Obesity is a surging public health risk and is often associated with fatal diseases, including diabetes, stroke, and myocardial infarction. Common methods for obesity treatment include diet control, weight-loss medicine, and bariatric surgery, but these methods are often ineffective or unsafe. Herein, we introduce a minimally invasive and effective approach to reduce excessive fat accumulation by utilizing red/near-infrared emissive and lipid droplet targeting aggregation-induced emissive luminogens (AIEgens), namely, TTMN and MeTTMN, for specific targeting and photoinduced peroxidation of large lipid droplets in adipocytes. The reported AIEgens can trace and monitor the formation process of adipocytes from pre-adipocytes with a high signal-to-noise ratio. In addition, the presented AIEgens act as Type I photosensitizer that generates highly reactive hydroxyl radicals and superoxides under white light to eliminate mature adipocytes through the chain reactions of lipid peroxidation, even under low oxygen supply. We also demonstrate the use of AIEgens for in vivo photodynamic therapy (PDT) for subcutaneous fat reduction treatment. This work demonstrates the use of AIEgen as a dual imaging and Type I photosensitizer for photodynamic therapeutics to induce adipocyte apoptosis, involving a simple fabrication and treatment process. The suggested in vivo photodynamic obesity treatment processes have negligible toxicity toward nontargeted normal tissues, providing an alternative approach for effective and relatively safer obesity treatment in the future.
Keywords: Type I photosensitizer; adipocyte imaging; aggregation-induced emission; lipid peroxidation; obesity; photodynamic therapy.