<p>Although senolytics such as dasatinib and quercetin (D+Q) show promise in modulating aging, their tissue-specific efficacy and optimal intervention timing remain poorly understood. Given D+Q’s potential off-target effects, incomplete senescent cell clearance and associated hematologic side effects, we performed an unbiased multitissue single-cell analysis in aged mice across different aging phenotypes and tissue contexts. Here through integrative transcriptomics, single-cell technologies, histopathology and molecular profiling, we investigated the influence of D+Q treatment on aging-related phenotypes at the tissue and cellular levels. Specifically, D+Q remodeled immunity by enhancing immune cell function and maintaining population stability, alleviated tissue inflammation and improved metabolic profiles. Furthermore, intervention initiated during early aging and prolonged treatment showed a greater tendency to mitigate readouts of aging compared to shorter, late-stage treatment. Our findings reveal that D+Q systematically attenuates several aging hallmarks in a tissue- and cell-type-specific manner, and support the possibility that early-initiated, long-term intervention may amplify efficacy.</p>

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Profiling the molecular and physiological effects of senolytic treatment on aged mice identifies immune, fibrotic and metabolic remodeling

  • Jing Hou,
  • Kai-Xuan Chen,
  • Qiao-Ni Xiao,
  • Chen Hu,
  • Jie Wei,
  • Yang-Zi Jiang,
  • Ling Liu,
  • Chen He,
  • Mei Huang,
  • Yu-Rui Jiao,
  • Xiang Tang,
  • Nan-Yu Zou,
  • Wen-Zhen He,
  • Yu-Chen Sun,
  • Yue-Ying Zhou,
  • Xi Huang,
  • Chao Zeng,
  • Guang-Hua Lei,
  • Yi-Lun Wang,
  • Chang-Jun Li

摘要

Although senolytics such as dasatinib and quercetin (D+Q) show promise in modulating aging, their tissue-specific efficacy and optimal intervention timing remain poorly understood. Given D+Q’s potential off-target effects, incomplete senescent cell clearance and associated hematologic side effects, we performed an unbiased multitissue single-cell analysis in aged mice across different aging phenotypes and tissue contexts. Here through integrative transcriptomics, single-cell technologies, histopathology and molecular profiling, we investigated the influence of D+Q treatment on aging-related phenotypes at the tissue and cellular levels. Specifically, D+Q remodeled immunity by enhancing immune cell function and maintaining population stability, alleviated tissue inflammation and improved metabolic profiles. Furthermore, intervention initiated during early aging and prolonged treatment showed a greater tendency to mitigate readouts of aging compared to shorter, late-stage treatment. Our findings reveal that D+Q systematically attenuates several aging hallmarks in a tissue- and cell-type-specific manner, and support the possibility that early-initiated, long-term intervention may amplify efficacy.