Kinesin-like protein KIFC2 stabilizes CDK4 to accelerate growth and confer resistance in HR+/HER2 breast cancer
Shao-Ying Yang, … , A Yong Cao, Da-Qiang Li
Shao-Ying Yang, … , A Yong Cao, Da-Qiang Li
Published April 29, 2025
Citation Information: J Clin Invest. 2025;135(12):e183531. https://doi.org/10.1172/JCI183531.
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Research Article Cell biology Oncology

Kinesin-like protein KIFC2 stabilizes CDK4 to accelerate growth and confer resistance in HR+/HER2 breast cancer

Abstract

Hormone receptor–positive and human epidermal growth factor receptor 2–negative breast cancer (HR+/HER2− BC) is the most common subtype, with a high risk of long-term recurrence and metastasis. Endocrine therapy (ET) combined with cyclin-dependent kinase 4/6 (CDK4/6) inhibitors is a standard treatment for advanced/metastatic HR+/HER2– BC, but resistance remains a major clinical challenge. We report that kinesin family member C2 (KIFC2) was amplified in approximately 50% of patients with HR+/HER2– BC, and its high expression was associated with poor disease outcome, increased tumor protein p53 (TP53) somatic mutation, and active pyrimidine metabolism. Functional assays revealed that depletion of KIFC2 suppressed growth and enhanced sensitivity of HR+/HER2– BC cells to tamoxifen and CDK4/6 inhibitors. Mechanistically, KIFC2 stabilized CDK4 by enhancing its interaction with ubiquitin-specific peptidase 9 X-linked (USP9X). Importantly, reexpression of CDK4 in KIFC2-depleted cells partially rescued the decreased growth and increased sensitivity to tamoxifen and CDK4/6 inhibitors caused by KIFC2 depletion. Clinically, high KIFC2 mRNA expression was negatively associated with the survival rate of patients with HR+/HER2– BC who received adjuvant ET alone or in combination with CDK4/6 inhibitors. Collectively, these findings identify an important role for KIFC2 in HR+/HER2– BC growth and therapeutic resistance, and support its potential as a therapeutic target and predictive biomarker.

Authors

Shao-Ying Yang, Ming-Liang Jin, Lisa Andriani, Qian Zhao, Yun-Xiao Ling, Cai-Jin Lin, Min-Ying Huang, Jia-Yang Cai, Yin-Ling Zhang, Xin Hu, Zhi-Ming Shao, Fang-Lin Zhang, Xi Jin, A Yong Cao, Da-Qiang Li

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Figure 4

KIFC2 interacts with CDK4 and enhances its protein stability.

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KIFC2 interacts with CDK4 and enhances its protein stability. (A and B) ...
(A and B) IP assays were performed on HEK293T cells expressing pLVX and Flag-KIFC2 with anti-Flag magnetic beads (A), followed by LC-MS/MS analysis of the gels (B). (C) KEGG pathway enrichment analysis of the 165 identified KIFC2-interacting proteins. (DF) HEK293T cells were transfected with pLVX, Flag-KIFC2, or HA-CDK4 plasmids alone or in combination, then subjected to sequential IP and immunoblot assays with the indicated antibodies. (G) MCF7 and T47D cells stably expressing pLVX or Flag-KIFC2 were subjected to IP and immunoblot assays with the indicated antibodies. (H) IF staining was performed to examine the colocalization of Flag-KIFC2 (green) and HA-CDK4 (red) in MCF7 and T47D cells. Nuclei were visualized by counterstaining with DAPI. Spearman’s rank correlation coefficient for both proteins was calculated with ImageJ software. Scale bars: 5 μm. (I and J) Immunoblot analysis of CDK4 protein levels in MCF7 and T47D cells with ectopic expression (I) or knockdown (J) of KIFC2. (K) IF staining was performed to analyze CDK4 protein levels in HR+/HER2 BC cells with stable shNC or shKIFC2 (1 and 2) expression. Scale bar: 10 μm. (L and M) MCF7 and T47D cells stably expressing shNC or shKIFC2 1 were treated with or without 100 μg/mL CHX for the indicated times, then subjected to immunoblot assays (L). (M) Relative protein levels of CDK4 (CDK4/vinculin).