<p>Triple-negative breast cancer (TNBC) is an aggressive and highly lethal disease with limited therapies. While UFL1-mediated UFMylation has been implicated in various diseases, its role in TNBC remains not fully understood. Here, we demonstrate that AKT1 directly interacts with UFL1 and undergoes UFMylation at Lys189/276/297. This modification enhances AKT phosphorylation and activation, promoting tumor growth and chemoresistance in TNBC. In turn, AKT phosphorylates UFL1 at Thr426, establishing a positive feedback loop that sustains high activity of both pro-oncogenic regulators in TNBC. Disrupting the UFL1-AKT interaction using the specific peptide PDAU-TAT significantly inhibits TNBC progression both in vitro and in vivo. Clinically, elevated pT426 UFL1 correlates with high pAKT in TNBC specimens. These findings uncover a crucial UFL1-AKT positive feedback loop that drives TNBC progression and suggest that targeting this axis could offer a promising therapeutic strategy for TNBC and potentially other aggressive cancers characterized by upregulated UFL1 and AKT activation.</p>

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Targeting the UFL1-AKT cascade suppresses triple-negative breast cancer progression

  • Xiao Yang,
  • Yalei Wen,
  • Xiuqing Ma,
  • Shengying Qin,
  • Yixia Liu,
  • Jiaqi Chen,
  • Haoxing Zhang,
  • Colin R. Goding,
  • Rutao Cui,
  • Tongzheng Liu

摘要

Triple-negative breast cancer (TNBC) is an aggressive and highly lethal disease with limited therapies. While UFL1-mediated UFMylation has been implicated in various diseases, its role in TNBC remains not fully understood. Here, we demonstrate that AKT1 directly interacts with UFL1 and undergoes UFMylation at Lys189/276/297. This modification enhances AKT phosphorylation and activation, promoting tumor growth and chemoresistance in TNBC. In turn, AKT phosphorylates UFL1 at Thr426, establishing a positive feedback loop that sustains high activity of both pro-oncogenic regulators in TNBC. Disrupting the UFL1-AKT interaction using the specific peptide PDAU-TAT significantly inhibits TNBC progression both in vitro and in vivo. Clinically, elevated pT426 UFL1 correlates with high pAKT in TNBC specimens. These findings uncover a crucial UFL1-AKT positive feedback loop that drives TNBC progression and suggest that targeting this axis could offer a promising therapeutic strategy for TNBC and potentially other aggressive cancers characterized by upregulated UFL1 and AKT activation.