<p>Whether pyroptosis is controllable and reversible remains an enigma. Here we revealed that autophagy could eliminate the pore-formed N terminus of GSDME (GSDME-NT) located on membranes at different locations, suppressing pyroptosis. Crucially, GSDME-NT on the plasma membrane was eliminated through endocytic internalization, where GSDME-NT-laden vesicles were targeted and degraded as intact units. Specifically, GSDME-NT pores on the plasma membrane induced endocytosis, generating endocytosed but leaky vesicles carrying GSDME-NT. Leakage prevented acidification, necessitating further degradation through autophagy. Upon endocytosis, GSDME-NT on the vesicle membrane was labelled with ubiquitin by calcium-activated E3 ligase NEDD4L. These labelled vesicles were recognized by TOLLIP, guiding subsequent autophagosome formation, and enabling further acidification, fusion with lysosomes and eventual GSDME-NT degradation. Furthermore, in several tumour models, either disturbing autophagy or interfering with the recognition of GSDME-NT vesicles by targeting TOLLIP increased tumour cell pyroptosis, activating antitumour immunity and promoting chemotherapeutic efficacy.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

TOLLIP targets GSDME-NT-carrying endocytic vesicles for autophagy to regulate pyroptosis and chemotherapy efficacy

  • Zhimin Xu,
  • Zhe Li,
  • Zhenji Deng,
  • Cong Ding,
  • Jiawei Wu,
  • Chuqing Zhang,
  • Hanmiao Wei,
  • Tingxiang He,
  • Liufen Long,
  • Linglong Tang,
  • Jun Ma,
  • Xiaoyu Liang

摘要

Whether pyroptosis is controllable and reversible remains an enigma. Here we revealed that autophagy could eliminate the pore-formed N terminus of GSDME (GSDME-NT) located on membranes at different locations, suppressing pyroptosis. Crucially, GSDME-NT on the plasma membrane was eliminated through endocytic internalization, where GSDME-NT-laden vesicles were targeted and degraded as intact units. Specifically, GSDME-NT pores on the plasma membrane induced endocytosis, generating endocytosed but leaky vesicles carrying GSDME-NT. Leakage prevented acidification, necessitating further degradation through autophagy. Upon endocytosis, GSDME-NT on the vesicle membrane was labelled with ubiquitin by calcium-activated E3 ligase NEDD4L. These labelled vesicles were recognized by TOLLIP, guiding subsequent autophagosome formation, and enabling further acidification, fusion with lysosomes and eventual GSDME-NT degradation. Furthermore, in several tumour models, either disturbing autophagy or interfering with the recognition of GSDME-NT vesicles by targeting TOLLIP increased tumour cell pyroptosis, activating antitumour immunity and promoting chemotherapeutic efficacy.