Abstract
TAOK3 is a lesser-studied MAPK family serine/threonine kinase our group has shown to be targeted by HPV integration, suggesting a potential role in driving invasive cervical cancer (ICC). Here, we profiled TAOK3 expression in patient tumors, metastases, and cervical cancer models and localized TAOK3 within a tumor epithelial subpopulation by integrating two single-cell RNA-seq datasets. Functional consequences of TAOK3 loss were assessed with siRNA and CRISPRi in cell lines and 3D spheroids. In vivo effects were evaluated in intracervical xenografts with species-specific RNA-seq to resolve tumor versus microenvironmental responses. TAOK3 mRNA/protein were elevated in primary and metastatic ICC and primarily localized to a keratin-positive epithelial subset (T3epi) enriched for cadherin/S100 binding, vesicle/endocytic pathways, and leading-edge programs. TAOK3 silencing reprogrammed transcriptomes and proteomes toward reduced WNT/cell-cycle and motility signaling, altered endocytosis and cytoskeleton organization, and reshaped phospho-networks linked to chromatin remodeling and ERBB2-ERBB3/cytoskeletal kinase activity. Functionally, TAOK3 inhibition prolonged G2/M, suppressed invasion, and enhanced sensitivity to low dose paclitaxel. Prolonged inactivation induced methuosis-like cell death with extracellular ATP release. In xenografts, TAOK3 knockdown reduced tumor burden, downregulated KRT14--a leader cell marker--within the human tumor compartment, and enriched microenvironmental pathways for immune activation, with a specific decrease in CD206+ M2 macrophages. TAOK3 delineates an invasion-competent epithelial state in ICC and coordinates cell-cycle control, cytoskeleton-membrane dynamics, and tumor-immune crosstalk. Genetic or pharmacologic TAOK3 inhibition constrains tumor growth, potentiates paclitaxel, and remodels the microenvironment toward anti-tumor immunity, supporting TAOK3 as a potential therapeutic target and biomarker in ICC. Statement of SignificanceTAOK3 marks an invasion-competent epithelial subpopulation in cervical cancer. TAOK3 inhibition slows tumor growth, enhances chemoresponse, and reduces M2 macrophages, revealing TAOK3 as a potential therapeutic target and biomarker for patient stratification.
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bioRxiv
The authors list and abstract were imported from bioRxiv on 11 Jul 2026.
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