Engineering a Near-Infrared Spiro-Based Aggregation-Induced Emission Luminogen for DNAzyme-Sensitized Photothermal Therapy with High Efficiency and Accuracy

Aggregation-induced emission luminogen (AIEgens)-based photothermal therapy (PTT) has grown into a sparkling frontier for tumor ablation. However, challenges remain due to the uncoordinated photoluminescence (PL) and photothermal properties of classical AIEgens, along with hyperthermia-induced antiapoptotic responses in tumor cells, hindering satisfactory therapeutic outcomes. Herein, a near-infrared (NIR) spiro-AIEgen <b>TTQ-SA</b> was designed for boosted PTT by auxiliary DNAzyme-regulated tumor cell sensitization. <b>TTQ-SA</b> with a unique molecular structure and packing mode was initially fabricated, endowing it with a strong AIE effect, favorable PL quantum yield, and good photothermal performance. DNAzyme, as a gene silencing tool, could alleviate antiapoptosis response during PTT. By integrating <b>TTQ-SA</b> and DNAzyme into folate-modified poly(lactic-<i>co</i>-glycolic acid) (PLGA) polymer, the as-fabricated nanosystem could promote cell apoptosis and sensitize tumor cells to PTT, thereby maximizing the therapeutic outcomes. With the combination of spiro-AIEgen-based PTT and DNAzyme-based gene silencing, the as-designed nanosystem showed promising NIR and photothermal imaging abilities for tumor targeting and demonstrated significant cell apoptotic, antitumor, and antimetastasis effects against orthotopic breast cancer. Furthermore, a synergistic antitumor effect was realized in spontaneous MMTV-PyMT transgenic mice. These findings offer new insights into AIEgen-based photothermal theranostics and DNAzyme-regulated tumor cell sensitization, paving the way for synergistic gene silencing-PTT nanoplatforms in clinical research.