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Visualizing the cellular internalization of therapeutic antibodies via pH-sensitive release of AIEgen.

Zai-Gang HanKaifeng HeYi ZhengZhongying Ru
Published in: Organic & biomolecular chemistry (2024)
Among the fastest-growing bio-pharmaceuticals, therapeutic antibodies have achieved unprecedented success in treating various diseases. Though powerful, issues such as inefficacy or acquired resistance are waiting to be addressed to benefit more patients with improved therapeutic outcomes. In addition to in vivo distribution, the cellular spatiotemporal information including the antibody-antigen interaction and subsequent internalization is found to be important for the therapeutic effects. To better understand the cellular fate of therapeutic antibodies, especially the cellular internalization process, we employed a pH-sensitive linker to attach a red-emissive AIEgen onto the antibody. The resulting antibody conjugate will undergo AIEgen release to liberate brilliant fluorescence inside acidic endo/lysosomes, allowing wash-free visualization of the internalization process and facilitating the evaluation of antibody-drug efficacy.
Keyphrases
  • healthcare
  • single molecule
  • metabolic syndrome
  • skeletal muscle
  • cancer therapy
  • energy transfer
  • glycemic control