<p>Kinesin family member 14 (KIF14), a microtubule-associated motor protein, plays a crucial role in cytoskeletal dynamics, intracellular transport, and cell division. Oncological studies have consistently reported KIF14 overexpression across various cancers, including breast, ovarian, lung, liver, and brain tumors, associating it with poor clinical outcomes, increased tumor aggressiveness, and resistance to conventional therapies. This review comprehensively analyzed the involvement of KIF14 in cancer progression, particularly its roles in cell cycle regulation, mitotic spindle formation, and oncogenic signaling pathways. Additionally, the molecular mechanisms underlying its tumorigenic effects, its potential as a prognostic biomarker, and its viability as a therapeutic target are explored. The expanding understanding of KIF14’s oncogenic functions present promising opportunities for developing novel therapeutic strategies aimed at this key regulator of tumor growth and metastasis, addressing the urgent need for treatments targeting aggressive and therapy-resistant malignancies.</p>

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KIF14 in cancer biology: implications for diagnosis and therapy

  • Ashok Kumar Bishoyi,
  • Shaker Al-Hasnaawei,
  • Subbulakshmi Ganesan,
  • Aman Shankhyan,
  • Anima Nanda,
  • Aashna Sinha,
  • Subhashree Ray,
  • Deepak Nathiya

摘要

Kinesin family member 14 (KIF14), a microtubule-associated motor protein, plays a crucial role in cytoskeletal dynamics, intracellular transport, and cell division. Oncological studies have consistently reported KIF14 overexpression across various cancers, including breast, ovarian, lung, liver, and brain tumors, associating it with poor clinical outcomes, increased tumor aggressiveness, and resistance to conventional therapies. This review comprehensively analyzed the involvement of KIF14 in cancer progression, particularly its roles in cell cycle regulation, mitotic spindle formation, and oncogenic signaling pathways. Additionally, the molecular mechanisms underlying its tumorigenic effects, its potential as a prognostic biomarker, and its viability as a therapeutic target are explored. The expanding understanding of KIF14’s oncogenic functions present promising opportunities for developing novel therapeutic strategies aimed at this key regulator of tumor growth and metastasis, addressing the urgent need for treatments targeting aggressive and therapy-resistant malignancies.