<p>Dysregulation of transfer RNA (tRNA) modification and reprogramming of codon-biased translation are commonly associated with cancer initiation and progression. However, their roles in chemoresistance and tumor recurrence remain poorly understood, especially in glioblastoma (GBM). This study establishes the tRNA-modifying enzyme YrdC <i>N</i><sup>6</sup>-Threonylcarbamoyltransferase Domain Containing (YRDC) as a key mediator of temozolomide (TMZ) resistance in GBM. YRDC catalyzes the formation of <i>N</i><sup>6</sup>-threonylcarbamoyladenosine (t<sup>6</sup>A) on ANN-decoding tRNAs (A denotes adenosine, and N denotes any nucleotide). YRDC expression is elevated in TMZ-resistant models and recurrent GBM, correlating with poor patient prognosis. Mechanistically, YRDC drives ANN codon-biased translation of target mRNAs, most notably encoding the fatty acid-binding protein FABP7. Elevated FABP7 induces lipid droplet accumulation, which sequesters TMZ-induced reactive oxygen species to mitigate oxidative stress and confer chemoresistance. Targeting this axis, we developed HY-Q66655, a novel blood-brain-barrier-penetrant YRDC inhibitor identified via virtual screening. HY-Q66655 directly inhibits YRDC, suppresses FABP7 translation, depletes lipid droplets, and acts synergistically with TMZ to inhibit tumor growth in vitro and in patient-derived orthotopic xenografts. The YRDC/FABP7 pathway is clinically associated with GBM recurrence, and HY-Q66655 demonstrates broad-spectrum anti-tumor activity across malignancies, revealing a tRNA modification-dependent mechanism and a potential therapeutic strategy.</p><p></p>

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Targeting YRDC blocks codon-biased FABP7 translation and lipid droplet formation to overcome chemoresistance in glioblastoma

  • Yuchao Zhang,
  • Xuesong Yang,
  • Xixi Li,
  • Chen Zheng,
  • Xuechao Zeng,
  • Junju Chen,
  • Mingpu Gao,
  • Long Cheng,
  • Zhenyan Xu,
  • Lanjie Chen,
  • Yixin Gao,
  • Jian Zhong,
  • Nunu Huang,
  • Xuesong Liu,
  • Kejun He,
  • Nu Zhang,
  • Xujia Wu

摘要

Dysregulation of transfer RNA (tRNA) modification and reprogramming of codon-biased translation are commonly associated with cancer initiation and progression. However, their roles in chemoresistance and tumor recurrence remain poorly understood, especially in glioblastoma (GBM). This study establishes the tRNA-modifying enzyme YrdC N6-Threonylcarbamoyltransferase Domain Containing (YRDC) as a key mediator of temozolomide (TMZ) resistance in GBM. YRDC catalyzes the formation of N6-threonylcarbamoyladenosine (t6A) on ANN-decoding tRNAs (A denotes adenosine, and N denotes any nucleotide). YRDC expression is elevated in TMZ-resistant models and recurrent GBM, correlating with poor patient prognosis. Mechanistically, YRDC drives ANN codon-biased translation of target mRNAs, most notably encoding the fatty acid-binding protein FABP7. Elevated FABP7 induces lipid droplet accumulation, which sequesters TMZ-induced reactive oxygen species to mitigate oxidative stress and confer chemoresistance. Targeting this axis, we developed HY-Q66655, a novel blood-brain-barrier-penetrant YRDC inhibitor identified via virtual screening. HY-Q66655 directly inhibits YRDC, suppresses FABP7 translation, depletes lipid droplets, and acts synergistically with TMZ to inhibit tumor growth in vitro and in patient-derived orthotopic xenografts. The YRDC/FABP7 pathway is clinically associated with GBM recurrence, and HY-Q66655 demonstrates broad-spectrum anti-tumor activity across malignancies, revealing a tRNA modification-dependent mechanism and a potential therapeutic strategy.