations in patients further underscore the dose-dependent and multi-tissue effects of PQBP1 on neural development and longevity."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "16", "end_ref": "26"}]}, {"type": "t", "text": "\n"}]}, {"type": "rg", "children": [{"type": "r", "ref": 1, "children": [{"type": "t", "text": "Sunnie M Yoh, Monika Schneider, Janna Seifried, et al. 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